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Problem 10: (etermie the curret i the 16 ohm resistor usig ortos ortos theorem A. 1.5$ A &. 1.25 A %. 1.0 A (. 1.-- A Problem 110: (etermie the curret i the 106 ohm resistor usig heveis theorem. A. 0.8-- A &. 0. A %. 0.0 A (. 0.508 A Problem 111: (etermie the curret i the 6 ohm resistor by Duperpositio theorem. A. -.$ A &. $.2 A %. $.0 A (. -.8 A Problem 112: (etermie the loo3ig bac3 resistace bet"ee termials a M b. A. 11 &. %. 10 (. 12 Problem 11-: (etermie l. A. $.50 A &. $.28 A %. 5.-$ A (. -.5 A Problem 11$: (etermie the voltage ,. A. 1$ , &. 12 , %. 10 , (. 1 ,
TEST " # Electrostatics Electrostatics Problem 115: 77 &oard Carch 18 hree eual positive charges of 10 statcoulomb each are located at the vertices of a euilateral triagle of 2 cm leg. +hat is the magitude of the force actig o each charge# A. 12.5 dyes &. 25 dyes %. $-.- dyes (. 50 dyes Problem 11: 77 &oard ctober 1
"o "o poit charges 10 cm apart exert a force of 1 x 10 raised to the >6-? grams o each other. If the charges are the same value! "hat is the value of each charge i statcoulomb# A. 8.0 stat coulomb &. .0 stat coulomb &. .0 stat coulomb (. .0 stat coulomb Problem 11: 77 &oard April 1 "o "o electros i a vacuum experiece a force of 2 x 10 615 . /o" far apart are the electros# A. 0.$8 x 106 m &. 2.8$ x 10612 m %. -.- x 106 m (. 5.05 x 10612 m Problem 118: "o "o poit charges of 2 % ad 5 % are 10 meters apart. A third poit poit charge of % is placed bet"ee them. At "hat distace from the 5 % charge must the % charge is placed! i such a "ay that it "ill stay i euilibrium# A. .125 m &. 5.-5 m %. .025 m (. 5.25 m Problem 11: 77 &oard ctober 1 "o "o spheres separated from each other by 10 m have charges of 0.001 coulomb ad 0.00- coulomb respectively. respectively. I bet"ee the t"o spheres is a poit of Bero electric field. +hat is the distace from the 0.001 coulomb sphere# A. .-$ m &. .8 m %. 2.2$ m (. -. C Problem 120: %alculate the magitude of the electric field at a poit that is -0 cm from a poit charge Q< 6-.2 x 10 6 %. A. -.2 x 10 % &. -.0 x 105 % %. 2.8 x 10 % (. 2.$ x 105 % Problem 121: 77 &oard ctober 18 "o "o metallic plates separated by 1 cm are coected across a 12 , battery. A certai plastic material is iserted completely fillig the space bet"ee the plates ad the charge o each plate observed to double. +hat is the dielectric costat of the plastic material# A. 0.5 &. 2 %. $ (. Problem 122: 77 &oard ctober 11 %alculate the capacitace bet"ee t"o parallel plates of "hich is 100 cm 2 ad 2 mm apart i air. A. 0.$$- RRE &. 0.515 RRE %. 0.$52 RRE (. 0.502 RRE Problem 12-: A capacitor has t"o parallel metal plates measurig 0.$5 m suare each. he distace bet"ee the plates is 1 cm i free air. If a dielectric material "hose permittivity is $ ad 5 mm thic3 is placed i the upper plate! leavig a air gap bet"ee the bottom plate ad the dielectric! "hat is the capacitace of the capacitor# A. 20 RRE &. 25$ RRE %. 1- RRE (. 28 RRE Problem 12$: A capacitor is composed of t"o plates separated by a -6mm isulatio "hose dielectric costat is $. A additioal piece of 6mm isulatio is iserted bet"ee the plates. +hat is the dielectric costat of the additioal isulatio if the capacitace of the capacitor decreases to half as much of its origial value# A. 5 &. 8 %. (. Problem 125:
A parallel6 plate capacitor has a euivalet capacitace of 850 pE. he he area of each plate is cm 2 ad the thic3ess of the dielectric is 0.02 cm. If the material used as the dielectric has a costat of 8! ho" may sectios are there i parallel# A. $ &. 5 %. (. Problem 12: 77 &oard ctober 1$ A parallel plate capacitor is made of -50 plates! separated by paraffied paper 0.0010 cm thic3 >3< 2.5?. he effective siBe of a plate is 15 by -0 cm. +hat is the capacitace of the capacitor# A. -5 RE &. 15 RE %. 1$0 RE (. 0 RE Problem 12: 77 &oard ctober 1 A capacitor is charged "ith 0.2- "att6 secod of eergy at a voltage of $8 volts. +hat is its capacitace# A. 180 RE &. 2$0 RE %. 200 RE (. 220 RE Problem 128: 77 &oard ctober 1 A 206 RE capacitor is charged by a 126 , battery. +hat is the stored eergy i the capacitor# A. 1.0 x 106- S &. 2.88 x 1062 S %. 2.88 x 106- S (. 1.$$ x 106- S Problem 12: 77 &oard ctober 1$ A parallel plate capacitor "ith air bet"ee its plate is charged util the potetial differece , appears across it. Aother capacitor havig a hard rubber >dielectric costat < -? bet"ee its plates but other"ise idetical! is also charged to the same potetial differece. If the eergy of the first capacitor is +! that of the secod is A. + &. +%. + (. -+ Problem 1-0: A capacitor "hose plates is 20 cm x -.0 c m ad is separated by a 1.06 mm air gap is coected across a 126 , battery. battery. (etermie the charge accumulated o each plate after a log time. A. 5.- x 10612 % &. .2 x 106 % %. 8.1 x 10611 % (. .$ x 10610 % Problem 1-1: 77 &oard ctober 10 he result of capacitace % 1 < microfarads ad % 2 coected i series is - microfarads. %apacitor % 2 i microfarads is A. &. $ %. 8 (. Problem 1-2: he euivalet capacitace of t"o capacitors i series is 0.0- RE ad "he coected i parallel! 0.1 RE. If the capacitor "ith smaller capacitace is replaced "ith a capacitor "hose capacitace is double as much "hat "ill be the e" euivalet series capacitace of the combiatio. A. 0.0$8 RE &. 0.005 RE %. 0.0$2 RE (. 0.050 RE Problem 1--: hree capacitors of 1! 15 ad 12 RE respectively are coected i series. +hat is the maximum voltage that ca be supplied to the combiatio if the voltage drop across ay of the three capacitors must ot to exceed 100 ,. A! 20 , &. 2$5 , %. 255 , (. 250 , Problem 1-$: hree capacitors of 20! 10 ad 15 RE respectively are coected i series across a 100 , supply. supply. Eid the voltage across the 10 RE capacitor. A. 5$.52 , &. $.15 ,
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-8.25 ,
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Problem 1-5: hree codesers of ! 10 ad 15 RE are coected i series across a 200 , supply. supply. If the codesers are discoected! ho" much eergy ca the charged codeser provide if coected across each other "ith li3e polarities together# together# A. 0.052 S &. 0.00 S %. 0.0 S (. 0.08 S Problem 1-: "o "o capacitors "ith capacitace of RE ad $ RE are coected i series across a 100 , dc source. If the supply voltage is cut6 off ad the t"o capacitors are coected i parallel! "hat "ill be the fial charge accumulated i the $ RE capacitor# A. R% &. 12 R% %. 12 R% (. 88 R% Problem 1-: A $0 RE capacitor is charged to store 0.2 S of eergy. eergy. A ucharged 0 RE capacitor is coected i parallel "ith the first oe through a perfectly coductig leads. +hat is the eergy lost due to the "or3 doe by the charges i spreadig out over the t"o capacitors# A. 0.08 S &. 0.12 S %. 0.80 S (. 0.012 S Problem 1-8: Eour capacitors A! &! % ad (are coected across a 1506, (% source. he charges accumulated i A! & ad % are eual to 2000! 50 ad 1500 R%! respectively. respectively. If the total capacitace of the combiatio is 3o" to be -5 RE! ho" much charged is the accumulated i capacitor (# A. 1200 R% &. 1000 R% %. 1150 R% (. 1$00 R% Problem 1-: 77 &oard ctober 1A codeser codeser of 1 microfarad capacitace is charge to 100 volts ad the discoected from the po"er supply. supply. A secod but ucharged capacitor of - microfarad is the coected across the first capacitor. he voltage across the parallel combiatio is A. 2- volts &. $5 volts %. 25 ,olts (. 110 volts Problem 1$0: 77 &oard ctober 1$ hree capacitors A! & ad % are charged as follo"s: A< 10 RE! 100 ,T &< 15 RE! 150 , ad %< 25 RE! 200 ,. they are coected i parallel "ith termials of li3e polarity together. +hat is the voltage across the combiatio# A. 150 A &. 120 , %. 185 , (. 15 , Problem 1$1: A 100 RE capacitor is charged from a 2006 , supply. supply. he charged capacitor is the coected across three ucharged capacitors coected coected i parallel. he charges o these capacitors after a log time become $000! 5000 ad 000 R%. Dolve the voltage across the combiatio. A. $ , &. 50 , %. , (. 80 , Problem 1$2: "o "o capacitors of 200 ad 800 E! respectively respectively are coected i parallel. he combiatio is the coected i series "ith aother t"o capacitors of % ad 00 E coected i parallel. If the total capacitace of the set6 up is 500 E! determie the capacitace %. A. 50 E &. 550 E %. $00 E (. 500 E
Problem 1$-:77 &oard April 1 A coaxial cable has a 106mm diameter iside coductor ad a metallic sheath "ith a iside diameter of 20 mm. If the isulatig medium has a dielectric costat! 3< 2! ad a permittivity of 1.111.11- × 10610! "hat is the capacitace bet"ee the coductor ad the shield per 3m# A. 0.105 µE3m &. 0.80- µE3m %. 0.080- µE3m (. 0.0$0- µE3m Problem 1$$:77 &oard ctober 1$ A lead6sheath cable for udergroud service has a copper coductor >diameter<0.-50 ich? surrouded by 0.206ich "all of rubber isulatio. Assumig Assumig the dielectric costat of $.- for rubber! calculate the capacitace of the cable per mile legth. A. 1.01 µEmile &. 0.50$ µEmile %. 0. µEmile (. 0.252 µmile
TEST $ – %anetic Circuits Problem 1$5:77 &oard ctober 1$ he force actig o a pole of - +b is 12 . he magetic itesity of the magetic field is A. $ per +b &. 12 12 per +b %. - - per +b (. o oe 0f these Problem 1$: "o "o straight straight parallel parallel "ires "ires 2 m log ad - mm apart carries a curret of 8.0 A i opposite opposite directio. %alculate the force bet"ee these coductors. A. 8.-- × 106- &. 8.25 × 106- %. 8.5- × 106- 7. 8.5 × 106- Problem 1$: A "ire 12 cm log ad carryig a curret of -0 A is placed i bet"ee the pole face of a maget maget "hose magetic flux desity is 0. tesla. If the "ire is iclied at a agle 0 degrees from the plae of the magetic field! "hat is the force exerted o the "ire# A. 2.8 &. 2.5 %. -.1 (. 2.2 Problem 1$8:77 &oard ctober 12 he reluctace of a o6magetic circuit is 12 uits. /o" much flux "ill be set up if surrouded by a coil 00 turs carryig a curret of - A. A. 150 &. 1. %. 50 (. 200 Problem 1$: he coil i a magetic cotactor reuires 0.5 A to provide a magetiBig magetiB ig force of 500 A. /o" may turs are ecessary# A. 250 &. 500 %. 1000 (. 2000 Problem 150: A soleoid -06cm log is "oud "ith -00 turs! "hat is the value of its field stregth iside the soleoid! "he the coil is carryig a curret of 2 amperes#
A. 1500 Am &. 2000 Am %. 1800 Am (. oe of these these Problem 151: %alculate the magetic field itesity to produce a flux desity of 10 ×106- tesla at the ceter of a log straight soleoid. A. 58 Am &. $2- Am %. 8-2- Am (. 8 Am Problem 152:77 &oard ctober 1 If a curret curret of 5 A flo"s through a log "ire radius 0.00$ meter! "hat is the flux desity >/? produced 0.02 meter a"ay from the surface of the "ire. A. 1.0 Am&. m &. -.80 Am %. .-$ Am (. --.1 Am Problem 15-:77 &oard ctober 1! 77 &oard ctober 18 he relative permeability of a certai silico steel is $500. A certai magetic loop cosists of a silico steel of 10 cm suare! 20 cm log ad a air gap of U cm. +hat is the reluctace of the magetic circuit# A. 2.5$ × 1062 &. .$$ × 106- %. .$$ × 106$ (. 2.5$ × 106Problem 15$:77 &oard Carch 18 A certai lamiated steel core has a permeability of -000. he legth is 5 cm ad the cross sectio is 2 s. cm. +hat is its reluctace# A. 500 &. 8.-- × 106$ %. 1200 (. 2.5 Problem 155: A coil "ith 00 turs is "oud over a magetic core "ith a reluctace reluctac e of 10!000 A+b. If a curret of 0.5 A is pass through the coil! ho" much is the magetic flux that the coil geerates# A. 0.02 +b &. 0.058 +b %. 0.0.0-2 +b (. 0.0$ .0$5 +b Problem 15: A air6core circular coil has 5000 turs. he ier ad outer diameters are 20 ad 2$ cm respectively. respectively. If a curret of 2 A is passed through the coil! determie the flux desity iside the coil. A. 0.018 &. 0.021 %. 0.01- (. 0.015 Problem 15: A give magetic circuit has a magetic magetic field itesity of $00 Am. m. If the legth of the magetic path is doubled maitaiig the same magetomotive force! ho" much is the e" magetic field itesity# A. 800 Am &. $00 $00 Am %. 200 Am (. 00 00 Am Problem 158: 77 &oard ctober 18 A magetic circuit cosists cosists of silico steel of -000 permeability! of 10 cm legth ad a cross sectio of 1.5 s. cm ad a air gap of the same cross sectio ad of 2 cm legth. A 4 6 ampere curret flo"s through the 50006 tur coil. +hat is the field itesity at the air gap# A. 250 oersted &. 5 oersted %. 222 oersted (. 15 oersted Problem 15: 77 &oard Carch 18 A magetomotive magetomotive force is supplied by a curret of oe ampere through 100 turs. he magetic circuit cosists of a steel core of 1000 permeability! permeability! 10 cm log ad $ s. cm area ad a air gap oe cm log. +hat is the field itesity at the air gap# A. 12.25 oersted &. $. oersted %. 100.5- oersted (. 12$.$ oersted Problem 10: A circular rig of iro havig a cross sectioal area of 5 cm 2! a average diameter of -0 cm is "oud "ith a coil of 1000 turs. If a curret of - A is pass through the coil! determie the flux geerated# Assume the relative permittivity of iro iro is 250.
A. %.
5 x 106$ +b +b .5 x 106$ +b
&. x 106$ +b (. $.5 x 106$ +b
Problem 11: A o6 magetic rig havig a cross sectioal area of 10 cm 2 is uiformly "oud "ith -00 turs of a give "ire. If a curret of 1 A is passed through the coil! 2.$ µ+b of flux is geerated iside the rig. (etermie the average diameter of the rig. A. 50 cm &. $2 cm %. $8 cm (. 5$ cm Problem 12: A coil "ith 150 turs is "oud over a 200 cm a cylidrical iro core "hose relative permittivity is 250. if a curret of 2 A is pass through the coil! determie the flux desity i the core. A. 0.0$ &. 0.0 %. 0.12 (. 0.10 Problem 1-: 77 &oard Carch 18 A magetic circuit cosists cosists of silico steel of -000 permeability ad a air gap. he legth of the steel core is 10 cm ad the air gap is 2 cm. &oth have the same cross sectio of 1.5 s. cm. c m. A curret of 4 ampere flo"s through the "idigs to produce 2-51 max"ells flux. /o" may turs are there i the coil# A. $120 turs &. 5000 turs %. 2500 turs (. 1250 turs Problem 1$: A toroidal toroidal core "ith a mea circumferece of 1000 cm ad a cross sectioal area of 10 cm 2 is "oud "ith 500 turs of "ire. +hat curret "ould be reuired to geerate a flux of 1 m+b i the core# Assume the core has a relative permeability of 800. A. 1.0 A &. 2.0 A %. 1.5 A (. 2.5 A Problem 15: A magetic rig >relative permittivity permittivity < 800? has a mea radius of 10 cm ad a cross sectioal area of 5 cm2. A air gap measurig 1.5 mm is cut i the rig. (etermie the reuired mmE i order to produce a flux of 0.25 m+b i the air gap. A. 80 &. 20 %. 0 (. 2 Problem 1: A magetic rig "ith a mea diameter of 25 cm ad a cross sectioal area of 5 cm 2 is "oud "ith a coil of 00 turs. A air gap of $ mm is made by cuttig a sectio of the rig. A curret curret of 10 A is passed through the coil. (etermie the eergy stored i the air gap. Assume relative permittivity of the rig to be 1000. A. 2.08 S &. 1. S %. 1.5 S (. 1. S Problem 1: 77 &oard April 15 A permaet permaet maget loudspea3er is euipped "ith a 10 ohm 10 tur voice coil "oud o a tube 1 ich i diameter. he he flux desity i the air gap is 10 000 lies per suare ich. If the impedace of the voice coil is a pure resistace! "hat "ill be the maximum thrust delivered to the core if the impressed sigal is 20 d& above 0.005 "att# A. 0.0-- &. 0.011 %. 0.02 (. 0.05-2 Problem 18: 77 &oard ctober 1 A small sigle6 phase trasformer has 10.2 "atts at o load. he core has a volume of 50 cubic cm. he maximum flux desity is 10 000 gauss ad the hysteresis costat of the core is 5 x 10 6$. 9sig the DteimitB la" to fid the hysteresis! determie the eddy curret loss. A. $.55 + &. 5.55 + %. -.55 + (. 2.55 +
Test ' – Electro!anetic (nduction Problem 1: 77 &oard ctober 18 A magetic coil produces 100 000 max"ells "ith 2000 turs ad "ith a curret of 2 A. the curret is cut6 off ad the flux collapses i 0.01 sec. +hat is the average voltage that "ill appear across the coil# A. 20 3, &. 200 , %. 2000 3, (. 2 3, Problem 10: 77 &oard ctober 18 A maget! "hich geerates 800 max"ells of flux! is iserted through a coil of 1000 turs. It is the "ithdra" "ithi 0.15 sec. +hat is the voltage that appears across the coil# A. 0.22 , &. 5-.- , %. 5-- , (. 0.05-- , Problem 11: he armature coil of a geerator "ith 50 coductors o it rotates i a magetic field "ith a magetic flux desity 1.5 . the the effective area of the coil is 1000 suare cm. If this coil is move across the pole i 0.5 sec! determie the average emf iduced i the coil. A. 20 , &. 15 , %. 10 , (. 12 , Problem 12: 77 &oard April 1 A coductor! coductor! 50 mm log! moves at a velocity of 2.5 meters per secod across a magetic field of 0.0 2 +bm . +hat is the voltage geerated# A. 0.125 , &. 0.0$8 , %. 0.1125 , (. 0.02 , Problem 1-: A airplae travels at a speed of 1000 3ph i a regio "here the earths magetic magetic field is 5.0 x 10 65 ad is early vertical. +hat is the potetial differece iduced bet"ee the "ig tips of the airplae! "hich is 20 m apart# A. 0.28 , &. 0.2- , %. 0.- , (. 0.15 , Problem 1$: 77 &oard ctober 18 A piece of coductor 10 cm log moves across a magetic field of 10! 000 gauss at a velocity of 120 cmsec. +hat voltage appears across the coductor# A. 0.2$ , &. 0.12 , %. 0 , (. 120 , Problem 15: A coductor coductor 50 cm i legth moves at a agle of -0 o to the directio of a magetic field "ith a velocity of 100 cms. If the field has the flux desity of 2 +bm 2! calculate the emf iduced i it. A. 0.5 , &. 2.0 , %. 1.0 , (. 1.5 , Problem 1: A metal dis3 of -0 cm radius rotates at a agular velocity of 1200 rpm across a uiform vertical magetic field of flux desity 0.5 +bm 2. %alculate the voltage iduced bet"ee the rim ad the ceter of the dis3. A. $. , &. 5.8 , %. 5.1 , (. $.$ , Problem 1: A coductig coductig disc 206cm i diameter pivoted by a vertical spidle "hich is lyig i uiform vertical magetic field of flux desity 0.- . A fixed brush is coected at the edge of the disc. +he a $ Ω resistace is coected across the brush ad the spidle! a curret of 15 mA "as observed to flo" through the resistor. (etermie the velocity i "hich the disc is rotatig. A. -$ rpm &. -82 rpm %. -02 rpm (. 228 rpm Problem 18:
/o" much is the iductace of a coil that iduces 500 , "he the curret chages at the rate of 5 mA i 2 µs# A.
12.5 µ/
&.
0. 2 /
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0.1 /
(.
2 m/
Problem 1: he field "idigs of a (% geerator is "oud "ith 00 turs ad has a resistace of 50 ohms. If the is excited from a 2$0 , dc source! the magetic flux li3ig the coil is $ m+b. (etermie the self6 iductace of the coil. A. 0.5 / &. 0.8- / %. 0.2 / (. 0.5 / Problem 180: A coil of 1000 turs is uiformly "oud o a rig of o6 magetic material! the mea diameter beig 20 cm. he cross sectioal area of the coil is $ suare cm. (etermie the self6 iductace of the coil. A. 0. m/ &. 0. m/ %. 0. m/ (. 0.8 m/ Problem 181: A iro core 0.$ m log ad 5 suare cm i cross sectio! is "oud "ith -00 turs. +he a curret of 0.5 A flo"s i the coil! ho" much is the iductace of the coil. Assume the core has a permeability of 2500. A. 0.-5 / &. 0.$2 / %. 0.2 / (. 0.-1 / Problem 182: 77 &oard ctober 10 +hat is the coefficiet of couplig of t"o coils "hose mutual iductace is 1 / ad "hose self6 iductace are 1.2 ad 2 /# A. 1.5$ &. 2.$00 %. 0.$5 (. 0.12 Problem 18-: A coil of iductace 8 m/! produces 80 µ+b of magetic flux. f this total flux! 0 µ+b are li3ed to a secod coil of iductace 2 m/! ho" much is the mutual iductace bet"ee coils# A. - m/ &. $ m/ %. 5 m/ (. 2 m/ Problem 18$: 77 &oard April 12 he total iductace of t"o coils! A ad & "he coected i series aidig is 0.5 / ad 0.2 / "he coected i series opposig. %oil A "he isolated from coil & has a self6 iductace of 0.2 /. calculate the self6 iductace if coil &. A. 0.1 / &. 0.12 / %. 0.20 / (. 0.15 / Problem 185: "o idetical coils "ith self6 iductace 250 µ/ each are coected i series. +he coected series aidig! the euivalet iductace is 550 µ/ ad $50 µ/ "he coected series opposig. /o" much is the couplig coefficiet of t"o coils# A. 0.2 &. 0.%. 0.1 (. 0.$ Problem 18: A cylider cylider "hose radius is 2 cm ad altitude of 100 cm is uiformly "oud "ith 2500 turs of "ires i s sigle layer. A secod layer of 100 turs ad of much fier "ires is "oud over the first ear its ceter. %alculate the mutual iductace of the t"o coils. A. 0.$0 m/ &. 0.-8 m/ %. 0.52 m/ (. 0.- m/ Problem 18:
"o "o coils havig 200 ad -00 turs respectively are "oud side by side o a commo closed core "hose cross sectio is 100 cm 2 ad mea legth of 200 cm. +hat "ill be the voltage iduced i the secod coil if the curret i the first coil chages from 0 to 5 A i i 0.05 secod. Assume relative permittivity of the core to be 1500. A. 52.- , &. .8 , %. 2. , (. 58. , Problem 188: 77 &oard ctober 1 he eergy >+o? >+o? stored i a coil is depedet i the iductace >;? of the coil ad the curret flo"ig. If the iductace "ere doubled "ith the same curret flo"ig! "hat "ould be the resultig stored eergy# eergy# A. 2.0 +o &. 0.5 +o %. 1.0 +o (. $.0 +o Problem 18: 77 &oard ctober 10 A .0 / coil "hose resistace is 12 ohms is coected "ith series "ith a 2$ ohms resistor ad to a 1$$ , battery ad a s"itch. s"itch. he s"itch is closed closed at t < 0. (etermie the eergy eergy stored i the magetic magetic field at steady state. state. A.
50 S
&.
$8 S
%.
52 S
(.
$ S
Problem 10: "o "o coils havig self6 iductace ad mutual iductace of -/! 2/ ad 1/ respectively are coected i series. If a curret of $ A is is passed through the coil! evaluate the ratio of the eergy stored i the magetic field "he the fluxes >self ad mutual? are i the same directio to the eergy stored "he the said fluxes are agaist each other. A. -.2$ &. 2.-%. 1.(. 2. Problem 11: 77 &oard April 15 "o "o coils of iductaces $ ad hery are coected i parallel. If their mutual iductace is - hery! calculate the euivalet iductace of the combiatio if mutual iductace assist ad if mutual iductace opposes the self6 iductace respectively. respectively. A. 2.$ / M 1.$ / &. -.5 / M 0.$ / %. .25 / M 2 5 / (. 1 / M $ / Problem 12: A 506 m/ iductor is charged to store 1 S of eergy. eergy. If a ucharged -06 m/ iductor is the coected across its termials! ho" much eergy is trasferred to the secod coductor# A. 0.15$ S &. 0.22 S %. 0.2-$ S (. 0.1$1 S Problem 1-: A soleoid soleoid 500 cm log ad 10 cm i diameter is "oud "ith 1500 turs. Eid the eergy stored i the magetic field "he a curret of 5 A flo"s. A. 0.$5 S &. 0.55 S %. 0.$ S (. 0.2 S Problem 1$: A coil of 250 turs is "oud o a closed rig iro "hose cross sectioal area is 20 cm 2 ad mea legth of 100 cm. (etermie the eergy stored i the magetic field if a curret of 2 A is passed through it. Assume Assume the permeability of iro is is 00. A. 2.8- S &. -.12 S %. 2.0- S (. 1.88 S
Test Test ) # Sinle#Pase *C Syste!+ Part ( Problem 15: 77 &oard ctober 1 +hat is the "avelegth of a carrier "ave "ith a freuecy of 100 megahertB# A. -.0 m &. .5 m %. 1.5 m (.
.0 m
Problem 1: 77 &oard April 1 A chart speed of a recordig istrumet is 25 mmsec. e c ycle of the sigal beig recorded exteds over 5 mm. +hat is the fr euecy of the sigal# A. 20 cps &. 2 cps %. 50 cps (. 5 cps Problem 1: 77 &oard April 10 A 2$06 ,! 25 /B siusoidal geerator is coected to a 20 ohms resistor. (etermie the istataeous curret "he elapsed time is 0.01 secod. A. 15.$- A &. 1.-0 A %. 1. A (. 12.00 A Problem 18: 77 &oard April 1 A "ire carries a curret! I < - cos -1$t amperes. +hat is the average curret over secods# A. 0A &. 1.5 A %. -.0 A (. 0.52- A Problem 1: "o "o curret sources deliver a commo load. he first source delivers a curret "hose euatio is 25 si 100π 100πt amperes "hile the secod delivers a curret "hose euatio is 15 cos 100 πt amperes. +hat is the rms value of the curret i the load# A. 2.15 A &. $0 A %. 20. A (. 10 A Problem 200: "o "o alterators A ad & delivers 100 ad 150 A! respectively to a load. If these currets are out of phase by -0 electrical degrees! determie the total curret dra" by the load. A. 201.5 A &. 250.0 A %. 215.$ A (. 2$1.8 A Problem 201: 77 &oard Sue 10 hree loads! uits A! & ad % are coected i parallel ad ta3e currets that are respectively 12! 10 ad 15 A respectively. Assumig l a to be the referece phasor. l b leads la by -0o ad lc lags behid l a by 5 o! calculate the total >resultat? curret. A. 28.-- A &. -0.21 A %. 2.$ A (. -2.10 A Problem 202: 77 &oard ctober 18$ A idustrial coil has a resistace of -2 ohms ad a reactace of 2$ ohms ad rated $$0 volts at 0 /B. A factory "ill coect the coil to a $$0 ,! 50 /B supply. Dolve for the value of a series resistor eeded to avoid overcurret coditio. A. 2.0 Ω &. 2.$ Ω %. 2.$$ Ω (. 2.25 Ω Problem 20-: 77 &oard April 1 Across a 2-0 ,! 0 /B po"ers supply is a 156 ohm o6 iductive resistor. +hat is the euatio of the resultig curret# A. 21.8 si -t &. 2.55 si -t %. 15.-- si -t (. 28.1 si -t Problem 20$: 77 &oard ctober 18 "o "o relays each "ith 20 ohms resistace ad 0.1 hery iductace are coected i series. +hat is the euivalet impedace# A. 20 = * 102.2 ohms &. 20 =* 5.-2 ohms %. $0 = * 120.- ohms (. $0 = 25.-2 ohms Problem 205:77 &oard ctober 10
A iductive coil ta3es a curret of 2 A ad cosumes 10 + "he coected coecte d to a 2$0 , A% supply. A secod coil "he coected across the same supply ta3es - A ad 500 +. Eid the total po"er "he the t"o coils are coected i series to this supply. A. 1$$.5 + &. 1-$.-1 + %. 150.22 .22 + (. 128.-5 .-5 + Problem 20: A 4 hp! 1106,! 0 /B! sigle phase iductio motor motor has a efficiecy efficiec y of 88J ad a po"er factor of 0.0 laggig at rated load. his motor motor is to be coected temporarily o a 220 ,! ,! 0 /B lie. (etermie the resistace reuired to be placed i series "ith the motor i order to prevet the machie from experiecig overcurret# A. 25.2 25.2 ohms ohms &. 2-.5 2-.5 ohm ohms %. 1.5 1.5 ohm ohms (. 2. 2. ohms ohms Problem 20: "o "o coils A ad & 3o" to have the same resistace resistac e are coected coecte d i series across a 1106,! 1106,! 06cycle lie. he curret ad po"er delivered by the source are respectively $.1 A ad -00 +. If the voltage across coil A is t"ice that across coil &! calculate the iductace of coil &. A. 8.- m/ &. .- m/ %. .02 m/ (. $.$ m/ Problem 208:77 &oard ctober 185 A coil dra"s 185 "atts "he coected to a 150 , (% source. It cosumes -02 "atts "he used o 2$0 ,! 0 /B A% source. Eid the iductace of the coil. A. 0.0255 / &. 0.0-$1 / %. 0.015- / (. 0.02$0 / Problem 20:77 &oard ctober 1$ A curret of 10 A ad a po"er factor of 0.8 laggig is ta3e from a sigle phase 250 volt supply. he reactive po"er of the system system is A. 1500 &. 2000 %. 2500 (. oe of these Problem 210:77 &oard ctober 1 A resistor of ohms ad a u3o" impedace impedac e coil i series dra"s 12 A from a 1206,! 06/B lie. If the real po"er ta3e from the lie is 1152 "atts! "hat is the coil iductace# A. 15. m/ &. 10.0 m/ %. 20.0 m/ (. 1.5 m/ Problem 211:77 &oard April 1 (etermie the po"er agle i the series circuit "hich cosists of @<25 ohms! ;<0.2 / across a po"er supply of 200 volts! -0 /B# A. -.$° -.$° &. 52.$° 52.$° %. $.$° $.$° (. 5.$° 5.$° Problem 212: +he a -0 , (% source is applied to a give coil! the coil dra"s 150 +. +he 2-0 , (% is applied to the same coil! it dra"s -1$ +. (etermie (etermie the operatig po"er factor of the coil. A. 0. &. 0. %. 0. (. 0.8 Problem 21-:77 &oard April 1he impedace coil absorbs 250 "atts "he coected across 220 ,! 0 /B mais. It is the coected across 110 ,! 25 /B mais ad also absorbs 250 "atts. +hat is the coductace of the coil# A. 0.125 / &. 0.1$ / %. 0.15$ / (. 0.1- / Problem 21$:77 &oard April 15 A impedace coil ta3es10 A ad absorbs 250 + "he coected across a 220 ,! 0 /B source. +hat po"er "ill it absorb absorb "he coected across 110 110 ,! ,! 25 /B /B mais# A. 5- + &. 2- + %. $- + (. -- + Problem 215: 77 &oard ctober 18$
A idustrial coil has a resistace of -2 ohms ad a reactace of 2$ ohms ad rated $$0 volts at 0 /B. A factory "ill coect the coil to a $$0 ,! 50 /B supply. /o" much percetage overcurret "ill the coil suffer# A. 5J &. 10J %. J (. 8J Problem 21: he ope circuit voltage across the output termials of a A% po"er supply is 15.2 ,. +he these termials are short6 circuited! a curret of -.2 A flo"s. +he a 56 ohm resistace is placed across these termials! the curret through it is 1.8 A. %alculate the series iteral resistace of the po"er supply. A. 2.-$ ohms &. 2.2$0 ohms %. 2.125 ohms (. 2.0$5 ohms Problem 21: A sigle6 phase load ta3es 55 3+ at 0J pf laggig from a 2$0 ,! 50 /B supply. If the supply is made 0 /B! "ith the voltage remaiig the same! "hat "ill be the 3+ load at 0 /B# A. $2 3+ &. $8 3+ %. $0 3+ (. $5 3+ Problem 218: 77 &oard Carch 18 A 256 ohm resistor coected i series "ith a coil of 506 ohm resistace ad 150 m/ iductace. +hat is the po"er factor of the circuit# A. 85 J &. 80 J %. 0 J (. 5 J Problem 21: 77 &oard ctober 18 he ohmic resistace of a large magetic cotractor is measured to be 20 ohms. A 2-0 , is impressed o the cotractor ad the curret is ta3e as -.2 A. eglectig core loss! determie the iductace if the cotractor i m/# A. 21 &. -15 %. 18(. 251 Problem 220: A 86 ohm resistor is coected i series "ith a iductive coil ad the combiatio is coected across a 120 ,! ,! 0 /B source. A voltmeter coected across the resistor reads -2 , ad 10$ , "he coected across the coil. (etermie the resistace of the coil. A. 8Ω &. Ω %. 12 Ω (. 10 Ω Problem 221: +he coected to a 2206 ,! 50 /B supply! a impedace coil circuit ta3es 5 A! but this curret falls to $.$ A "he a 106 ohm resistor is added i series. Eid the iductace of the coil. A. 0.20 / &. 0.15 / %. 0.2- / (. 0.12 / Problem 222: A impedace coil! i series "ith a resistor ta3es a curret of 5 A "he coected to a 1006 , A% source. 9sig a voltmeter! the voltage across the coil "as foud out eual to 80 , ad that across the resistor eual to -0 ,. Eid the operatig po"er factor of the coil. A. 0.5 &. 0.8%. 0.(. 0.2 Problem 22-: 77 &oard Carch 18 A load of 20 = *-5 ohms is coected across a220 volts source. (etermie the po"er factor ad the ,A@D. ,A@D. A. $. J! 10$2 ,A@D &. 85.- J! 5 ,A@D c. 52.2 J! 102- ,A@D (. $2.- J! 108 ,A@D Problem 22$: A load is rated at 115 ,! 0 /B! 10 A ad 1150 +. A coil is to be "oud "ith a ratio of K ; to @ of 5! such that "he coected i series "ith the load o 2-06 ,! 0 /B lie! the load may operate ormally. Dolve for @. A. 2.$50 ohms &. -.$8 ohms %. 2.215 ohms (. -.82 ohms
Problem 225: 77 &oard ctober 10 Eid the total impedace i rectagular for the follo"ig three impedaces: 12 ∠10o! 25∠ 25∠15o ad -$∠ -$∠2o A. .52 = * 2-.$ &. 8.-$ = * 20.5$ %. $.-1 = * 21.5 (. .0 = * 22.0$ Problem 22: 77 &oard ctober 1 A impedace dra"s a curret I < 10 cos >"t ' -0 o? from a voltage! v < 220 si >"t = -0 o?. +hat is the impedace# A. 15. ' * 15. &. 15. = * 15. %. 1.1 ' * 11.1 (. 11.0 = * 1.1 Problem 22: 77 &oard April 10 A series resistace6 capacitace capacitace >@6 %? circuit is coected to a 2-0 volt 0 cycle source. If the po"er ta3e by the circuit is $! 800 800 "atts ad the voltage voltage drop across the resistor resistor is 115 volts! volts! calculate the capacitace capacitace of the capacitor. A. 5$0 µE &. 5-0 µE %. 55 µE (. 50- µE Problem 228: 77 &oard Carch 18 A 500 ad 1006 microfarad capacitors are coected i series ad across a 100 si >"t = -0 o? voltage. +rite the euatio of the curret. A. 1.2 si >"t = 120 o? &. 1.2 si >"t = 0o? %. 5.5 si >"t =120 o? (. 5.5 si >"t = 0 o? Problem 22: 77 &oard ctober 1 A series circuit composed of 1006 ohm resistor ad a 206 microfarad capacitor coected across a 2$06 ,! 0 /B lie. +hich of the follo"ig as"er is +@O# A. he he im impeda edace ce of th the ci circu rcuit is 1 1 oh ohms &. Agl Aglee bet bet"e "ee e the the cur curre ret t ad ad the the volt voltag agee vec vecto tors rs is 5-.1 5-.1 degr degree eess %. he re resultig cu curre rret is is 0. 0.2 2- am ampere (. he he vol volta tage ge acro across ss the the res resis ista tac cee is is 1$$ 1$$. . volt voltss Problem 2-0: 77 &oard April 1$ A capacitace is coected to a 1156 ,! 256 /B mais ad ta3es 5 A. +hat curret "ill it ta3e "he the capacitace ad the freuecy are both doubled# A. 2.5 A &. 5A %. 20 A (. 10 A Problem 2-1: A ideal iductor of 50 m/ is coected i series "ith a 156 µE capacitor. he combiatio is the coected across a 1206 , variable freuecy A% source. At "hat freuecy "ill this circuit ta3e a leadig curret of 5 A# A. 25 /B &. -0 /B %. 28 /B (. 22 /B Problem 2-2: A series cosistig cosistig of a variable resistor i series "ith a capacitace of 80 µE is coected across a 1206 ,! 50 /B supply. o "hat value should @ is ad*usted so that the po"er absorbed by the series circuit "ill be 100 +# A. 20 ohms &. 18 ohms %. 15 ohms (. 12 ohms Problem 2--: 77 &oard ctober 1 A capacitor is rated 100 3,A@! -80 volts! 50 /B. +hat "ill its ratig be at 0 /B! 220 volts# A. 50 3,A@ &. $0 3,A@
%.
0. 3,A@
(.
5. 3,A@
Problem 2-$: 77 &oard ctober12 A resistor ad a capacitor are coected i series across a supply of 250 ,. +he +he the supply freuecy is 50 /B the curret i the circuit is 5 A. +he the supply freuecy is 0 /B! the curret is 5.8 A. Eid the value of the capacitace. A. 58.- µE &. 0.2 µE %. .1 µE (. 0.2 µE Problem 2-5: 77 &oard ctober 1A series circuit composed of a 0.2 hery iductor ad $6 microfarad capacitor is coected to a 0 , variable freuecy source. At "hat freuecy is the curret be $ amperes "ith a laggig po"er factor# A. 50 /B &. 51 /B %. $8 /B (. $ /B Problem 2-: A sigle phase laggig po"er factor load ta3es -00 + ad 5A at 120 ,. fid the reactace of a pure capacitor that maybe placed i series "ith this load so that it "ill operate ormally from a 2$06 , source. A. 2.-2 ohms &. .25 ohms %. 8. 15 ohms (. $.$8 ohms Problem 2-: A coil >@;? is coected i series "ith a capacitor across a 220 ,! 0 /B A% supply. he circuit is desiged such that the voltage across the coil ad the capacitor are umerically eual. If this circuit operates at 0.8 leadig pf! determie the magitude magitude of this voltage. A. 212 , &. 228 , %. 205 , (. 22- , Problem 2-8: A series circuit coected across a 1006 , A% source cosist of a 106 Ω resistor! a 56 Ω capacitor! a resistace @ that ta3es 50 + ad a reactace K ta3ig 100 iductive ,A ,A@D. (etermie the miimum value of curret reuired satisfyig the above coditios. A. 1.20 A &. 0.2 A %. 1.0$ A (. 1.1- A Problem 2-: 77 &oard ctober 18 he maximum istataeous voltage ad curret outputs of a alterator are -00 , ad 20 A! respectively. respectively. o +hat is the po"er output i "atts if the voltage leads the curret by -0 # A. 258 &. 000 %. 51 (. -000 Problem 2$0: 77 &oard ctober 18 A 506 microfarad is coected "ith a coil havig 50 ohms resistace ad 1506 m/ iductace. he source voltage is 100 si >"t6 -0 o? ,. +hat is the maximum po"er# A. 1 "atts &. 1$ "atts %. 212 "atts (. 15 "atts Problem 2$1: 77 &oard ctober 1 A impedace dra"s a curret I < 10 cos >"t6 -0 o? from a voltage v < 220 si "t. +hat is the maximum po"er# A. 2200 "atts &. 1100 "atts %. 10.5 "atts (. 1-20 "atts Problem 2$2: 77 &oard April 15 A icadescet lamp load geerally cosidered to be made up of resistors ta3e $.8 3+ from a 1206 , A% source. he istataeous maximum of po"er is A. $800 + &. 2$00 + %. $80 + (. 00 +
Test Test , # Sinle#Pase Sinle#Pas e *C Syste!+ Part (( Problem 2$-: 77 &oard ctober 181 A circuit cosists of K a < *5 ohms! K c < 6*5 ohms ad @ < 5 ohms all are coected i parallel. Eid the euivalet impedace. A. 5.5 Ω &. 5.0 Ω %. $.8 Ω d. 5.2 Ω Problem 2$$: 77 &oard ctober 185 Oive: )1 < *2.5 ohmsT ) 2 < *$ ohmsT ) - < 5 ohmsT ) $ < 1 = *5 ohms. If the four impedaces i mpedaces are coected i parallel! fid the euivalet impedace i ohms. A. $.1 = *0.2 &. $.- = *0.$5 %. $.2 = *0.-5 (. $.0 = *0. Problem 2$5: 77 &oard April 18$! 77 &oard April 18 hree impedaces ) a < - = *$ ohms! ) c < $ ' *$ ohms ad ) r < 0 = *- ohms are coected i parallel. Dolve for the pf of the combiatio. A. 0.5- leadig &. 0.55$ laggig %. 0.50- leadig (. 0.20 laggig Problem 2$: 77 &oard ctober 18A pure capacitace of 5-0.515 x 10 6 farad ad a iductace of 5-0.515 × 1061$ hery are coected i parallel across a A% po"er source. Dolve Dolve for their resultat impedace impedace assumig that the freuecy freuecy is -0 /B. A. 10Ω 10Ω &. Ifiite %. )ero (. 9defied Problem 2$:77 &oard Carch 18 A coil of a 506ohm resistace ad of 150 m/ iductace is coected i parallel "ith a 50 µE capacitor. +hat is the po"er factor of the circuit# A. 80J &. 50J %. 0J (. 0J Problem 2$8:77 &oard April 182 hree impedaces ) a! )c! )r are are coected i parallel. If at 0 /B! ) a<0=*8! )c<06*2 ad ) r <5=*0 <5=*0 ohms. Dolve for the resultat po"er factor. A. 0. 0.$1 laggig &. 0. 0.$1 leadig %. 0. 0.5- laggig (. 0. 0.5- leadig Problem 2$:77 &oard ctober 1 A resistor of 50 ohms ad a impedace of 100 = * 50 ohms are coected i parallel across a 220 volts supply. supply. +hat is the po"er factor of the load# A. J &. J %. 8J (. 5J Problem 250:77 &oard April 10 A capacitor! capacitor! a electric resistace heater! ad a impedace are coected i parallel to a 120 ,! 0 /B system. he capacitor dra"s 50 ,A@! the heater dra"s 100 + ad the impedace coil dra"s 2 ,A at a pf of 0.$ laggig. (etermie the system po"er factor. A. 0.-- laggig &. 0.28 laggig %. 0.1 laggig (. 0.11 laggig Problem 251: A give load ta3es $0 3,A at 50J laggig po"er factor! "hile aother load coected i parallel across the same source ta3es 80 3,A at 8.J laggig po"er factor. Eid the apparet po"er. A. 11$ 11$.5 .5 3,A 3,A &. 11.2 1.2 3,A 3,A %. 11.$ 1.$ 3,A 3,A (. 115. 115.- 3,A 3,A Problem 252:
A $$0 ,! ,! 0 /B geerator! geerat or! supplies t"o parallel6coecte parallel6 coected d loads A ad &. ;oad A dra"s a apparet appar et po"er of 100 3,A at 0.80 pf laggig ad load & dra"s a apparet po"er of 0 3,A at uity pf. (etermie the 3,A@ supplied by the geerator A. 10.5 3,A@ 3,A@ &. 120.2 3,A@ 3,A@ %. 10$.- 3,A@ 3,A@ (. 115. 3,A@ 3,A@ Problem 25-:77 &oard April 12 "o sigle6 phase motors are coected i parallel across a 1206volt! 06cycle source of supply. Cotor A is a split6phase iductio type ad motor & is a capacitor type: (etermie total po"er factor. A. 0.88 lag &. 0.8$ lag %. 0.81 lag (. 0.825 lag Problem 25$: A 25063,A! 0.5 laggig po"er load is coected i parallel to a 1806+! 0.8 leadig po"er factor load ad to a -006,A! 100 ,A@ iductive load. (etermie the total apparet po"er i 3,A. A. 28 &. 5$8 %. 15 (. 0$ Problem 255:77 &oard April 12 A 250 ,! -0 /B geerator supplies po"er to a parallel circuit cosistig of a 20 hp motor "hose efficiecy is 0J at 0.80 pf laggig ad a secod load that dra"s a apparet po"er of 3,A at uity pf. (etermie the system po"er factor. A. 0. 0.828 laggig &. 0. 0.8-1 laggig %. 0. 0.802 laggig (. o. o.88$ laggig Problem 25:77 &oard April 185 A resistace of 5 ohms is coected i series "ith a capacitor of $$2.1 µE. he combiatio is the coected i parallel "ith a iductace of 21.22 m/. Dolve for the resultat curret if the circuit is coected across a 120 ,! 0 /B A% source. A. .$$ A &. 10.8 A %. 11.2 A (. 10.-$ A Problem 25: "o impedaces ) 1 < - = * $ ad ) 2 < 5 ' * 8. ohms respectively are coected i parallel. If the combiatio is coected across a 2$0 , A% source! ho" much is the total curret# A. $$.$ A &. $2.1 A %. $0. A (. -. A Problem 258: A coil havig a resistace of -0 ohms ad a iductace ; is coected i parallel "ith a resistor havig a resistace of 1006ohm. he combiatio is coected across a 1006,! 0 /B source. If the po"er delivered by the source is $00 +! fid the value of ;. A. 0.20$ / &. 0.011 / %. 0.02 / (. 0.10 / Problem 25: 77 &oard April 1A iductor ; 1is coected i series "ith a parallel combiatio of iductor ; 2 ad capacitor %. he impedace of the circuit "< $00 rasec is *100 ohms. he circuit is to yield ifiite impedace at "< 1! 000 radsec ad Bero impedace at "< 2000 radsec. (etermie the value of %. A. 1.2 µE &. 1. µE %. 2.0 µE (. 1.-2 µE Problem 20: A resistor ad a iductor are coected i parallel across a 1206 ,! 0 0 /B source. if the total curret ad po"er are respectively 15 A ad 100 "atts! solve solve for the iductace of the the iductor. A. 50.2 m/ &. $8.- m/ %. $-.2 m/ (. $.- m/ Problem 21:
A iductive coil "ith a resistace @ ad iductace ; is coected i parallel "ith a -06 ohm resistor. he combiatio is the coected across a 0 /B A% source. If the curret i the coil! resistor ad the total are ! $ ad 8 A! respectively! determie the iductace ; of the coil. A. 51.- m/ &. $8.-2 m/ %. 0.-5 m/ (. 5-.2 m/ Problem 22: 77 &oard April 12 A siusoidal siusoidal curret source! 10 cos 1000t! is i parallel both "ith a 206 ohm resistor ad the series combiatio of a 106 ohm resistor ad a 106 m/ iductor. Eid the euatio of the voltage across the 106 ohm resistor. A. -.25 cos >1000t ' 18.$- o? &. 1.-2 cos >1000t ' 20.-$ o? %. 5.- cos >1000t ' 1.$5 o? (. 0.12 cos >1000t ' 1.-8 o?
Problem 2-: 77 &oard April 1A 16hp! 220 ,! 0 /B capacitor6 start motor has mai ad auxiliary "idig impedace at startig of -.5 = *2.5 ohms ad 8. = *2.5 ohms! ohms! respectively. respectively. (etermie the value of of the startig capacitace capacitace that "ill place the mai mai o ad auxiliary "idig currets 0 apart from startig. A. 18.5 µE &. 1$.-5 µE %. 182.$- µE (. 10. µE Problem 2$: 77 &oard ctober 10 "o impedaces A ad & are coected i parallel across a 1206 , A% supply. he total curret ad the curret i each impedace are ad*usted to 20 A. he po"er dra" by A is doubled that of & ad the po"er factor is laggig. (etermie po"er factor of A. A. 0.50 laggig &. 0.0$ laggig %. 0.8$1 laggig (. 0. laggig Problem 25: 77 &oard Carch 18 A coil of 506 ohm resistace ad of 1506 m/ iductace is coected i parallel "ith a 506 µE capacitor. he source voltage is 100 si >"t = -0 o?. +hat is the euatio of the lie curret# A. 1.1 si >"t = 52.5 o? &. 1.25 si >"t = 5.5o? %. 1.82 si >"t ' 2 o? (. 1.-2 si >"t ' 5.5 o? Problem 2: 77 &oard ctober 18$ A resistor @ is coected i parallel "ith a 106 ohm iductive reactace. he combiatio is the coected i series "ith a $6 ohm capacitive reactace. he "hole combiatio is coected across a 1006 volt! 0 /B supply. supply. /o" much is @ if the agle bet"ee the supply voltage ad the total curret is $5 degrees. A. 12 Ω &. 25 Ω %. 1 Ω (. 20 Ω Problem 2: A resistace of 20 ohms ad a u3o" capacitace are coected across a 110 ,! variable freuecy A% source. +he the freuecy is 0 /B! the curret dra" by the circuit is A. At "hat freuecy "ill the curret dra" falls to 5.8 A# A. $2.-- /B &. 50.12 /B %. $.02 /B (. $$.18 /B Problem 28: A sigle6 phase capacitor6 start suirrel6 cage iductio motor ta3e 2.5 A from a 2206 , lie. he curret i the startig "idig is 1.- A ad the curret i the mai "idig is 1.$5 A. he total po"er iput is 550 +. +hat is the resistace of the mai +idig# +idig# Assume the auxiliary "idig ta3es a leadig curret "hile the mai "idig ta3es a laggig curret.
A. %.
1-.$- Ω 1$2.$5 Ω
&. (.
125.8 Ω 151. Ω
Problem 2: A iductive reactace of 10 ohms is coected i parallel "ith a capacitive reactace of -0 ohms. If the combiatio is coected i series "ith a 10 ohm resistace! solve for the euivalet po"er factor of the "hole combiatio. A. 0.555 laggig &. 0.58 laggig %. 0.0- laggig (. 0.2- laggig Problem 20: A resistor @ ad a variable capacitor % are coected i parallel. he combiatio is the coected i series "ith a iductive reactace of 25 Ω. he circuit is eergiBed by 1106,! 0 /B source. If the capacitace is varied util the voltage across the resistor ad that across the iductor are eual to the supply voltage! determie the real po"er supplied by the source. A. 5- + &. $1 + %. 20 + (. $02 + Problem 21:77 &oard April 180 hree impedaces ) 1<16*$! )2< 6* ad ) -< $= *- ohms respectively are coected i series parallel. ) 1 is coected i series "ith the parallel combiatio of ) 2 ad )-. (etermie the euivalet impedace of the combiatio. A. $. $.-2 ' *1.21 &. 2. 2.2- ' *-.-2 %. . . ' *5.8 (. 5. 5.$2 ' *.21 Problem 22: A iductive reactace of - ohms is coected i parallel "ith a capacitive reactace of $ ohms. If the combiatio is coected i series "ith a $6ohm resistace! solve for the po"er factor of the "hole combiatio. A. 0.--&. 0.$0 %. 0.5 (. 0.-1 Problem 2-T A iductive reactace of 10 ohms is coected i parallel "ith a capacitive reactace of -0 ohms. If the combiatio is coected i series "ith a 106ohm resistace! solve for total real po"er if the "hole circuit is coected across a 2$0 ,! 0 /B supply. A. 2.05 3+ &. 2.8 3+ %. 1. 3+ (. 1.25 3+ Problem 2$:77 &oard ctober 18$ A 56ohm resistor is coected i parallel "ith a 106ohm iductive reactace. he combiatio is the coected i series "ith a $6ohm capacitive reactace. he "hole combiatio is coected across a 1006volt! 0 /B supply. /o" much is the total curret dra" by the circuit# A. 22.- A &. 20.$5 A %. 2-.1 A (. 1.8 A Problem 25:77 &oard April 18A o6iductive o6iductive resistor is coected i parallel "ith a iductive reactace of 10 ohms. he combiatio is the coected i series "ith a capacitive reactace of 5 ohms. he "hole combiatio is coected across a 1006,! 1006,! 0 /B A% source. If @ is eual to 5 ohms! solve for the voltage across the parallel combiatio. A. 8.5- , &. 88.-$ , %. 8.$$ , (. 1.8 , Problem 2:77 &oard April 180 hree impedaces ) 1 < 1 ' *$! )2 < 6* ad ) - < $=*- ohms respectively are coected i series parallel. ) 1 is coected i series "ith the parallel combiatio of ) 2 ad )-. If this circuit is coected across a 2-0 ,! /B source! determie the voltage across the parallel combiatio of ) 2 ad )-. A. 15.- , &. 1$.8 , %. 1-5. , (. 1-.2 , Problem 2:
A -06ohm resistor is coected i parallel "ith a 0.106/ iductor. iductor. he parallel combiatio is the coected i series "ith a 86E capacitor. If the "hole circuit is coected across a 125 ,! ,! 0 /B! fid the curret through the iductor. A. $.51 A &. -.2 A %. 2.2 A (. 2.-$ A Problem 28:77 &oard ctober 180 Oive three impedaces: ) 1<10=*0! ) 2<-=*$ ad ) -<86*. Impedace ) 2 ad )- are coected i parallel ad the combiatio is coected i series "ith impedace ) 1 across 120 , sigle6phase 0 /B source. Eid the total po"er dra" by the impedaces. A. 1008 + &. 120$ + %. 10-8 + (. 110- +
Test Test - # Sinle#Pase *C Syste!+ Part ((( Problem 2:77 &oard ctober 1If admittace L < 0.0 ' * 0.08 mho! the coductace O euals! A. '0.0 &. 0.0 %. 0.08
(. '0.08
Problem 280:77 &oard ctober 18! 77 &oard April 1A parallel circuit cosists cosists of a resistor havig a coductace of $ mhos! a iductive reactor havig a susceptace of 8 mhos ad a capacitive reactor havig a susceptace of 5 mhos. +hat is the impedace of the circuit# A. 0.11 0.11 = *0.1*0.1- &. 0.10.1- = *0.11 *0.11 %. 0.12 0.12 =*0.1 =*0.1 (. 0.1 0.1 = *0.12 *0.12 Problem 281: "o "o parallel braches have admittaces 0.- = *0.$ ad 0.2 ' *0.25! respectively! respectively! If the curret i the first brach is 10 A! determie the total total curret supplied to to the parallel combiatio. combiatio. A. 10.$$ A &. 12.10 A %. 15.-2 A (. 11.2$ A Problem 282:77 &oard ctober 1$ A capacitor brach havig a ratio of K c to @ of 5 is paralleled "ith a impedace cosistig of a $ Ω resistace ad a - Ω iductive reactace. he po"er factor of the resultig circuit is 0.8 leadig. Eid the siBe of the capacitor i microfarads if the freuecy is 0 /B. A. 8. &. 108. %. 8. (. 8. Problem 28-: "o impedaces ) 1 < 2 = * $ ad ) 2 < @ = *0 are coected i parallel. (etermie @ so that the po"er factor of the circuit is 0. laggig. A. -.2 ohms &. 2.1 ohms %. 2.8 ohms (. 2.5 ohms Problem 28$: +hat value of resistace should be placed i parallel "ith a 50 µE capacitor i order to have a total po"er factor of 0.8 o a 06cycle A% A% system# A. 50 Ω &. $0 Ω %. $2 Ω (. $ Ω Problem 285:77 &oard April 1%apacitor of -06microfarad capacitace is i series "ith a coil across a 8!0006cycle supply. supply. +hat iductace is reuired for resoace# A. 1$.-$ µ/ &. 10.$5 µ/ %. 1-.1 µ/ (. 12.55 µ/ Problem 28: A series @;% circuit is coected across a 1106,! 1106,! variable freuecy source. +he the freuecy is varied! the maximum effective curret is 5.5 A ad occurs at a freuecy of $5 cps.. At this freuecy freuecy!! the voltage across the capacitor is 200.8 ,. Eid the pf of the circuit at 0 /B.
A. 0. 0.8 laggig
&. 0. 0.0 laggig
%. 0. 0.- laggig
(. 0. 0.02 laggig
Problem 28:77 &oard ctober 18 e leg of a radio6tued circuit has a capacitace of oe times te to the mius ie farad. It is tured at 200 3/B! "hat is the iductace of the other leg i hery# A. .-- × 106$ &. 8.25 × 1065 %. 20 × 106(. 120 × 106Problem 288:77 &oard April 18 A loud spea3er "hose iductace is 1.15 heries is coupled to a po"er tube through a codeser of 2 µE capacity. o "hat freuecy "ill the combiatio be resoat# A. 110 /B &. 108 /B %. 105 /B (. 100 /B Problem 28:77 &oard April 15 +hat capacitace must be placed i series "ith a iductace of 0.05 / so that at 100 /B! the i mpedace becomes eual to the ohmic ohmic resistace# A. 50. µE &. -5.5 µE %. 0. µE (. 8.0 µE Problem 20: 77 &oard April 18 A coil has a resistace of 50 ohms ad a reactace of 100 ohms! is shuted by a capacitor! "hich has practically o losses losses i order that the voltage voltage across the coil be i the phase "ith the total total curret supplied to the parallel combiatio. combiatio. +hat is the impedace impedace of the parallel combiatio combiatio uder the give give coditio# A. 250 ohms &. 200 ohms %. 2-0 ohms (. 220 ohms Problem 21: 77 &oard April 18A o6 iductive resistor resistor @ is coected i parallel "ith a iductive reactace of 10 ohms. he combiatio is the coected i series "ith a capacitive reactace of 5 ohms. Dolve for @ at "hich the po"er factor of the give circuit "ould be uity. A. 10 Ω &. 12 Ω %. 1- Ω (. 11 Ω Problem 22: A 106 ohm resistor is coected i parallel "ith a iductive reactace of 10 ohms. he combiatio is the coected i series "ith a capacitive reactace of ohms. Dolve for the freuecy at resoace. he idicated values have bee derived at 50 /B. A. 8.08 /B &. 1.22 /B %. .51 /B (. $.2- /B Problem 2-: A -006 ohm iductive reactace is coected across a series combiatio of a resistor @ ad a capacitive reactace Kc. Dolve for @ if the euivalet impedace of the combiatio is a pure resistace of 100 ohms. A. 2 ohms &. 88 ohms %. 8 ohms (. 0 ohms Problem 2$: 77 &oard ctober 182 "o impedaces ) 1 < 15 = *20 ad ) 2 < 5 ' * K c are coected i parallel. Dolve for the value of K c so that the total curret dra" by the combiatio "ill be i phase "ith ay supply voltage. A. 28.5$ Ω &. -0.$- Ω %. --.12 Ω (. 2.55 Ω Problem 25: A coil "hose resistace is 10 Ω ad a iductace of 50 m/ is coected i parallel "ith a series combiatio of 5 Ω resistace ad a variable capacitor %. he circuit is supplied by a 2206 ,! 0 /B freuecy. %alculate the po"er >miimum value for K c? delivered by a source at resoace.
A. %.
10.-1 3+ 1$.5 3+
&. (.
15.-5 3+ 11.0 3+
Problem 2: 77 &oard April 185 A resistace of 5 ohms is coected i series "ith a capacitor of $$2.1 µE. he combiatio is the coected i parallel "ith a iductace of 21.22 m/. Dolve for the freuecy of the impressed voltage "ith "hich the iductive reactace is eual to the capacitive reactace i magitude. A. 50 /B &. 51 /B %. 52 /B (. oe of these Problem 2: A impedace of $ ' *- ohms is coected i parallel "ith a ideal iductor ; across a 110 ,! 0 /B mais. (etermie ; if the total voltage supplied to the circuit "ill be i phase "ith the total curret dra". A. 1. m/ &. 1.2 m/ %. 22.1 m/ (. 2.8 m/ Problem 28: 77 &oard April 18 A coil has a resistace of 50 ohms ad a reactace of 100 ohms! is shuted by capacitor! "hich has practically o losses. losses. +hat must be the reactace of the capacitor i order order that the voltage across across the coil be i phase "ith the total total curret supplied to to the parallel combiatio# combiatio# A. 120 ohms &. 12 ohms %. 125 ohms (. 1-2 ohms Problem 2: 77 &oard April 182 hree impedaces ) a! )c! )r are are coected i parallel. If at 0 /B! ) a < 0 = *8! ) c < 0 ' *2 ad ) r < < 5 = *0 ohms. Dolve for the freuecy at resoace. A. -0 /B &. -$ /B %. - /B (. 28 /B Problem -00: A resistace @ is coected i parallel "ith a variable iductive reactace K ;. he combiatio is coected i series "ith impedace of 5 ' *2 ohms. Dolve for @! such so there is oly oe coditio of resoace as K; as varied. A. 2 ohms &. 5 ohms %. - ohms (. $ ohms Problem -01: 77 &oard April 181 A resistor @ is coected i parallel "ith a 206 ohm iductive reactace. he combiatio is the coected i series "ith 56 ohm capacitive reactace. Dolve for the value of @ at "hich the po"er factor of the resultat impedace is uity. A. 10.05 Ω &. .15 Ω %. 11.55 Ω (. 10.- Ω Problem -02: A coil cosumes 2! 000 "atts! "hile dra"ig a curret of 25 A from a 1106 ,! 1006 /B A% source. (etermie the capacitace of the capacitor to be coected i parallel "ith the coil i order to ma3e the total curret be i phase "ith the supply voltage. A. 2- µE &. 2$0 µE %. 2$8 µf (. 205 µE Problem -0-: A coil havig a impedace of 10 = *5 ohms is coected i parallel "ith a series combiatio of a variable resistace @ ad a capacitor havig a reactace of 8 ohms. he combiatio is coected across a 2$6 , A% source. (etermie the total curret dra" if @ is ad*usted i order to brig the total pf of the circuit to uity. A. -.-2 A &. $.5$ A %. 2.28 A (. $.0 A
Problem -0$: 77 &oard ctober 18 A coil has resistace of 50 ohms ad the reactace of 0 ohms. A capacitor is coected i parallel to produce resoace. he he source voltage is 120 120 ,. ,. +hat +hat is the po"er dra" by the the circuit# A. 12 + &. + %. 1-2 + (. 52 + Problem -05: A coil "hose resistace is 100 Ω ad iductace of ; 1 is coected i parallel "ith a series combiatio of iductace ; 2 ad capacitace %. +he " < 1 x 10 5! the impedace of the "hole combiatio is -00 ohms! purely resistive. +he "< 2 x 10 5 o curret flo"s to"ards the coil. Eid the value of %. A. -8.2- E &. -$.02 E %. -5.- E (. -2. E Problem -0: A series @;% circuit has a Q of 5.0 at its resoace freuecy of 100 3/B. Assumig Assumig the po"er dissipatio of the circuit is 100 + "he dra"ig a curret of 0.8 A! determie the capacitace % of the circuit. A. 2.0$ E &. 2.-2 E %. -.02 E (. 2.5$ E Problem -0: A impedace coil dra"s a apparet po"er of 50 volt6 amperes ad a active po"er of $0 "atts. Dolve for the Q6 factor of the coil. A. 0. &. 1.25 %. 0.8 (. 0.5 Problem -08: 77 &oard April 15 A coil is supplied "ith 200 volts ad ta3es a curret >rms? of 2 amperes at 0.0 laggig. he uality factor >Q? of the coil is A. 25 &. 1 %. 10 (. 100 Problem -0: A o6 iductive resistor of 10 ohms reuires a curret of 8 A ad is to be feed from a 200 ,! 50 /B supply. If a cho3ig coil of effective resistace 1.2 ohms is used to cut do" the voltage! fid the reuired Q6 factor of the coil. A. 18. &. 1$.2 %. 20.(. 1. Problem -10: he total curret i the give circuit has the euatio: I < 10 =1 si"t ' 8 si"t = 5 cos -"t. %alculate the effective value of the curret. A. 18.- A &. 12.2 A %. 1.5 A (. oe of these Problem -11: 77 &oard April 12 (etermie >rms? value of the curret dra" by a 2 µE codeser! "hich is coected across a source of potetial. he he potetial has a third ad fifth harmoic compoets! compoets! "hich are 20 J ad -0 J respectively of the fudametal. he fudametal siusoidal compoet has a pea3 value of 1000 volts ad 0 /B freuecy. freuecy. A. 0.8 A &. 0.5 A %. 0.1 A (. 0.8$ A Problem -12: 77 &oard ctober 12 A capacitor of -.8 microfarads is coected i parallel "ith a resistace of 2000 ohms. he combiatio is further coected i series "ith a iductace of 5 m/ ad resistace of 100 ohms across a supply give by e < $0 si"t = 80 si >-"t = 0 o?. Assume " < -1$ radiassec. (etermie the rms value of the total curret. A. 0.$0 A &. 0.-- A %. 0.5 A (. 0.$5 A Problem -1-: 77 &oard April 11
(etermie the effective value of the circuit curret if a emf of 151 si -t is coected i series "ith a (% emf of 110 volts. &oth supply a load of 10 = *8 ohms. A. 10.- A &. 12.5 A %. 1-.8 A (. 11.$ A Problem -1$: 77 &oard April 1$ A alteratig curret ad a direct curret flo"s simultaeously i the same coductor. If the effective value of the alteratig curret is 5 A ad the direct curret is 10 A! "hat "ill a A% ammeter read "he coected i circuit# A. .5 A &. 15 A %. 11.18 A (. oe of these Problem -15: 77 &oard April 1A 100∠ 100∠0o , 120 /B geerator ad a 80∠ 80 ∠0o , 0 /B geerator are coected i series "ith a 0 , battery ad coil. he resistace ad iductace of the coil are - Ω ad 2.5 m/! respectively. respectively. (etermie the rms curret of the coil. A. $2.5$ A &. $$ 2$ A %. $-.55 A (. $0 $$ A Problem -1:77 &oard April 1 If e < 100 si >"t = -0 °? ' 50 cos -"t = 25 si >5"t = 150 °? ad I < 20 si >"t = $0 °? = 10 si >-"t = -0° -0 °? ' 5 si >5"t 6 50° 50 °?. %alculate the po"er i "atts. A. 11 &. 18.5 %. 10$d. 22.$ Problem -1: Eid the average po"er i a resistace @ < 10 ohms! if the curret i the Eourier6 series form is I < 12 si"t = 8 si"t =- si 5"t amperes. A. 1085 + &. 120- + %. 1150 + (. 102 + Problem 218:77 &oard ctober 12 A capacitor of -.18 microfarads is coected i parallel "ith a resistace of 2!000 ohms. he combiatio is further coected i series "ith a iductace of 5 m/ ad resistace of 100 ohms across a supply give by e < $00 si"t = 80 si >-"t = 0 °?. Assume " < -1$ radiassec. (etermie the po"er dissipated. A. $. + &. 8.05 + %. 80.28 + (. 5. + Problem -1: A series @; circuit i "hich @< 5 Ω ad ;< 20 m/ has a applied voltage e<100 = 50 si "t = 25 si -"t! "ith "< 500 radias per sec. (etermie the po"er dissipated i the resistor of the circuit. A. 2510 + &. 22-$ + %. 2052 + (. -202 + Problem -20: hree siusoidal geerators ad a battery are coected i series "ith a coil "hose resistace ad iductace are 8 Ω ad 2.5- m/! respectively. respectively. he freuecy ad rms voltages of the respective geerators are 15 ,! 20 /BT -0 ,! 0 /B ad $0 ,! 100 /B. he ope circuit of the battery is ,. eglect iteral resistace of the battery. battery. Eid the apparet po"er po"er delivered by the circuit. circuit. A. 1$.$ ,A &. 18.5 ,A %. 18.- ,A (. 182. ,A Problem -21: A series circuit cotaiig a 25 µE capacitor ad a coil "hose resistace ad iductace are - Ω ad $.$2 m/! respectively are supplied by the follo"ig series coected geerators: -5 , at 0 /B! 10 , at 180 /B ad 8 , at 2$0 /B. (etermie the po"er factor of the circuit. A. 0.$8 &. 0.$18 %. 0.$5 (. 0.$- Problem -22:77 &oard 12
A capacitor of -.18 microfarads is coected i parallel "ith a resistace of 2!000 ohms. he combiatio is further coected i series "ith a iductace of 5 m/ ad resistace of 100 ohms across a supply give by e< $00 si"t = 80 si >-"t = 0 °0. Assume "<-1$ radias per sec. (etermie the circuit po"er factor. f actor. A. 0.02 &. 0.50 %. 0.-(. 0.12
TEST 1. # Tree#Pase *C Syste!+ Part ( Problem -2-:77 &oard April 1 A 10 3,! -6phase electric ele ctric source delivers deli vers 200 C,A to a balaced load! "hich "hic h has a po"er of 0J laggig. +hat is the lie curret# A. 25 A &. 502 A %. $02 A (. A Problem -2$:77 &oard ctober 1 A three6phase three6phase motor is rated 50 hp! $$0 volts ad 85J po"er factor. +hat is its rated curret# A. 1.5 A &. 5.5 A %. 55 A (. 5 A Problem -25:77 &oard April 185 A balaced -6phase load dra"s 120 amperes lie curret at 2-0 volts lie to lie! 0.8$8 pf laggig curret. Dolve for the real po"er. A. $0.5$ 3+ &. $2.-5 3+ %. $1.$5 3+ (. $$-.15 3+ Problem -2:77 &oard Carch 18 A geerator supplies three6phase po"er to balaced load. he voltage is 2-0 volts! the curret is 18 A ad the po"er factor is 85J. +hat is the po"er# A. -. 3+ &. 1. 3+ %. .1 3+ (. 1.$ 3+ Problem -2:77 &oard April 18$ A balaced -6phase load dra"s 5 amperes lie curret at 2-0 , lie to lie ad 0.8$8 laggig po"er factor. Dolve for the reactive po"er beig dra". A. 15.8- 3,A@ &. &. 15.2 3,A@ %. 15.-5 3,A@ (. 15.$ 3,A@ Problem -28:77 &oard April 10 he iput po"er factor to a three6phase! 6poles! $0 volts! 0 /B! 506hp iductio motor is 0.2 as 20 A is dra" by the motor. Eid the po"er iput to the motor. A. !880 + &. !5 + %. !85 + (. !$8 + Problem -2:77 &oard April 10 A $0 volt! three6phase motor dra"s 208 A "ith a po"er factor of 0.1 laggig. %alculate the 3+ iput to the motor. A. 150.8 &. 15.%. 152.$ (. 10.Problem --0: (etermie the ratio of the lie curret dra" by three idetical impedaces coected i "ye to the lie curret dra" by the same impedaces coected i delta. &oth coectios beig impressed "ith the same balace -6φ -6φ voltages. A. 1:2 &. -:$ %. 2:(. 1:Problem --1T77 &oard April 1A "ye6coected "ye6coected load has a 5 ∠20° 20° ohm impedace per phase ad is coected across a 1206, three6phase source. %alculate the lie curret. A. 2$ A &. 1-.85 A %. $1.5 a (. 15.$5 A
Problem --2: A balaced delta coected load havig impedace per phase of 20 ∠-.8° -.8° ohms is supplied from a balaced -6phase! 2$0 , source. (etermie (etermie the total real po"er. po"er. A. 82$ + &. 12 + %. 015 + (. $0 + Problem ---:77 &oard April 1hree codesers! each havig capacity of 5 microfarads are coected i star to a $$0 volts! -6phase! 50 cycles supply. supply. %alculate the capacitace of each of the three codesers so that "he they are coected i delta to the same supply the lie curret remais the same. A. 20 µE &. 28 µE %. 25 µE (. -0 µE Problem --$:77 &oard Carch 18 hree impedaces! 6*10! *10 ad 10 ohms are "ye coected. (etermie the impedace of a euivalet delta. A. 12.5! *12.5! 612.5 ohms &. 10! *10! 6*10 ohms %. *8.5! 6*12.5! 8 ohms (. 5! *5! 6*5 ohms Problem--5: A system system cosistig of three eual resistors coected coected i star is fed from a three6phase supply. supply. &y ho" much is the po"er reduced if oe of the three resistors is discoected# A. 1&. -$ %. 12 (. 2Problem --:77 &oard April 1A balaced three6phase load is "ye6coected ad has a impedace ) p < $ ' * - ohms per phase. Eid the lie curret if this load is coected across a 220 , three6phase source. A. 25.$ A &. 22.- A %. 20.5 A (. 2. A Problem --:77 &oard ctober 18 hree 106ohm resistaces are coected delta o a balaced three6phase source. If the euatio of the phase ,a <120 si "t. +hat is the euatio of the lie curret i lie a# A. 20.8 si >"t = -0° -0°? &. 1-.15 si > "t 6 -0 °0 %. 12 si >"t ' 5.5° 5.5°? (. - - si "t Problem --8:77 &oard April 182 Oive a balaced -6"ire! three6phase system servig the follo"ig loads: ,ab <200∠ <200∠0° , )ab <10∠ <10∠5-.1-° 5-.1-° Ω , bc <200∠ <200∠2$0° 2$0° , ) bc <10∠ <10∠0° Ω ,ca <200∠ <200∠120° 120° , )ca <10∠ <10∠-0° -0° Ω (etermie lie curret o lie b. A. 20.-$ A &. 22.0$ A %. 2$.- A (. 21.5 A Problem --:77 &oard April 182 Oive the follo"ig lie volages ad t"o load impedacesT ,ab <11∠ <11∠0° , )ac <5=*12 ohms , bc <11∠ <11∠2$0° 2$0° , ) bc < 1-<*0 ohms ,ca <11∠ <11∠120° 120° , Dolve for the lie curret i lie c. A. 1.$1 A &. 1.5 A %. 1.2 A
(. 18.$ A
Problem -$0:77 &oard April 18 hree ueual sigle6phase loads so coected across the lies of a balaced! -6phase! 2-0 volts circuit. he first ta3es 10 A at 0.8 pf laggig ad is coected across lies 1 M 2. he secod ta3es 1$2 A! at 0.82 pf
laggig ad is coected across a lies 2 M -. Ad the third ta3es 28.$ 3+ at 0. pf laggig ad is coected across lies - M 1. fid the three lies currets. A. 25$.$0 A! 211.-8 A! 252 A &. 2-1.2 A! 215.20 A! 28 A %. 25$.$0 A! 215.20 A! 252 A (. 2-1.2 A! 211.-8 A! 28 A Problem -$1:77 &oard ctober 12 A 1206, per phase! three6phase L coected source deliveres po"er to the follo"ig delta6coected load: Phase 1 < $0∠ $0 ∠0° Phase 2 < 20∠ 20 ∠6 0° 0° Phase - < 15∠ 15 ∠$5° $5° (etermie the three lie currets. A. 12.$5 A! A! 22.$5 A &. 1-.$ A! A! 22.$5 A %. 1-.$ A! 10 A! 20.22 A (. 12.$5 A! 10 A! 20.22 A Problem -$2:77 &oard ctober 185 Oive: ,ab < 2$0∠ 2$0∠0° , )ab < = *8 ohms , bc < 2$0∠ 2$0∠2$0° 2$0° , ) bc < 5 = *8. ohms ,ca <2$0∠ <2$0∠120° 120° , )ca < 10 = *0 ohms Dolve for the three lie currets l a! l b ad lc. A. la < $5 a! l b < $- A! lc <20 A &. la < $8 A! l b < $2 A! lc <2$ A %. la < $5 A! l b < $2 A! lc <20 A (. la < $8 A! l b < $- A! lc < 2$ A Problem -$-:77 &oard April 185 A three6phase 2-06, circuit serves t"o sigle phase loads! A ad &. ;oad A is is a iductio motor rated 8 hp! 2-0 v! 0.0 pf! 0.0 efficiecy! efficiecy! "hich is coected across lies a ad b. ;oad & dra"s 5 3+ at 1.0 pf ad is coected across lies b ad c. Assume a seuece of a6b6c! solve for the lie curret o lie b. A. $2.1 A &. 2.$ A %. $1.08 A (. -$.$ A Problem -$$: A four "ire 2086, three6phase system is used to supply po"er to a three6phase 56hp iductio motor ad a sigle phase 3+ heater coected bet"ee lie c ad the eutral lie. he operatig efficiecy ad po"er factor of the motor are 81 ad 1 percet! respectively. %alculate the curret i lie c. Assume a phase seuece of a6b6c. A. 1 A &. 5 A %. $ A (. A Problem -$5:77 &oard April 180 A factory is supplied by a three6phase! -6"ire system "ith the follo"ig characteristics: ,ab < 2-0∠ 2-0∠0° , la < 110∠ 110∠ 6 -.8° -.8° A , bc < 2-0∠ 2-0∠2$0° 2$0° , lc < 125∠ 125∠5-.1-° 5-.1-° A Eid lie curret l b. A. 1$5.- A &. 1-.- A %. 18$. A (. 1.5 A Problem -$: Oive a balaced -6"ire! three6phase system servig a ubalaced "ye6 coected load. (etermie the lie curret i lie a. ,ab < 210∠ 210∠0° , )a < 10 , bc < 210∠ 210∠120° 120° , ) b <10 < *10 ,ca < 210∠ 210∠2$0° 2$0° , )c < 10 A. 15 A &. 12 A %. 1$ A (. 1 A Problem -$:77 &oard ctober 1$ hree resistors 10! 15 ad -0 ohmic values are coected i "ye6cofiguratio to a balaced 2086volt three6phase supply. supply. %alculate the total po"er of the system. A. 2$$ + &. 2880 + %. -080 + (. -280 +
Problem -$8:77 &oard march 18 hree impedaces each 10 = *5 ohms are coected i delta o a balaced three6phase source. If the euatio of the phase voltage is , a < 120 si "t. +hat is the euatio of the curret through the impedace coected across phase A ad A. 20.0 si >"t 622° 622°? &. 18.5 si >"t = -.$$ °? %. 1.21 si >"t = 5.5° 5.5 °? (. 21.-2 si >"t ' 8.15 °? Problem -$:77 &oard Sue 10 "o parallel coected loads A ad & are supplied by a $$0 ,! -6phase! 0 /B geerator. ;oad A dra"s a apparet po"er of 100 3,A at 0.80 pf laggig ad load & dra"s a apparet po"er of 0 3,A at uity pf. (etermie the feeder curret. A. 208 A &. 212 A %. 21$ A (. 202 A Problem -50: "o differet loads A ad & are coected across a balaced 2-0 ,! -6 φ lies. ;oad A is a three6phase load that dra"s 10 3,A at 0J laggig pf. ;oad & is a sigle6phase load coected across lies a ad b dra"ig 5 3,A at uity pf. (etermie lie curret i lie a. Assume a phase seuece of a6b6c. A. - A &. $2 A %. -1 A (. $ A Problem -51:77 &oard April 10 A three6phase motor ta3es 10 3,A at 0. pf laggig from a source of 2-0 volts. It is i parallel "ith a balaced delta load havig havig 1 ohms resistace resistace ad 12 ohms capacitive capacitive reactace i series i each phase. phase. (etermie the total po"er factor. A. 0. laggig &. 0.8 laggig %. 0.1 laggig (. 0. laggig Problem -52: A balaced delta load "hose impedace is $5∠ $5 ∠0° 0° ohms per brach! a three6phase motor that dra"s a total of 10 3,A at 0.5 pf laggig ad a "ye coected load "hose impedace is 10 ohms >resistace? per brach are supplied from a three6phase! three6"ire! 208 ,! 0 /B feeder. (etermie (etermie the overall po"er factor of the feeder loads. A. 0.5&. 0.0 %. 0.82 (. 0.2 Problem -5-: 77 &oard April 185 A three6 phase 2-06 , circuit serves t"o sigle phase loads! A ad &. ;oad A is a iductio motor r ated 8 hp! 2-0 ,! 0.0 pf! 0.0 efficiecy! "hich is coected across lies a ad b. ;oad & dra"s 5 3+ at 1.0 pf ad is coected across lies b ad c. Assume a seuece of a6b6c! solve for the total po"er factor of the load. A. 0.0 &. 0.0$ %. 0.8$ (. 0.88 Problem -5$: A $$06 , three6 phase! -6 "ire "ire! 0 /B feeder supplies po"er to t"o -06 hp iductio motors. e motor is operatig at full load! 85J efficiecy ad has a po"er factor of 0J. he other motor is operatig at oe ' half of its rated horsepo"er! 8J efficiecy ad has a po"er factor of 8J. +hat is the overall po"er factor of the system of motors# A. 0.82 laggig &. 0.82 laggig %. 0.8-8 laggig (. 0.801 laggig Problem -55: 77 &oard April 188 hree ueual sigle6 phase loads so coected across the lies of a balaced! -6 phase! 2-0 volts circuit. he first ta3es 10 A at 0.8 pf laggig ad is coected across lies 1 M 2. he secod ta3es 1$2 A! at 0.82 pf laggig ad is coected across lies 2 M -. Ad the third ta3es 28.$ 3+ at 0. pf laggig. (etermie the total apparet po"er. A. $ 3,A &. 8- 3,A %. 8 3,A (. 101 3,A Problem -5:
"o6balaced L6 coected loads A ad & are coected across a three6 phase -6 "ire balaced system. ;oad A dra"s 3+ at 80J po"er factor laggig "hile load & dra"s 12 3+ at 8-.5J po"er factor leadig. If the curret i the three lies are each eual to 8 A! determie the curret dra" by load A. A. $.$5 A &. -.58 A %. $.15 A (. -.28 A Problem -5: 77 &oard Carch 18 he phase & lie voltage ad the phase A lie curret of a balaced three6 phase system are ,< 220 si >"t o = 210 ? ad l < 10 si >"t ' -0 o?! respectively. +hat is the po"er of the system# A. 105 + &. --00 + %. 51 + (. -810 + Problem -58: 77 &oard ctober 18 he follo"ig iformatio is give for a delta6 coected load of three umerically eual impedaces that differ i po"er factor: ;ie voltage < 120 voltsT ) ab < 15∠ 15∠-0oT ) bc < 15∠ 15∠0oT )ca < 15∠ 15∠6-0 phase seuece of voltages is a6b6c. 9sig the phase seuece as a guide! calculate the total po"er dra" by the load. A. 2!2$ + &. 2!$2 + %. 2!5$ + (. 2!-1 + Problem -5: 77 &oard April 10 A three6 phase motor ta3es 10 3,A at 0. pf laggig from a source of 2-0 volts. It is i parallel "ith a balaced delta load havig havig 1 ohms resistace resistace ad 12 ohms capacitive capacitive reactace i series i each phase. phase. (etermie the total lie curret. A. -0.05 A &. -$.55 A %. -2.0$ A (. -1.2$ A P@&;7C -0: 77 &A@( AP@I; 1I A% circuits! fid the total po"er i 3+ i a ubalaced three6 phase circuit loaded as follo"s: Phase l < 120 ,! ,! 100 A uity pf. Phase ll < 100 ,! 2-0 A! 80 J pf ad phase lll < 110 ,! 85 A! J pf. A. -. 3+ &. -5.- 3+ %. -2.8 3+ (. -1.2$ 3+ Problem -1: 77 &oard April 18"o "o sigle6 phase trasformers are coected i , >ope delta? ad servig a delta coected impedace load! each impedace is eual to 1 ∠-.8o ohms. If the trasformer voltages impressed o the impedaces are: ,ab < 2$0∠ 2$0∠0 o! ,ab < 2$0∠ 2$0∠2$0o! ,ab < 2$0∠ 2$0∠120o volts Dolve for the total 3,A dra" by the load. A. .2&. 8.-1 %. 10.8 (. 11.Problem -1: 77 &oard ctober 180! 77 &oard ctober 182 hree impedaces! ) a < 20 = *0! ) b < 1 = *12! ) c < 5 ' *15 ohms are coected i "ye across a 2-0 , >lie to lie?! -6 phase! $6 "ire source. he phase seuece is a6b6c! coutercloc3"ise. (etermie the curret passig thru the eutral. eutral. A. .5$ A &. .12 A %. 8.81 A (. 8.02 A Problem --: 77 &oard April 181 A "ye6 coected trasformer "ith eutral coectio has balaced voltages of 25 , bet"ee lies ad eutral. he trasformer is servig t"o sigle6 phase motors. Cotor A >rated $ hp! 0.0 efficiecy! efficiecy! 0.80 po"er factor laggig? is coected across lie a ad eutral. Cotor & >rated - hp! 0.85 efficiecy! efficiecy! 0.85 po"er factor! laggig? is coected across lie b ad eutral. Dolve for the eutral curret! usig , a as referece vector. A. 20.$2 A &. 25.- A %. 22.$5 A (. 2-.1$ A Problem -$:
"o "o sigle6 phase motors are coected bet"ee the lies ad eutral termials of a -6 phase! $6 "ire! 2-0 , secodary side of a three6 phase trasformer. ;oad A is is coected across lie a ad eutral "hile & is across lie b ad eutral. he currets currets l a ad l b are $0 A! 0.0 pf laggig! ad 25 A! uity pf! respectively. respectively. (etermie the eutral curret ! l . A. 5$.25 A &. 50.-$ A %. 51.8 A (. 52.- A Problem -5: "o "o sigle6 phase motors are coected to a -6 phase! $6 "ire "ye feeder havig 220 , bet"ee phase ad the eutral. e motor rated 5 /P! 0.8 pf laggig ad 0J eff is coected across phase A ad eutral. he secod motor is coected across phase % ad eutral! ad rated - /P! 0.0 pf laggig ad 0J eff. Dolve for curret through the eutral. A. 20.5 A &. 2.5$ A %. 21. A (. 2-.$- A Problem -: A 2-06 ,! ,! three6 phase! $6 "ire balaced system supplies po"er to group of lamp loads. If the lie currets are respectively 0 A! 8 A ad $0 A respectively! solve for the curret i the eutral "ire. Assume the po"er factor of lamps to be uity. A. $0 A &. 1$ A %. A (. - A Problem -: 77 &oard ctober 18 he loads of a "ye6 coected trasformer are: Ia < 10 cis >6-0 o? I b < 12 cis 215 o Ic < 15 cis 82 o +hat is the eutral curret# A. 1.0$ cis 2.8o &. 2.21 cis >6-0o? %. 0.2 cis 2.5o (. -.11 cis 2.8o
TEST 11 # Tree#Pase *C Syste!+ Part (( Problem -8: 77 &oard April 180 A factory is supplied by a three6 phase! -6 "ire system "ith the follo"ig characteristics: ,ab < 2-0∠ 2-0∠0o , Ia < 110∠ 110∠ 6 -.8° -.8° A , bc < 2-0∠ 2-0∠2$0° 2$0° , Ic <125∠ <125 ∠5-.1-° 5-.1-° A (etermie the total po"er cosumed by the load. A. $2. 3+ &. $8.8 3+ %. $0.2- 3+ (. $5.12 3+ Problem -: A -6phase! - "ire feeder has the follo"ig lie currets ad lie voltages: ,ab <220∠ <220∠0° , Iaa < -06*-0 A , bc <220∠ <220∠2$0° 2$0° v Icc <2=*-.8 A (etermie the reactive po"er supplied by the feeder. A. .5 3,A 3,A@ &. .-$ 3,A 3,A@ %. 8.-2 3,A 3,A@ (. 8.$5 3,A 3,A@ Problem -0: Oive a balaced three6phase system "ith the follo"ig loads: ,ab <2-0∠ <2-0∠0° , )ab < 0 , bc <2-0∠ <2-0∠120° 120° , ) bc < -0=*50 ,ca <2-0∠ <2-0∠2$0° 2$0° , )ca < 6*80 (etermie the readig of the t"o "attmeters properly coected usig lie c as the commo poit. A. $$0. +! 0.5 + &. -$.1 +! 51.2 +
%. $$0. +! 51.2 +
(. -$.1 +! 0.5 +
Problem -1: Oive a balaced -6"ire! three6phase system servig the follo"ig loads: ,ab <220∠ <220∠0° , )ab <11∠ <11∠0° Ω , bc <220∠ <220∠2$0° 2$0° , ) bc <11∠ <11∠$5° $5° Ω ,ca <220∠ <220∠120° 120° , )ca <11∠ <11∠-0° -0° Ω (etermie the readig of the t"o "attmeters "ith lie b as commo. A. 21.5 +! $820 + &. 21.5 +! $$00 + %. -$2.5 +! $50 + (. -$2.5 +! $$00 + Problem -2: he follo"ig voltages ad lie currets "ere measured to a -6phase! -6"ire feeder servig a commercial buildig. ,ab <2!$00∠ <2!$00∠0° , )ab <85∠ <85∠--0° --0° A , bc <2!$00∠ <2!$00∠2$0° 2$0° , lc <100∠ <100∠80° 80° A Dolve for the real po"er i 3+ dra" by the commercial buildig. A. $02.2 &. $0$.5 %. $1.(. $21.5 Problem --:77 &oard April 181 A -6phase! -6"ire load dra"s the follo"ig lie currets: Ia < 0∠ 0∠ --0o A I b < 8.$∠ 8.$∠ 21$o A Ic < 5∠ 5∠ 80o A If the voltages impressed o the load are balaced -6 phase. /avig a magitude of $1$0 volts lie to lie! solve for the total po"er i 3+. A. 55.15 &. 50.85 %. 5-.5$ (. 520.18 Problem -$: Oive the follo"ig voltages ad load impedac es: ,ab < 220∠ 220∠ 0o , )ab < 10∠ 10∠ -.8o Ω , bc < 220∠ 220∠ 2$0o , ) bc < 10∠ 10∠ 0o Ω ,ca < 220∠ 220∠ 120o, )ca < 10∠ 10∠ $5o Ω (etermie the readig of a 3+ meter coected "ith its curret coil coected i lie b "hile the potetial coil coected across lies b ad c. A. 5.12 3+ &. $.2 3+ %. $.08 3+ (. 5.$5 3+ Problem -5: 77 &oard ctober 18Oive the follo"ig load impedaces i delta ad is impressed voltages as follo"s: ,ab < 220∠ 220∠ 0o , )ab < 8 = * o , bc < 220∠ 220∠ 2$0 , ) bc < 8. ' *5 ,ca < 220∠ 220∠ 120o , )ca < 10 = *0 +hat "ill be the readig of the t"o "attmeters coected to measure total po"er. 9se lie a as the commo potetial poit. A. -.8 3+! .0-1 3+ &. 2.5$ 3+! 8.-5 3+ %. -.125 3+! .8 3+ (. $.055 3+! .8$8 3+ Problem -: 77 &oard ctober 18$ he -6 phase po"er supply to a factory has the follo"ig measuremets:
,ab < 2$0∠ 2$0∠ 0o , , bc < 2$0∠ 2$0∠ 2$0o , ,ca < 2$0∠ 2$0∠ 120o , Dolve for the total po"er dra". A. 0.2 3+ &. %. 58.8 3+ (.
la < 120∠ 120∠ --0o A l b < 15∠ 15∠ 21$o A lc < 150∠ 150∠ 80o A 5.5 3+ 2.$ 3+
Problem -: Oive ,ab < 220∠ 220∠0o , , bc < 220∠ 220∠ 6120o , (etermie the readig of the "attmeter as sho". A. &. %. (.
,ca < 220∠ 220∠ 62$0 ,
$05.$5 + $8.-2 + $$2.88 + $.5$ +
Problem -8: 77 &oard April 185 A balaced -6 phase load dra"s 120 amperes lie curret at 2-0 volts lie to lie 0.8$8 0.8$ 8 pf laggig curret. Dolve for the readigs of the t"o "attmeters used to measure the -6 phase po"er. A. 25.5$- 3+! 15.08 3+ &. 28.155 3+! 12.-85 3+ %. 2$.-5 3+! 1.15 3+ (. 2.58- 3+! 12.5 3+ Problem -: A umber of icadescet lamps are coected i delta across the lies of a balaced 2-0 ,! -6 phase! -6 "ire system. A sigle6 phase "attmeter is coected i the circuit. he curret coil of the the meter is coected i lie 1 "hile the potetial coil is coected across lies 1 ad -. his "attmeter registers 8.$ 3+. If the potetial termial of the meter! "hich "as coected i lie -! is trasferred to lie 2! the "attmeter reads .5 3+. If each lamp rated 100 +! ho" may lamps are coected across lies 1 ad 2. Assume lamp pf to be uity. A. $2 &. $5 %. $(. $$ Problem -80: 77 &oard April 188 C7@A;% used t"o "attmeters to measure the balaced -6 phase dyatro elevator motor drive. he curret coil of the "attmeters are coected to the curret trasformers! "hich are i lies 1 ad 2 respectively. respectively. he lie potetial are 2-0 , ad the lie currets are each 150 A. he "attmeters each idicate 1. 3+. Assume Assume load is "ye6 coected. +hat is the total po"er supplied# A. $.15 3+ &. $8.2- 3+ %. $5.$1 3+ (. $.-50 3+ Problem -81: 77 &oard April 12 A $0 volt! three6 phase motor dra"s 208 A "ith a po"er factor of 0.1 laggig. %alculate the idicatios of +1 ad +2 for the give coditio. A. 5.$0 3+! 5.$0 3+ &. 1.2- 3+! 5.58 3+ %. 8.5 3+! 1.25 3+ (. 5.2$ 3+! 55.5 3+ Problem -82: "o "o "attmeters are used to measure the po"er delivered to a balaced delta coected load. +attmeter +a ttmeter 1 reads 1000 + ad "attmeter 2 reads 500 + after the curret coil termials are reversed. If the lie to lie voltage is 208 ,! solve for the lie curret dra" by the load.
A. %.
8.2- A 8.08 A
&. (.
.5 A .-$ A
Problem -8-: he po"er dra" by a three6 phase balaced load is measured usig t"o "attmeters properly coected. At "hat po"er factor "ill the readig of oe of the "attmeters be Bero# A. 0.8 &. 1 .0 %. 0 .5 (. 0.0 Problem -8$: "o "o "attmeters coected to a three6 phase $$0 , suirrel cage iductio motor idicate a total of 12 3+. If the operatig po"er factor of the motor is 0.$! determie the idividual readig of the "attmeters. A. 10.$ 3+! 1.0 3+ &. .2$ 3+! 2. 3+ %. 1-.$ 3+! 61.$ 3+ (. oe of these Problem -85: A -6 phase iductio motor is coected across a 2206 , three6 phase source. A "attmeter reads 00 + "he its curret coil is coected i lie 1 ad its potetial coil across lie 1 ad 2. 2 . if the potetial coil of the "attmeter is trasferred to lies 2 ad -! the readig of the "attmeter is the same. %alculate the po"er factor of the motor. A. 0. &. 0.82 %. 0.8 (. 0.0 Problem -8: "o "attmeters used to measure the total po"er dra" by a three6 phase circuit ad are coected properly. properly. he first "attmeter "attmeter reads $800 "atts "hile the other reads $00 "atts after reversig its curret curret coil. Dolve for the load po"er factor. A. 0.5$ &. 0.5-2 %. 0.$ (. 0.$- Problem -8: 77 &oard Sue 10 "o6 "attmeter method is used to test a 25 /P! 2-0 volt! 1800 rpm! 0 cycle! -6 phase iductio motor. +he the lie voltages are 2-0 volts! oe "attmeter reads =1-!$00 "atts ad the other =! $00 "atts. (etermie motor po"er factor. A. 0.1 &. 0.88 %. 0.8$ (. 0.80 Problem -88: 77 &oard ctober 18 A "oud rotor motor! .5 /P! 2-0 volts! -6 phase ta3es a lie curret of 18.$ amperes! "he operatig at rated output at a efficiecy of 88J. %alculate the idicatio of the "attmeter "he this is iserted to measure po"er by the 6 method. A. -.1 3+ &. $.$01 3+ %. -.-1 3+ (. $.0$2 3+ Problem -8:77 &oard ctober 1$ A "attmeter "attmeter "ith its curret coil i lie 2 ad a d potetial coil across lies 2 ad - is coected to a balaced -6 phase system. he oly load supplied is a sigle phase oe coected to lies 1 ad 2. his load is 3o" to be iductive. If the "attmeter reads Bero "atts! determie the po"er factor of the sigle6 phase load. A. 0.0 &. 0.8 %. 0.800 (. 0.00 Problem -0:
hree ueual sigle6 phase motor loads are coected across the lies of a balaced 2-06 ,! 0 /B! three6 phase system. Cotor V1 is coected across lies 1 ad 2 ad dra"s 10 A at 80J pf. Cotor V2 is coected across lies 2 ad - ad ta3es 1$2 A at 8.J pf. Ad Ad motor V- is coected across a cross lies ad 1 ta3es 1$ A at 5J pf. 9sig t"o "attmeters properly coected "ith the commo p otetial poit i lie 2! "hat are the readig of these istrumets# A. 2.$2 3+! 1-. 3+ &. 50.1 3+! 25.- 3+ %. $8.21 3+! 2.8 3+ (. $.25 3+! 2.8- 3+ Problem -1: 77 board April 18$ A balaced -6 phase load dra"s 5 amperes lie curret at 2-0 volts lie to lie! ad 0.8$8 laggig po"er factor. If the t"o6 "attmeter method is used! solve for the readigs of the the "attmeters. A. 15.-2 3+! 10.02 3+ &. 1.8 3+! .$8 3+ %. 1.$2 3+! 8.2 3+ (. 1.2$ 3+! 8.10 3+ Problem -2: 77 &oard ctober 180 hree eual impedaces! each havig a resistace of 8 ohms ad a iductive reactace of ohms are coected i delta to lies a! b ad c of a 2$0 ,! -6 phase! -6 "ire lie! phase seuece: seuece : a6b6c. +hat is the readig of a sigle6 phase "attmeter coected "ith its curret coil i lie a ad potetial coil across lies b ad c# A. !180 + &. ! -2$ + %. ! 51 + (. ! 00$ + Problem --: A balaced three6 phase load dra"s 20 3+ at 0.$$6 pf laggig from a 2-06 ,! 0 /B three6 phase trasmissio lie. Eid the readigs of the t"o "attmeters properly coected to measure po"er# A. 18.$5 3+! 1.55 3+ &. 1$.25 3+! 5.5 3+ %. 21.55 3+! 61.55 3+ (. 25.5 3+! 65.5 3+ Problem -$: (etermie the operatig po"er factor of the three6 phase balaced load if the readig of the t"o "attmeters properly coected to measure po"er is -:1. A. 0. &. 0.55 %. 0.5 (. 0.81 Problem -5: 77 &oar ctober 12 A three6 phase feeder carries t"o laggig balaced loads. he po"er observed by each is measured by t"o "attmeters method! givig the follo"ig readigs: Eirst load: +1 < 10 3+ +2 < 3+ Decod load: +1 < 0 3+ +2 < $8 3+ +hat is the combied 3,A load o the feeder# A. $-$.8 &. $2.- %. 50$.2$ (. $20.12 Problem -: A sigle6 phase "attmeter is used to determie the po"er ta3e by a three6 phase suirrel cage iductio motor. he he curret coil is placed i lie 1 "hile the potetial coil is shifted from lies 1 a d 2! the from lies 1 ad - respectively. If the "attmeter registers 50 ad --80 "atts respectively! "hat is the lie curret dra" by the motor# ;ie to lie voltage is 2-0 ,. A. 25.1 A &. 2-.$ A %. -$.1 A (. -.8- A
Problem -: 77 &oard ctober 12 atioal Po"er %orporatio used t"o "attmeters to measure -6 phase po"er of a balaced L6 L6 coected laggig po"er factor motor loads. 7ach "attmeter idicates 15.$ 3+. he he voltage coils are coected across lie 2 ad - ad across lies 1 ad -! respectively. respectively. he lie6to6lie voltages are 2-0 volts "ith ,12 leadig ,2- ad the lie currets are each ea ch 120 A. %alculate the total po"er supplied. A. -.$$ 3+ &. -0.2 3+ %. -. 3+ (. -$.88 3+ Problem -8: A three6 phase! 00 , balaced system supplies eergy to a ubalaced delta coected load. he three lie currets la! l b! lc are 1$1.$ A! 100 A ad 100 A respectively. respectively. A "attmeter "attmeter "ith its curret coil i lie a ad potetial coil across a ad b idicates 8$.8$ 3+ 3 +. Dolve for the total po"er dra" by the load. Assume a seuece a6b6c. A. 102.$5 3+ &. 100.- 3+ %. 10.25 3+ (. 110.12 3+ Problem -: hree eual o6 iductive resistaces are co ected i star across a balaced $00 ,! ,! 0 /B system. A sigle6 phase "attmeter is coected o the system "ith its curret coil i lie 1 ad potetial coil i lies 1 ad -. his "attmeter registers 00 +. if lie lie 2 is accidetally ope circuited! "hat "ill be the "attmeter readig uder this coditio# A. 00 + &. 1200 + %. 00 + (. -00 + Problem $00: A balaced three6 phase load havig a resistace of 10 ohms ad a reactace of 10 ohms are coected i star across the lies of a balaced 2-0 , three6 phase supply. Eid the readig o each t"o "attmeters properly coected to measure the po"er d ra". A. 2055 +! 58 + &. 2085 +! 55 + %. 215 +! $ + (. 2105 +! 5- + Problem $01: A ubalaced delta6 coected load is coected across the lies of a $6 "ire balaced three6 phase supply "ith eutral coectio. "o "o "attmeters +1! +2 are coected i lies 1 ad - "ith a commo potetial coectio i the eutral e utral "ire. hese "attmeters read 1.5 ad -000 "atts! respectively. respectively. he curret lies 1 ad - are 20 ad 25 A! respectively. If the commo potetial p otetial coectio is trasferred to lie 2! "hat "ill be the readig of the t"o "attmeters# he system voltage per phase is 208 ,. Assume a phase seuece of 1626- "ith ,1 as referece. A. +1 < $01- "atts! +2 < $50 "atts &. +1 < $0$- "atts! +2 < $5-0 "atts %. +1 < $0- "atts! +2 < $510 "atts (. +1 < $0- "atts! +2 < $500 "atts Problem $02: "o "o "attmeters are used to measure the total po"er dra" by a balaced delta coected load. If the "attmeter reads 1200 + ad 800 + respectively! ad the lie to lie voltage is 208 ,! solve for the impedace per phase of the load. A. 5.-1 = *2-. ohms &. 5.$ = *20.0 ohms %. 50.-1 = *-1.2 ohms (. 52.$ = *2-.82 ohms Problem $0-:
"o "o "attmeters used to measure the total po"er dra" by the three6 phase circuit ad are coected properly. e of the "attmeters read 10 3+ "he the po"er factor o f the load is uity. +hat does each "attmeter read "he the po"er factor fall to 0.8 laggig# Assume the total three6 phase po"er remais the same. A. 12.$5 3+! .55 3+ &. 1-.-- 3+! . 3+ %. 15.25 3+! $.5 3+ (. 10. 3+! .-- 3+ Problem $0$: 77 &oard April 180 A factory is supplied by a three6 phase! -6 "ire system "ith the follo"ig characteristics. (etermie the average po"er factor of the load. ,ab < 2-0∠ 2-0∠0o , la < 110∠ 110∠-.8o A , bc < 2-0∠ 2-0∠ 2$0o , lc < 125∠ 125∠ 5-.1-o A Problem $05: 77 &oard ctober 181 A three6 phase! -6 "ire load dra"s the follo"ig lie currets: ;a < 0∠ 0∠ --0o A l b < 8.$∠ 8.$∠ 21$o A lc < 5∠ 5∠ 80o A If the voltages impressed o the load are balaced three6 phase! havig a magitude of $1$0 volts lie to lie! solve for the po"er factor of o f the load. A. 0. &. 0. %. 0.82 (. 0.0
Test 12 – Electrical Transients Problem $0: 77 &oard April 1! 77 &oard ctober 182 I a @; circuit! circuit! Wirchhoff Wirchhoff s ;a" gives gives the follo" follo"ig ig relatio relatio:: 7 < ; didt = @i "here: "here: supply voltage >200 volts? @ < resistace >20 ohms? ; < iductace >1 hery? t < time i secods i < curret i amperes If i < 0 "he t < 0.02 secod. A. -. - A &. -.1 A %. -.2 A (. -.0 A Problem $0: 77 &oard ctober 180 I a @; @; circ circuit uit!! Wirchho Wirchhoff ffss ;a" ;a" gives gives the the follo follo"i "ig g relati relatio: o: 7< 7< ; did didtt = @i "her "here: e: supply voltage >200 volts? @ < resistace >20 ohms? ; < iductace >1 hery? t < time i secods i < curret i amperes If i < 0 "he t < 0! fid i after a log time. A. 10 A &. 11.2 A %. 0 (. ifiite
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Problem $08: 77 &oard ctober 10 A .0 / coil "hose resistace is 12 ohms is coected i series "ith a 2$ ohms resistor ad to a 1$$ , battery ad a s"itch. he s"itched is closed at t< 0. (etermie the time costat of the circuit. A. 0.- sec &. 0.$5 sec %. 0. sec (. 0.50 sec Problem $0:
he curret i the coil decays as follo"s: "he t < 0.002 sec! the curret is 10 mAT "he t< 0.00 0 .00 s! the curret drops to $ mA. he time costat of the coil is is . A. $.50 ms &. $.28 ms %. $.- ms (. 2.15 ms Problem $10: 77 &oard April 10 A time time of 10 millisecods is reuired for the curret o a series @; dc circuit to reach 0J of its fial steady state value. Assume at t< 0! i>0? < 0. +hat is the time costat i secods for the circuit# A. $.25 ms &. -.8 ms %. -.- ms (. $.0$ ms Problem $11: A coil has a resistace of 10 ohms ad a time costat of 1 secod. If the coil is coected co ected across a steady potetial of 2$ ,! ho" much is the curret after 2 ms# A. $.0 mA &. $. mA %. $.1 mA (. $.0$ mA Problem $12: 77 &oard April 15 he shut "idig of machie has a resistace of 80 ohms ad a iductace of $ / is suddely s"itched o to a 2206 , supply. Eid the time ta3e for the curret to rise to half its steady state value. A. 0.05 sec &. 0.0-$ sec %. 0.0251 sec (. 0.012 sec Problem $1-: A dc voltage 7 is applied app lied across a @; circuit at t< 0. At "hat time after! is the voltage vo ltage across the resistor eual to that across the iductor# A. 0.- % &. 0.- % %. 0.0 % (. 0. % Problem $1$: A 5006 ohm relay coil has a iductace of 10 m/. his relay reuires a curret of $0 mA i order to trigger. /o" log after the s"itched is closed "ill the relay trigger if a 2$ , (% source is applied across its termials. Assume Assume at t< 0! i< 0. A. 2-.5$ µsec &. 1.50 µsec %. -5.8- µsec (. -.22 µsec Problem $1: A coil havig a resistace of 10Ω 10Ω ad iductace of 10 / is coected i series "ith a 15Ω 15Ω resistor. resistor. A 2006 , (% source is coected to the circuit at t< 0. (etermie the voltage across the coil at t< 0.05 sec. A. 10.8 , &. 188.51 , %. 18.2 , (. 185.0 , Problem $1: A series @; circuit is coected across a dc source through a s"itch. hree >-? millisecods after the s"itch is closed! the voltage across the iductace is 20 , ad drops to 5 , after 20 ms. If @ < 100 ohms! fid ;. Assume at t< 0!l < 0. A. 1.-0 / &. 1.2 2 / %. 1 .5 / (. 1.25 /
Problem $18: A 1Ω 1Ω resistor is coected i series "ith a 26 m/ iductor. If a 126 , dc source is suddely coected across its termials! ho" log "ill it ta3e! such that the voltage across the resistor "ill be t"ice as that of the iductor. A. 2.5 ms &. 1. ms %. 2.2 ms (. 1. ms Problem $1: A resistace resistace of 100 1 00 3 Ω is coected i series "ith a 100 µE capacitor. If the combiatio is suddely coected across a 125 , (% source! determie the curret oe secod after the s"itch is closed. A. 1.1- mA &. 1.25 mA %. 1.05 mA (. 1.12 mA Problem $20: 77 &oard ctober 12 A ucharged codeser i series "ith a 1206 1 206 volt voltmeter of 10! 000 ohms o hms resistace is suddely coected to a 100 , battery. battery. e secod later! the voltmeter reads 0 volt. (etermie the capacitace of the codeser. A. 18.5$ µE &. 10.2 µE %. 15. µE (. 12.2- µE Problem $21: A 120 µE capacitor has a iitial charge of 00 µ%. It is discharged through a $0 Ω resistor. /o" log "ill it ta3e i order for a capacitor to discharge at 150 µ%# A. .5 ms &. .82 ms %. $. ms (. 5.85 ms Problem $22: A 50 µE capacitor is coected across a $00 , dc source. It is the discharged through a voltmeter "hose resistace is 1006 3 Ω. /o" log "ill it ta3e for a capacitor to discharge at 1.8 S of stored ee rgy# A. 2. - s &. 1. s %. 2.0 s (. 1. s Problem $2-: 77 &oard April 1 A 206 ohm resistace @ ad a 0.001 farad cap acitace % are i series. A direct curret voltage 7 of 100 volts is applied across the series circuit at t< 0 ad the iitial curret i>0? < 5 A. he applicable differetial euatio is: @ (didt? = ic < 0 Dolve the differetial euatio ad determie the resultig curret i>t? at t< 0.0 1 secod. A. -.-$ A &. -. A %. 2 . 8 A (. -.0- A Problem $2$: 77 &oard ctober 11 A series @% circuit cosist of @ < 2 CΩ CΩ ad a ucharged capacitor % < 5 µE. he circuit is coected cross a 100 ,(% source at t< 0. (etermie the the voltage across the resistor 5 secods later. A. -.-1 , &. 0.5 , %. .2$ , (. .22 , Problem $25: 77 &oard ctober 12
A ucharged codeser i series "ith a 1206 1 206 voltmeter of 10!000 ohms resistace is suddely coected to a 100 , battery. battery. e secod later! the voltmeter reads 0 volt. (etermie the rate at "hich the voltage across the codeser is chargig. A. 51 e60.55 t &. 51 e60.51 t %. 55 e60.55 t (. 55 e0.51 t Problem $2: 77 &oard ctober 181 I a circuit cosistig of a resistace! @ ohms! i series "ith a capacitace! % farad! ad coected to a dc source "ith emf 7 volts! the electrical charge! Q coulombs ad the curret i! amperes! maybe determied by solvig the simultaeous euatios: Q dQ @i = 7 ad l < < % dt 6 If @ < 20 ohms! % < 250 x 10 farad ad 7 < 100 volts! fid i after a log time. A. 1A &. 0A %. ifiity (. 5A Problem $2: A 80 µE capacitor i series "ith a voltmeter of 10! 000 ohm resistace is coected suddely across a 1006 , supply. /o" log "ill it ta3e for the voltmeter to register 15 ,# A. 1.8$ sec &. 1.52 sec %. 1.- sec (. 1.25 sec Problem $28: 77 &oard April 1A 100 µE capacitor iitially charged to 2$ , is discharged across a series combiatio of a 1 3 Ω resistor ad a 200 µE capacitor. Eid the curret after 1 sec. A. .-$ A &. .2$ A %. 8.$- A (. 8.8$ A Problem $2: A 80 µE capacitor i series "ith a 10006 ohm resistor is coected suddely across a 110 , (% supply. Eid Eid the value of the curret after oe time costat. A. 0.0$05 A &. 0.052 A %. 0.05$- A (. 0.0-22 A Problem $-0: 77 &oard ctober 11 A series @% circuit cosist of @ < 2 CΩ CΩ ad a ucharged capacitor % < 5 µE. the circuit is coected across a 100 ,(% source at t < 0. +hat is the iitial rate of chage of voltage across the resistor# A. 610.0 ,s &. 10.0 ,s %. 612.$ ,s (. oe of these Problem $-1: A series series @;% circuit "ith @ < 1 3 Ω! ; < 1 /! % < .25 µE is suddely coected across a 2$ , dc source. At t< 0! i < 0 ad < 0. (etermie the curret after 0.01 sec. A. -.$5 mA &. $.1 mA %. 5.$0 mA (. 5.05 mA Problem $-2:
A series @;% circuit has @< 200 Ω! ;< 0.1 / ad a capacitor %< 10 µE. If a 100 , dc source is coected across the ed termials of the series circuit at t< 0! determies the curret after 1 millisecod. Assume Bero iitial coditios. A. 0.-5- A &. 0.22 A %. 0.25- A (. 0.-8 A Problem $--T A series series @;% has @< $0 ohms! o hms! ;<100 m/ ad %< 50 µE. he he circuit is coected across a 100 , dc source at t< 0 through a s"itch. (etermie the curret 0.02 secod after the s"itch is closed. Assume all iitial coditio to be Bero. A. .$0 mA &. 5.-1 mA %. .22 mA (. $.85 mA Problem $-$:77 &oard Carch 18 A 106ohm resistace @ ad a 1.06 hery iductace ; are coected i series. A A% A% voltage e>t? < 100 si -t is applied across the series circuit. he applicable differetial euatio is: @i = ; >didt? < e>t? Dolve for the particular solutio >"ithout the complimetary solutio? ad determie the amplitude of the resultig siusoidal curret I i>t?. A. 0.-21 A &. 0.22 A %. 0.2$1 A (. 0.25 A Problem $-5:77 &oard April 11 A certai certai electric "elder has a basic circuit euivalet to a series @; "ith @< 0.1 Ω ad ; < 1 m/. It is coected to a A% source GeH through a s"itch GsH operated by a automatic au tomatic timer! "hich closes the circuit at ay desired poit o the 0 cycle! siusoidal "ave GeH. %alculate the magitude of the trasiet curret resultig "he GsH closes as GeH is passig through its pea3 value of 100 volts. A. 25.$1 A &. 5.$ A %. 80.5$ A (. .-2 A Problem $-:77 &oard ctober 1 Oive the differetial euatio: ; didt=@i< 100 si >-t? +here ;< 0.1 hery! hery! @< 10 ohms ad i>0?< i>0?< 0. (etermie the curret curret at t< 0.01 secod. A. 2.8$ &. 2.-01 %. 2.5-1 (. -.02 Problem $-: A series @% circuit "ith @< -0 ohms ad %< 250 µE is coected across a A% voltage source of emf 100 si 100t through a s"itch. he s"itch is closed at t< 0. (etermie the curret "he t< 0.01 secod. Assume Assume at t< 0! voltage v oltage across the capacitor is Bero. A. 1.$5 A &. 1.2$ A %. 0.- A (. 2.05 A Problem $-8:77 &oard April 1 A series series @% circuit has @< 10 ohms! ;< 0.1 hery ad %< 0.0001 farad. A A% A% voltage e< 100 si -t is applied across the series circuit ad the applicable differetial euatio is: ; >d2idt2?=@>didt?=>1%?I< ?=@>didt?=>1%?I< dedt Dolve for the particular solutio >"ithout the complimetary solutio? ad determie the amplitude of the resultig siusoidal curret i>t?. A. 5.51 A &. .0 A %. . A (. .-$ A Problem $-:77 &oard ctober 1 A 106ohm resistace @ ad a 0.001 farad capacitace % are i series. A A% A% voltage e < 100 si -t is applied across the series circuit. he applicable differetial euatio is:
@>didt?=>1%?I< dedt. Dolve for the particular solutio >"ithout the complimetary solutio? ad determie the amplitude of the resultig siusoidal curret i>t?. A. . A &. 10.- A %. 8. A (. 11.0 A Problem $$0: A series series @; circuit has @ < 10 ohms ad ; < 1 hery. he he circuit is coected across a voltage 610t source e>t? < 10 e through a s"itch that is iitially ope. he s"itch is closed at t < 0. (etermie the curret after 0.01 secod. Assume iitial curret to be Bero. A. 8.8 mA &. 0.5 mA %. 8.- mA (. 2.2 mA Problem $$1: 77 &oard ctober 1 he differetial euatio of a series @% circuit "ith (% applied vo ltage is: @i = 1% / idt < 7. If @ < 50 ohms! % < 0.0001 farad! 7 < 100 volts ad i>0? < 2.0 amperes! determie the laplace trasform expressio for l>s?. A. A. l>s? < 2 s = 200 &. l>s? < 2 s >s = 2? %. l>s? < 2 s = 50 (. l>s? < 2 s = 2 Problem $$2: A series series @% circuit has @ < 13 ad % < 100 RE "ith a iitial charge of 2000 R%. he combiatio is coected across a 100 , dc source ad the s"itch is closed at t < 0. If the capacitor is coected i the circuit such that it "ill be dischargig! determie the laplace trasform expressio of the curret dra". A. i>s? < 0.12 s = 10 &. i>s? < 0.12 s = 12 %. i>s? < 0.10 s = 10 (. i>s? < 0.10 s = 12 Problem $$-: 77 &oard Carch 18 (etermie the iverse laplace trasform of i>s? < 200 s2 = 50s = 1025. A. i>t? < 2 e625tsi 100t &. i>t? < 2t e625tsi 100t %. i>t? < 2 e625tcos 100t (. i>t? < 2t e625tcos 100t Problem $$$: 77 &oard Carch 18 A (% ammeter has a iteral resistace of 0.1 ohm. A shut shut of 1.010 x 10 1 0- ohm is coected to the ammeter. +hat is the multiplier of the set up# A. 80 &. 100 %. 50 (. 10 Problem $$5: A 1J dArsoval meter movemet has coil ad s"ampig resistace addig to 200 ohms. he full scale voltage is 50 m,. m,. (etermie the shut resistace reuired producig 1 A full full scale curret meter# A. 52.02 m &. $.22 m %. 50.01 m (. $8.$ m Problem $$: A galvaometer "ith a 206 ohm coil resistace has full scale deflectio curret of 10 mA. If a 0.02 ohm is placed across the meter to icrease its capacity! "hat is the approximate e" full scale curret of the meter# A. 10.10 A &. 11.01 A %. 10.11 A (. 10.01 A Problem $$:
A movig iro meter gives full scale deflectio "ith 100 , applied across the coil. he coil has 20! 000 turs ad a resistace of 2.5 3. If this istrumet is to used as a ammeter "ith a full scale deflectio of 10 A! ho" may turs are eeded# A. 80 &. 100 %. 50 (. 0 Problem $$8: A movig iro ammeter is "oud "ith 50 turs ad gives full scale deflectio "ith $ A. If it is desired to exted the full scale readig to 10 A! ho" may turs are eeded o the same bobbi# A. $0 &. 20 %. 10 (. -0 Problem $$: A galvaometer has a coil resistace of 50 ohms ad a curret sesitivity of 0.001 RA per mm. /o" much is the voltage across its termials "he the deflectio is 15 cm at full scale# A. .50 R, &. 10.0 R, %. 8.25 R, (. .05 R, Problem $50: 77 &oard ctober 1$ A 06 10 mA galvaometer "ith a coil resistace of 20 ohms is coverted to a 06 50 , voltmeter by usig A. 50 ohms shut resistor &. $80 ohms series resistor %. 5000 ohms series resistor (. 5020 ohms series resistor Problem $51: 77 &oard ctober 12 A certai 50 RA meter movemet has a resistace of 0 ohms. +hat value of series multiplier is eeded to ma3e the istrumet to read 5 , >maximum?. A. 102 3 &. .1 3 %. 110 3 (. 8 3 Problem $52: A voltmeter "ith a iteral resistace of 5000 ohms is calibrated to read 10 volts at full scale. /o" much series resistace is eeded i order to measure 150 volts at full scale# A. 0 3 &. 5 3 %. 2 3 (. 8 3 Problem $5-: A 1000 ohms per volt! 2J meter movemet has a c oil resistace of 200 ohms. (etermie the exteral resistace ecessary to provide full scale readig of 5 ,. A. $. 5 3 &. 5.2 3 %. 5.0 3 (. $.8 3 Problem $5$: A ammeter rated 5 A! havig a resistace of 0.5 ! is to be coverted ito a 200 , voltmeter by coectig a resistor i series "ith the ammeter. %alculate the value of this resistace. A. -.$ &. -$. %. -.5 (. -5.5 Problem $55: A direct curret "attmeter "ith a potetial coil coected across the load side of the istrumet reads 250 +. If the voltage across the load is rated 2-0,! "hat is the actual po"er dra" by the load. he resistace of the potetial coil is 3o" to be 1 3. A. 1$.2 + &. 1.1 + %. 1-.5 + (. 18. +
Problem $5: 77 &oard April 12
he stator of a $$0 ,! 506 hp shut motor is tested at 5o% for its isulatio resistace bet"ee termials coected together ad the groud frame. +he a 50!0006 ohm voltmeter is coected i series "ith a 006 , (% source ad the isulatio resistace! the meter idicates 125 ,. %alculate the isulatio resistace. A. 10 3 &. 10 3 %. 180 3 (. 200 3 Problem $5: It is desired to measure the resistace of the isulatio bet"ee the motor "idig ad the motor frame. A -006 ,! ,! 50!000 ohm voltmeter is used i ma3ig the measuremets. he voltmeter "he coected across the source reads 2-0 , ad "he coected i series "ith the isulatio! it reads 5 ,. Eid the isulatio resistace. A. 2.$2 C &. 2.25 C %. 2. C (. 2.-5 C Problem $58: +he a 150 3 voltmeter is coected across a costat source! it registers 2-0 ,. +he oe termial is coected to the core of a cable "hile the rubber isulatio of the cable is coected to the other termial of the lie! the meter registers 15 ,. ,. (etermie (etermie the isulatio resistace of the cable. A. 2150 3 &. 2000 3 %. 2202 3 (. 2$80 3 Problem $5: A u3o" voltage is to be measured by meas of a 250 , scale voltmeter havig a iteral resistace of 10!000 ohms. Eor safety purposes a 1000 ohms resistor is coected i series "ith oe o f the voltmeter termials. If the meter reads 200 volts! determie the u3o" voltage. A. 250 , &. 220 , %. 2-0 , (. -00 , Problem $0: "o "o idetical 1000 ohm per volt (% voltmeter are coected i series to measure a u3o" supply voltage. he first voltmeter is coected to its 200 , scale "hile the secod voltmeter is coected to its 250 , scale. +hat is the voltage of the supply if the first voltmeter reads 100 ,# A. 225 , &. 220 , %. 2-0 , (. 2$2 , Problem $1: A 20 3 per volt voltmeter idicated a readig of 250 , o its -00 , scale "he used to measure a u3o" voltage. If a 50 3 resistor "as coected i series "ith the istrumet durig the test! determie the value of the u3o" voltage. A. 2-8 , &. 2-5 , %. 2$8 , (. 225 , Problem $2: A -006 , voltmeter dra"s 26 mA curret for full scale deflectio. his voltmeter is used to measure the voltage across a 50 3 resistor i series "ith a 25 3 resistor. he combiatio of the resistors is beig coected across a 1506 , source. +hat is the voltmeter readig# A. 8 , &. 102 , %. 0 , (. 88 , Problem $-: 77 &oard ctober 18 he C7@A;% test of a 106 A "attmeter havig a costat of 0.$! the dis3 ma3es $0 revolutios i 5-. secods. he average volts ad amperes durig this period of test are 11 volts ad .$ A. +hat +hat is the percet accuracy of the meter at this load# A. .$5J &. 8.58J %. 8.0J (. .$$J Problem $$: 77 &oard April 12
I a test of a 106 ampere "attmeter havig a costat of 0.$0! the dis3 ma3es $0 revolutios i 55 secods. he average volts ad amperes durig d urig this period are 11 volts ad 10 amps. (etermie the percet accuracy of this meter at this load. A. 2.-$J &. 1.0-J %. 8-.$J (. 0.28J Problem $5: A give ampere6 hour meter is uder test by coectig it across a 2-06, (% source. Eor a duratio of 180 miutes! a costat curret of 20 A flo"s. his meter registers 50.5 ad 582.- 3+6hr before ad after the test respectively. respectively. %alculate the percetage accuracy of the meter. A. 2.-1J &. 0.02J %. 1.$$J (. 8.20J Problem $: A 15 A! A! 1206 , "atthour meter has a dis3 costat of 2. +he tested o a uity po"er factor load! 2$ dis3 revolutios are couted i a period of 2 miutes. /o" may dis3 revolutios "ould be couted per miute if the po"er factor "ere chaged to 0.5 laggig. Assume Assume the same lie curret ad voltage i both coditios. A. &. 10 %. 8 (. 12 Problem $: A sigle6 phase three "ire! 0 /B! 220 , "atthour6 meter has a disc costat of 1.2. (etermie the eergy recorded by the meter after 18!000 revolutios of the disc. A. 21. 3+6hr &. 20.5 3+6hr %. 25.$ 3+6hr (. 2. 3+6hr Problem $8: A 1156 1156 ,! 10 A! three6 phase "att6hour meter! havig a basic meter costat of 3 < 2- is coected to a three6 phase! three6 "ire circuit through a 100:5 10 0:5 ampere % ad 2-00:115 volt P. A time chec3 sho"s that the meter dis3 is ma3ig 15 revolutios i 50 secods. +hat is actual 3+ of the load# A. 20 3+ &. 288 3+ %. 52$ 3+ (. -80 3+ Problem $: 77 &oard Carch 18 A po"er plat customer dra"s po"er at 220 volts from trasformers o a pole. %urret trasformers "ith ratio of 2005 are used to meter the electrical usage. +hat is the multiplier of the 3+6hr 3+6hr ad demad meters# A. $0 &. 200 %. 100 (. 80 Problem $0: A curret trasformer trasformer "ith a turs ratio of 100:5 ad a potetial trasformer "ith a turs ratio of 10:1 are coected to the curret ad voltage coils of a sigle phase "attmeter measurig po"er delivered to a load. If the "attmeter readig is 2$0 +! "hat is the actual po"er measured delivered d elivered to the load# A. 50!000 "atts &. $2!000 "atts %. $8!000 "atts (. $5!000 "atts Problem $1: 77 &oard ctober 1 At a 115 3, substatio! the P ratio is 1000 ad the % ratio is 12005. he potetial goig ito the "attmeter is 115 volts. +hat is the C+ idicated "he the "attmeter reads 800 "atts# A. 12 C+ &. 15.0 C+ %. 1.2 C+ (. 150 C+ Problem $2: A 15 A! A! 1206 , "att6 hour meter has a dis3 costat of 2. +he tested o a 0.8 po"er factor load! 2$ dis3 revolutios are couted i a period of - miutes. %alculate the curret dra" from the load. A. 10 A &. 8A %. A (. 12 A
Problem $-: I a give test! it "as foud out that "ith a curret of $0 A! the disc of a give ampere6 hour meter made 10 revolutios i $ miutes. If the meter costat of the istrumet is 50 coulombs per revolutio! determie the multiplyig factor to be used i order to give the correct eergy cosumptio of the load. A. 0.8-&. 0.0 %. 0.22 (. 0.8 Problem $$: A u3o" resistor @ x as sho" is to be measured by meas of a +heatstoe bridge! "he the ratio arms are arraged @ 1 < 10 ohms ad @ 2 < 1200 ohms! balace is obtaied "he rheostat arm is eual to 125 ohms! "hat is the value of the u3o" resistor# A. 10.$ &. 11.2$ %. 1-.22 (. 1$.05 Problem $5: A u3o" resistace x as sho" is measured by a slide "ire bridge >a simple form of +heatstoe bridge? A% is a uiform "ire 100 cm log ad ( is a slidig cotact. &alaced is obtaied "he A( euals -2.5 cm. Eid the value of the u3o" resistace x. A. $5.-2 &. $8.1$ %. 50.0$ (. $-.$$ Problem $: A t"o6 coductor udergroud cable 2800 ft log is used to itercoect a home base statio to aother statio. e coductor is grouded at some poit. A Curray loop test "as coducted at the home base "ith a 100 cm slide "ire bridge. If a balace o the bridge "as obtaied at cm! at "hat distace is the fault from the home base# A. 128 ft &. 1$15 ft %. 1-$$ ft (. 1-02 ft A.
0.0$ ohm
&.
0.-2 ohm
%.
0.12 ohm
(.
0.- ohm
Problem 5-: Problem $: A four6pole! four6pole! (% geerator "ith lap "idig has h as $8 slots ad $ elemets per slot. /o" may coils does it have# A. $8 &. -8$ %. 12 (. Problem $8: If the armature of a eight6pole machie "ere "oud "ith a simplex "ave "idig! ho" may parallel paths "ould there be# A. 1 paths &. 8 paths %. 2 paths (. $ paths Problem $: he armature of a four6pole shut geerator is lap "oud ad geerates 21 volts "he ruig at 00 rpm. he armature has 1$$ slots! "ith six coductors per slot. If this armature is re"oud! "ave coected! fid the emf geerated at the same speed ad flux pole. A. $12 , &. $2 , %. $5 , (. $-2 ,
Problem $80: A t"o6pole (c geerator has a armature cotaiig a total of $0 coductors coected i t"o parallel paths. he flux per pole is .$8 x 108 lies ad the speed o f the prime mover is -0 rpm. he resistace of each coductor is 0.01 ohm ad the curret carryig capacity cap acity of each coductor is 10 A. calculate the termial voltage of the geerator. A. 12. , &. 125.2 , %. 1-0.8 , (. 128.$ , Problem $81: A four6pole four6pole (c geerator has a armature "idig cotaiig a total of $8 coductors coected i t"o parallel paths. If the flux per pole is 0.-21 x 10 max"ells ad the speed of rotatio of the armature is 1!800 rpm. %alculate the ampacity reuired i each armature coductor if the po"er developed by the armature is 5 3+. A. $0 A &. -0 A %. 20 A (. 25 A Problem $82: A four6pole four6pole (% geerator "ith duplex lap "idig has $8 slots ad four elemets per slot. he flux per pole is 2.5 x 10 max"ells ad it rus at 1500 rpm. +hat is the output voltage# A. 0 , &. -0 , %. 225 , (. 120 , Problem $8-: he armature of a $6pole! 128 slots shut geerator is lap "oud "ith four coductors per slot. he flux per pole is 50 m+b. he armature ad shut field resistaces are 0.0$ ohm ad 50 ohms respectively. respectively. (etermie the speed of the machie "he supplyig $00 A at a termial voltage of 250 ,. A. 15 rpm &. 22 rpm %. -$ rpm (. 2$ rpm Problem $8$: A four6pole four6pole shut coected geerator ge erator has a lap coected armature "ith 28 coductors. he flux per pole is 25 m+b. If the geerator supplies t"o hudred fifty 110 110 ,! ,! 5 + icadescet lamp. he field ad armature resistaces are 110 ohms ad 0.025 ohm respectively. respectively. (etermie the speed i rpm of the geerator. A. -$ &. -8 %. - (. -Problem $85: A speed6idicatig device cosists of a 26pole permaet maget (c geerator "ith a 20006ohms (% voltmeter coected across its termials. he geerator has a armature "ith 1200 coductors havig t"o parallel paths ad a total resistace of 1000 ohms bet"ee brushes. he air gap flux is $0!0 00 lies per pole. If the voltmeter reads 10 ,! ,! at "hat speed "ill this readig idicates# A. 15-$ rpm &. 152 rpm %. 1512 rpm (. 1582 rpm Problem $8: A shut geerator supplies a load of 5!500 + at 110 , through a pair of feeder coductors havig a resistace of 0.02 ohm each. he armature! shut field resistaces are 0.15 ohm ad 50 ohms respectively. respectively. Eid the emf geerated. A. 11 , &. 118 , %. 121 , (. 120 , Problem $8: he o6load voltage of a 5063+! 220 volts! shut geerator i the E79 laboratory is 2-2 volts ad rated load voltage is 220 volts. he armature resistace icludig brushes! is 0.02 ohm ad the resistace of the shut field resistace is 52 ohms. +hat is the iduced electromagetic force at rated load#
A.
221.- ,
&.
22.02 ,
%.
22$.5 ,
(.
22.05 ,
Problem $88: he field curret of a 180 3+! 250 volts (% shut geerator is A "he ruig full load at rated termial voltage. If the combied armature ad brush resistace is 0.02 ohm! solve for the electrical efficiecy of the geerator. A. 2.1-J &. $.05J %. -.-J (. 1.8J Problem $8: 77 &oard Sue10 he field circuit of a 200!000 "atts! 2-06 , shut geerator is 8 A "he ruig full load at rated termial voltage. If the combied brush ad armature resistace is 0.0- ohm! solve for the electrical efficiecy of the geerator. A. 85.-$J &. 8.1$J %. 88.1J (. 8.82J Problem $0: 77 &oard ctober 180 he field curret of a 100 3+! 250 volt shut geerator is 5 amperes "he deliverig po"er at rated termial voltage ad at rated load curret. he combied armature ad brush resistace is 0.01 ohm. (etermie the efficiecy of the geerator. A. .2J &. $.-J %. 8.2J (. $.J Problem $1: 77 &oard April 1 he armature of the shut geerator has 0.05 ohm effective resistace. 7ach brush has a effective resistace of 0.01 ohm. he termial voltage is 100 volts "hile the curret is $0 amperes. +hat is its efficiecy# A. 5.15J &. .5J %. .-0J (. .52J Problem $2: A shut geerator is coected to a load that dra"s 28.8 3+. @a < 0.0$ ad @sh < $8 . If the po"er developed i the armature is 10.-J of the po"er delivered to the load. (etermie the termial voltage of the geerator. A. 2-8 , &. 2$0 , %. 2-$ , (. 2- , Problem $-: A 15 3+! 2-0 ,! shut geerator "as ru light as a motor to determie its stray po"er losses at rated load. he applied voltage across the armature! computed for test "as 25$ , ad the armature curret dra" is 2 A. he armature ad shut field resistaces are 0.25 ad 100 respectively. %alculate %alculate the geerator efficiecy at half load. Assume stray po"er losses to be costat. A. 81.-$J &. 8$.8-J %. 8-.J (. 8.0J Problem $$: A shut geerator supplies 100 A at 200 ,. ,. he armature ad shut resistaces are 0.02 5 ad 100 ! respectively. If the copper losses are eual to the iro losses at this load! fid the bra3e horsepo"er of the egie drivig the geerator. A. 2.$- hp &. 28.58 hp %. -0.12 hp (. -2.2$ hp Problem $5: A 20 3+! 3+! 200 , shut geerator is operated at rated load. If the drivig egie is developig -0 bhp! determie the iro ad frictio losses. Armature Armature resistace is 0.05 ohm ad shut field resistace is 50 ohms. A. 1-$0 + &. 10- + %. 5$ + (. 10-$ +
Problem $: A 220 , shut geerator has a armature resistace of 0.02 ad a shut resistace of $$ . At rated load! the drivig egie develops d evelops 2.25 hp. If the iro ad frictio losses amout to 100 +! ho" much is the curret delivered to the load at rated coditio# A. 18 A &. 200 A %. 15 A (. 12 A Problem $: 77 &oard ctober 1 1 ad 77 &oard April 1 A (% geerator has o6 load output voltage of 120 volts. Its armature circuit resistace is 0.5 ohm ad its field coils are separately eergiBed. e ergiBed. If the load is rated 2 3+ at 115 ,. ,. eglectig the effect of armature reactio! "hat po"er could be delivered to the load# A. 1!518 + &. 2!180 + %. 1!0 + (. 2!000 + Problem $8: he armature of a 6 pole separately excited (% geerator is lap "oud "ith 5-$ coductors. his machie delivers po"er to the load at 250 , "hile beig drive at 1000 rpm. At this load! the armature circuit dissipates $0 +. If If the flux per pole of this geerator is -06m+b! determie the 3+ ratig of the load served. Assume a total brush cotact co tact drop of 2 ,. ,. A. 10. 3+ &. 11.2$ 3+ %. 12.5 3+ (. 15.$$ 3+ Problem $: A separately excited geerator "he ruig at 1200 rpm supplies 20 0 A at 125 , to a circuit of costat resistace. Armature Armature circuit resistace is 0.10 ohm. (etermie the termial voltage "he the speed is dropped to 1000 rpm# Assume that the field curret is ualtered. A. 10$ , &. 125 , %. 118 , (. 11$ , Problem 500: A dc series geerator is supplyig a curret of 5 A to a series lightig system through a feeder of total resistace! 1.0 ohm. he termial voltage is 2500 2 500 ,. he armature ad series field resistaces are respectively 18 ad 15 ohms respectively. A -06ohm diverter resistace is shuted across the series field. (etermie the po"er developed i the armature of the geerator# A. 1-2.25 3+ &. 1-.50 3+ %. 12-.2 3+ (. 1-.80 3+ Problem 501: A -0 3+ series geerator has a efficiecy of 88 percet "he operatig at rated load. If the stray po"er loss is 15J of the full load losses! losses! calculate the maximum efficiecy of the geerator. Assume that the stray po"er loss is costat ad the other losses vary as the suare of the load. A. 0.$-J &. 2.0$J %. 1.12J (. 8.2J Problem 502: he hysteresis ad eddy curret losses of a (% machie ruig at 1000 rpm are 250 "atts ad 100 "atts! respectively. If the flux remais costat! at "hat speed "ill the total iro loss be halved# A. 500 rpm &. 550 rpm %. 50 rpm (. -0 rpm Problem 50-: he eddy curret loss i a (% machie is 00 "atts "he the total flux is 2!000!000 max"ells per pole ad the machie is ruig at 1000 rpm. (etermie the loss "he the excitatio of the machie is ad*usted to produce 2!500!000 max"ells per pole ad the speed is icreased to 1200 rpm. A. 00 "atts &. 1025 "atts %. 1280 "atts (. 1-50 "atts
Problem 50$: I a (% geerator! the iro losses at 1!000 rpm are 10 3+ at a give field curret. At a speed of 50 rpm ad at the same field curret! the total iro losses become 3+ 3 +. Assume Assume the hysteresis loss is directly proportioal to the speed ad the eddy curret loss is proportioal to the suare of the speed. (etermie the iro losses at 500 rpm. A. $ 3+ &. 5 3+ %. - 3+ (. 2 3+ Problem 505: A compoud dyamo supplies a load of 20 3+ at $00 , through a feeder havig a resistace eual to 0.1 ohm. he shut ad series field resistaces are 85 ohms ad 0.0 oh m respectively. respectively. (etermie the total electromotive force "he the geerator is coected log shut. Assume a brush cotact drop of 1 , per brush ad a armature resistace of 0.1 ohm. A. $18.-$ , &. $12.50 , %. $15. , (. $21.$$ , Problem 50: A log shut compoud geerator has the follo"ig parameters: @a < 0.1 ! @se < 0.05 ad a d @sh < 120 . his machie supplies po"er aggregate dc load of 10 3+. At At this load the armature geerates 2$ volts. (etermie the termial voltage. A. 251.55 , &. 25.8 , %. 25-.82 , (. 2$.-- , Problem 50: A compoud geerator is to be operated! as a flat6compouded log shut compoud geerator. o obtai the same rated voltage at full load ad at o load "he operated as a shut geerator! it is ecessary to icrease the field curret by 0.20 A. he shut field "idig has 1000 turs per pole! ad the series field "idig has $ turs per pole. If the full load armature curret of the compoud geerator is 5 A ad the series field resistace is 0.025 ohm! calculate the diverter resistace reuired. A. 0.08 &. 0.0$2 %. 0.028 (. 0.0-$ Problem 508: he armature! series field ad shut field resistaces of a 125 3+! 2506, log shut cumulative compoud (% geerator are 0.025 0.0 25 ! 0.01 ad -0 ! respectively. If the stray po"er loss at rated loss is 5 3+! determie the or bra3e horsepo"er reuired to drive this machie. Assume a brush drop of 2 , ad a stray load loss of 1J of the output. A. 182.-2 hp &. 201.-- hp %. 10.85 hp (. 210.5 hp Problem 50: A log shut compoud geerator delivers 100 A! 250 , at rated load. he resistaces of the various "idigs are: @a < 0.1! @ip < 0.02! @sh < 100ad @se < 0.025. If the stray po"er losses amout to 1.8 3+! solve for the overall o verall efficiecy of the geerator. A. 0.52J &. 8.$-J %. 88.-2J 8.-J Problem 510: A certai certai 5.5 3+! 1256, (% log shut compoud geerator "as operated as a shut motor at o load for determiatio of stray po"er losses. +ith 1-5 , eual to the geerated emf at full load applied to the armature ad at ormal speed of o f 100 rpm! the curret iput to the armature "as foud to be 2.5 A. he armature! shut field ad series field resistaces are 0.2 ! 25 ad 0.25 ! respectively. (etermie (etermie the efficiecy of the geerator at rated load. A. 8$.52J &. 8-.5J %. 80.21J (. 82.2-J Problem 511:
A compoud dyamo supplies a load of 20 3+ at $00 , through a feeder havig a resistace eual to 0.1 ohm. he shut ad series field resistaces are 85 ohms ad 0.0 oh m respectively. respectively. (etermie the total electromotive force "he the geerator is coected short shut. Assume a brush cotact drop of 1 , per brush ad a armature resistace of 0.01 ohm. A. $15.$8 , &. $11.$2 , %. $1.2- , (. $12.$2 , Problem 512: A short shut compoud geerator has the follo"ig has a armature! series field ad shut field resistaces are 0.0$ ohm! 0.0- ohm oh m ad 80 ohms respectively. he geerator serves a 20 3+! 200 , load load through a feeder "ith a euivalet resistace of 0.01 ohm. Dolve for the po"er geerated by the armature. A. 2-.8$ 3+ &. 21.-0 3+ %. 22.2 3+ (. 21.2 3+ Problem 51-: A short shut compoud geerator has a armature! shut field ad series field resistaces of 0.02 ! 80 ad 0.00.0 - respectively. he geerators iduced iduced emf is 510 , "he the termial voltage is 500 ,. ho" much load curret is delivered uder this coditio. co ditio. A. 1.$ A &. 10.$ A %. 1$.5- A (. 12.2 A Problem 51$: A short shut field compoud geerator delivers 150 at a termial voltage is 2-0 ,. he shut field curret is 2.5 A. he resistace of the armature! series field ad diverter are 0.0-2 ! 0. 015 ad 0.0- ! respectively. respectively. %alculate the electrical e lectrical efficiecy of the geerator at this load. A. .$J &. -.8J %. $.2J (. 5.J
Problem 515: "o "o shut (% geerators ge erators O1 ad O2 are rated at 100 ad 150 3+ at 110 , respectively. heir exteral load characteristics may be cosidered as straight lie. he drop i the termial voltage from o6 load to full6 load is 10 volts for O 1 ad 20 volts for O2. %alculate the o6 load voltages of these geerators "he they are operated i parallel to supply a load of 2000 2 000 A! "hich is divided bet"ee them i proportio of their ratigs. A. O1 < 12-. ,! O2 < 1--. , &. O1 < 12-. ,! O2 < 1-1. , %. O1 < 121. ,! O2 < 1--. , (. O1 < 121. ,! O2 < 1-1. , Problem 51: "o "o shut geerators operatig i parallel are givig a total output of -20 3+. Oeerator A &
Armature @e @esistace 0.02 ohm 0.025 ohm Eid the bus bar voltage. eglect shut field curret. A. $50.- , &. $$.5 , %. $2-.$ ,
Iduced em emf $50 , $0 , (.
$$.2 ,
Problem 51: "o idetical shut geerators ruig i parallel supply a total load curret of 2500 A. 7ach machie has a field resistace of 50 ohms ad a armature resistace of 0.01 ohm. he iduced emfs geerated are 2-0 ad 2-5 volts! respectively. %alculate the commo operatig voltage of each machie. A. 220 , &. 222 , %. 22- , (. 218 ,
Problem 518: hree shut geerators operatig i parallel supply a total load curret of 2000 amperes. 7ach machie has a field resistace of $0 ohms ad a armature resistace of 0.02 ohm. he emfs geerated are 2$0! 2$2 ad 2$5 volts respectively. (etermie (etermie curret delivered by each geerator. A. 550 A! 00A! 850 A &. 550 A! 50 A! 800 A %. 500 A! 50 A! 850 A (. 00 A! 00 A! 800 A Problem 51: "o "o shut geerators ruig i parallel deliver a total curret of -!00 A. 7ach machie has a field resistace of 0 ohms ad a armature resistace of 0.01 ohm. he emfs geerated b y each machie are $55 ad $0 ,! respectively. respectively. %alculate the 3+ 3 + share of each machie. A. 52 3+! 108 3+ &. 0 3+! 10 3+ %. $1 3+! 108 3+ (. 82 3+! 105 3+ Problem 520: A shut shut geerator ad a battery are coected i parallel p arallel servig a 500 A bus load. he geerator has a exteral characteristics such that the termial voltage drops uiformly from $0 volts o o6 load to $$0 volts o rated load "hile deliverig 125 A of curret. he battery has a ope circuit emf is $20 , ad iteral resistace of 0.01 ohm. +hat percetage of the load curret does the battery deliver# A. 5-J &. $J %. $J (. -J Problem 521: A 50 3+! 3+! 220 , (% geerator has a voltage regulatio of 10J. It is co ected i parallel "ith a battery of 115 cells! each "ith a emf of 2, ad iteral resistace of 0.01 ohm. +hat curret "ill the battery carry if by accidet the load is trip6 off from from the bus# A. 0A &. 8 .0 2 A %. .1 5 A (. .20 A Problem 522: "o "o idetical 00 3+! 2-0 , dc geerators are operatig i parallel ad ta3e eual shares of a 800 3+! 250 , bus load. he voltage regulatio of each machie is 5J. If oe of the geerators is accidetally tripped off from the lie! "hat is the voltage of the remaiig machie# A. 250 , &. 2$- , %. 2$5 , (. 2$ , Problem 52-: "o "o 250 , dc geerators are operatig i parallel p arallel ad ta3ig eual shares of a -000 A! 250 , busload. he ratig of the geerators are as follo"s: Cachie Parameters @egulatio >J? @ated Po"er >3+?
Oeerator 1 2 500
Oeerator 2 $ $00
If the load drops to 2100 A! determie the e" operatig bus voltage. A. 252 , &. 25 , %. 25$ , (.
25- ,
Problem 52$: "o "o shut geerators are operatig i parallel ad ta3ig eual shares of a 2$00 2$ 00 A! 2-0 , busload. he ratigs of the geerators are as follo"s:
Cachie Parameters @egulatio >J? @ated Po"er >3+? @ated ,oltage
Oeerator 1 500 250
Oeerator 2 $ 00 250
If a additioal 006 A load load is coected to the bus! determie the curret delivered by each geerator at this coditio. A. 151 A! 1$8$ A &. 1525 A! 1$5 A %. 112 A! 1-88 A (. 155 A! 1-$5 A Problem 525: A simplex lap "oud armature has 580 coductors ad carries a curret of 125 amperes per armature curret path. If the flux per pole is 20 m+b. %alculate the electromagetic torue d eveloped by the armature# A. 210.$6m &. 252.2 6m %. 2-0. 6m (. 20.- 6m Problem 52: A 6pole lap "oud shut motor ta3es -00 A "he "he the speed is 500 rpm. he flux per pole is 0.0 +b ad the armature has 80 turs. eglectig the shut field curret! calculate the bra3e horsepo"er of the motor. Assume Assume a costat loss of $J. A. 15 &. 18 %. 12 (. 15 Problem 52: A 220 , shut motor drivig its ormal load dra"s a armature curret of 50 A from a 220 , dc source. he armature resistace of this motor icludig brushes is 0.25 ohm. /o " much armature curret >miimum? "ill this motor dra" from a 200 , dc source "he the same load "ith the field ad*usted to maitai the same speed. A. 55. A &. 58.2$ A %. 0.12 A (. -.$8 A Problem 528: A (% shut motor has a full load ratig of 15 hp! 2-0 volts! 5.1 amperes! 1$00 rpm. he armature circuit resistace is 0.1- ohm ad the field circuit resistace is 115 ohms. eglectig the effect of armature reactio! determie the o6load lie cu rret. A. .$ A &. 5. 2 A %. .$ 5 A (. 8.$ A Problem 52: At rated load! a shut motor dra"s d ra"s a armature curret of 50 A from from a 2-0 , dc mais "hile ruig at 1000 rpm. At o load the armature curret drops to 5 A. If the effect of armature reactio has "ea3e the flux by 2J from o6load to full load! determie speed of the motor at o6load. Assume the armature resistace to be 0.15 ohm. A. 1202 rpm &. 1221 rpm %. 1122 rpm (. 1010 rpm Problem 5-0: he ameplate ratig of a shut shu t motor is 150 hp! 00 volts! 205 A! 100 rpm. he resistace of the shut field circuit is 2$0 ohms ad the total armature circuit resistace is 0.15 ohm. %alculate the speed regulatio of the motor. A. $.0J &. $ .8 J %. 5 .2 5 J (. 5.18J
Problem 5-1: A (c shut motor rus at 00 rpm o a 2$06volt 2$0 6volt supply "hile dra"ig a lie curret of -0 A. Its armature ad field resistaces are 0.5 ad 120 respectively. +hat resistace resistace should be placed i series "ith the armature circuit i order to reduce the speed to $00 rpm. Assume o chages i the armature or field curret. A. 2. &. 2 .$ 1 %. 2 .0 (. 2.8- Problem 5-2: A 1206, shut motor has a armature euivalet of 0.5 ad a field resistace of 0 . At full load! the motor ta3es 10 A ad the speed is 1000 rpm. At "hat speed must this motor maybe drive to deliver 10 A to a exteral load at 120 ,# A. 1158 rpm &. 108 rpm %. 122 rpm (. 10$5 rpm Problem 5--: A belt6drive belt6drive 150 3+ shut "oud (% geerator is ruig at $50 rpm ad a d is supplyig full load to a bus bar at 2$0 ,. At "hat speed "ill it ru if the belt brea3s ad the machie cotiues to ru ta3ig 8.5 3+ from the bus bar# he armature ad field resistaces are 0.05 ohm ad 85 ohms respectively. he he brush cotact drop is 1.5 volt per brush. eglect armature reactio. A. -5 rpm &. -88 rpm %. $02 rpm (. -58 rpm Problem 5-$: A shut motor dra"s a curret of $0 A from a 120 , source ad rus at 1200 rpm at rated load. he armature ad field circuit resistaces are 0.1 ad 0 ! respectively. (etermie the speed of the motor at half load. Assume a brush drop of 2 , at rated load ad 1 , at half load. A. 1180 rpm &. 12-8 rpm %. 12-0 rpm (. 102 rpm Problem 5-5: A (% shut motor has a full load ratig of 15 hp! 2-0 volts! 5.1 amperes! 1$00 rpm. he armature series circuit resistace is 0.1- ohm ad the field circuit resistace is 115 ohms. eglectig the effect of armature reactio! determie the o6load speed. A. 1-2 rpm &. 12$ rpm %. 1$$1 rpm (. 1-80 rpm Problem 5-: A 2206, shut motor delivers $0 hp o full load at 50 rpm ad has a efficiecy of 88J. he armature ad field resistaces are 0.2 ohm ad 110 ohms! respectively. (etermie (etermie the startig resistace such that the startig armature curret does ot exceed 1. times the full load curret. A 1206, (% motor rated at 56hp has a full load efficiecy of 8J. he field ad armature resistaces are 0 ohms ad 0.5 ohm! respectively. +hat +hat starter resistace "ill be reuired to limit the armature curret at startig to 200J of its rated armature curret# A. 1.02 ohms &. 1.12 ohms %. 1.00 ohms (. 1.22 ohms Problem 5-8: A 106hp 2-0 , (% motor of 85J full load efficiecy is located $50 ft from the supply mais. If the motors startig curret is 1.5 times the full load curret! "hat is the smallest cross6sectioal area of copper "ire reuired "he the allo"able voltage drop i the feeder at startig is limited to 2$ volts# A. -0 C%C &. 28 C%C %. 2 C%C (. 2 C%C Problem 5-: he ameplate ratig of a shut shu t motor is 150 hp! 00 volts! 205 A! 100 rpm. he resistace of the shut field circuit is 2$0 ohms ad the total armature circuit resistace is 0.15 ohm. If the motor is to be deliver full6load torue at 1!200 rpm! "hat value of resistace must be added to the armature circuit#
A.
0.8-- ohm
&.
0.802 ohm
%.
0.82 ohm
(.
0.82 ohm
Problem 5$0: A 120 , shut motor dra"s a curret of A at rated load. he armature ad shut field resistaces are 0.2 ad 0 ohms respectively. A multi6tap multi6tap starter rheostat is iserted i the armature circuit to limit the startig curret. If the rheostat has a resistace of 1.-2 ohms! determie the percetage tap used such that the startig curret "ill be limited to 150J of its full load value# A. 0J &. 50J %. 55J (. $5J Problem 5$1: A 106hp po"er 220 , (c shut motor has a armature ad field resistace of 0 .25 ohm ad 100 ohms respectively. respectively. he full load efficiecy is 8-J. (etermie the value of startig resistace i order that the startig "ill ot exceed 200 percet of full6load value. A. 2.88 &. 2 .5 %. 2 .1 5 (. 2.$5 Problem 5$2: A 506/P! 506/P! 550 , shut "oud motor dra"s a lie curret of $.5 A at o load. he shut field resistace is 25 ohms ad the armature resistace exclusive o f brushes! is 0.- ohm! the brush drop at full load is 2 ,. at full load! the motor dra"s a lie curret of 8$ A. %alculate the efficiecy at full load. A. 2.0J &. 88.5J %. 1.2J (. 8.J Problem 5$-: A 1006volt shut motor is developig hp "hile operatig at a overall efficiecy of 8J. he armature ad shut field resistaces are 0.0 ad 50 ohms respectively. (etermie stray po"er losses. A. -8 + &. - + %. -2 + (. -$ + Problem 5$$: he shaft po"er of a shut motor is .8 hp. It dra"s 50 A from 120 ,. ,. he field "idig dra"s 1.2 A. +hat is the efficiecy of the motor# A. $.J &. -J %. .J (. 8.2J Problem 5$5: A 500 , shut motor ruig at 20 rpm ta3es a armature curret of 50 A. he euivalet armature resistace is 0.$ ohm. +hat resistace must be placed i series "ith the armature to reduce the speed to 5$0 rpm "hile maitaiig the same torue# A. 2.2 ohms &. 2. ohms %. 2.$ ohms (. 2.8 ohms Problem 5$: A certai shut motor has a armature resistace of 0.05 ohm. It dra"s 50 A at a termial voltage of 120 ,. Assume other miscellaeous losses at 1J. (etermie the output horsepo"er of the motor. A. 8.5 hp &. .1 hp %. .8 hp (. .8 hp Problem 5$: he armature ad field resistaces of a shut machie are 0.2 ohm ad 110 ohms respectively. respectively. +hile ruig as a geerator! the geerated emf is 250 , at 1200 rpm. If the machie is ru as a shut motor! it ta3es $ A at 220 ,. At a certai load the motor ta3es -0 A at 220 ,. /o"ever o load! the armature reactio "ea3es the field by 2J. Eid the motor speed at this load. A. 1120 rpm &. 1050 rpm %. 10$2 rpm (. 1025 rpm Problem 5$8:
A shut motor! motor! "hich has a field resistace of 220 ohms ad a armature resistace of 0.8 ohm ta3es 2 A from 20 , supply "he ruig at 500 rpm o full load. I order to cotrol the speed of the motor a 1.26ohm resistor is coected i series "ith the armature. %alculate the speed at "hich the motor "ill ru "he supplyig full load torue. A. $-8 rpm &. $$5 rpm %. $2$ rpm (. $2 rpm Problem 5$: he iput ad output po"ers of a 220 ,! shut motor are -0 - 0 ad 28 3+ respectively. respectively. he field ad armature circuit resistaces are $0 ohms ad 0.0125 ohm respectively. (etermie (etermie the efficiecy of the motor if the output po"er is reduced to 10 3+. A. 8-.5J &. 88.J %. 8$.-J (. 8.$85 Problem 550: A 220 , series motor ta3es 15 A ad rus at 00 rpm. he armature resistace icludig the resistace of the series "idig is 0.8 ohm. At "hat speed "ill it ru if a 26ohm resistace is coected i series "ith supply voltage# Assume the motor is ta3ig the same curret. c urret. A. 5 rpm &. 01 rpm %. 52 rpm (. 58- rpm Problem 551: he euivalet armature resistace of a series motor is 0.1 ohm. +he coected across a 1106 , mais! the armature ta3es 20 A ad its speed is 1000 rpm. (etermie its speed "he the armature ta3es 50 A from the same mais! "ith the field icreased by 10J. A. 80 rpm &. 5$ rpm %. 85 rpm (. 88$ rpm Problem 552: A $00 , series motor motor has a field resistace of 0.2 ohm ad a armature resistace of 0.1 ohm. he motor ta3es -0 A of curret at 1000 rpm "hile developig full load torue. +hat is the motor speed "he this motor develops 0J of full load torue# A. 1-02.$ rpm &. 125.2 rpm %. 12. rpm (. 11-5.5 rpm Problem 55-: A 106 hp! 2-06 ,! 1200 rpm series motor havig rated load efficiecy of 85.5J. he armature resistace icludig brushes is 0.- ohm. he field resistace is 0.25 oh m. Assumig Assumig the flux varies directly as the armature curret! "hat value of resistace should be placed i series "ith this motor "he startig! i order that the startig curret maybe limited to the value that "ill exert a startig torue eual to150J of its rated torue# A. $. ohms &. $.$ ohms %. 5.1 ohms (. -.8 ohms Problem 55$: he field ad armature resistace of a 220 2 20 , series motor are 0.2 ad 0.1 ! respectively. he motor ta3es -0 A of curret "hile ruig at 00 rpm. If the total iro ad frictio losses are -50 +! determie the motor efficiecy. A. 0.J &. 1.5J %. 8.$J (. 2.2J Problem 555: A 1006 , series series motor is used to drive a load through a pulley. his machie has a armature resistace of 0.2 ohm ad a series field resistace of 0.25 ohm. +he a torue of 25 6m is applied to the pulley! the speed is 00 rpm. If stray po"er losses at this load load is -00 +! +! calculate the armature curret. A. 20.2 A &. 21.8 A %. 22.2 A (. 2-.$1 A
Problem 55: A $00 , series motor! havig a armature euivalet resistace of 0.5 ohm! o hm! ta3es $$ A of curret "hile ruig at 50 rpm. +hat is the motor speed for a lie curret of - A# A. 80- rpm &. 822 rpm %. 812 rpm (. 80 rpm Problem 55: he resistace of each of the t"o coils of a series motor is 0.0$ ohm! armature resistace! 0.0$ ohm. he motor ta3es 50 A at 100 , "hile ruig at 800 rpm ad the coils are i series. +hat "ill its speed if the coils are re6coected i parallel "hile the load torue is doubled# A. 800 rpm &. $00 rpm %. 200 rpm (. 50 rpm Problem 558: full load! a 500 , series motor ta3es 100 A ad rus at 820 rpm. he armature ad series field resistaces are 0.1 ad 0.0$ ohm! o hm! respectively. +hat "ill be its speed "he developig half6 h alf6 full load torue ad "ith a 0.086ohm diverter coected across the series field "idig. Assume flux is proportioal to the field curret. A. 15- @PC &. 1-$ rpm %. 1-5 rpm (. 1$2 rpm Problem 5: A $00 , series motor "or3ig "ith usaturated field is ta3ig 0 A ad ruig at 8$0 rpm. he total resistace of the motor is 0.1 ohm. At "hat speed "ill the motor ru "he developig half6full load torue. A. 11- rpm &. 1202 rpm %. 11 rpm (. 1-52 rpm Problem 50: A log shut compoud motor ta3es a curret of $2 A from from 2-0 , source. he geerator parameters are: @a < 0.1 ! @se < 0.2 ad rsh < 50 . If the frictio ad "idage losses amout to $00 +! determie the overall efficiecy e fficiecy of the machie. A. 82.2$J &. 80.5J %. 81.22J (. .5-J Problem 51: A 2-0 ,! ,! log log shut machie has the follo"ig parameters: @a < 2.0 ! @sh < $0 ad @se < 0.25 . +he the machie is ru at o6load at its ormal speed ad rated voltage! the armature dra"s 0. A. (etermie the armature curret dra" if the machie delivers a output of 5 bhp. A. 2$.-5 A &. 21.22 A %. 20.- A (. 22.8- A Problem 52: A 25 hp! 250 , log shut compoud motor ta3es 5 A "he ruig light ad rus at 1150 rpm. Armature resistace! 0.15 ! Dhut field resistace! 200 a d series field resistace! 0.05 . At rated load the motor ta3es 8.5 A ad rus at 20 rpm. (etermie the ratio of torue developed from o6load to full load. A. 1:2 &. 1:-$ %. 1:22 (. 1:-8 Problem 5-: A 200 volt shut motor has a armature ad shut field resistaces of 0.15 ad 125 ! respectively. respectively. +he ruig light! it ta3es A ad rus at 1200 rpm. A series "idig of 0.05 ohm is added to ma3e it log shut cumulatively compouded. his "idig icreases the flux per pole by 25J "he the motor is ta3ig its full load curret of 100 A. eglectig armature reactio! solve for the operatig speed as a compoud motor. A. 88 rpm &. 80 rpm %. 88 rpm (. 85 rpm
Problem 5$: A 220 , (% motor has a armature resistace of 0.$ ohm! a shut field resistace of 1 5 ohms ad a series field resistace of $ ohms. his machie is coected as a short shut compoud motor to 220 22 0 , mais. %alculate the po"er developed by the armature if the armature curret is -0 A. eglect the brush drop. A. 225$. + &. 252.8 + %. 252. + (. 2150.5 + Problem 55: he iput curret to a 220 ,! shut compoud motor at o load is A. he shut field circuit resistace is 220 ohmsT the armature resistace is 0.10 ohm a d the series field resistace is 0.08 ohm. +hat is the stray po"er loss# A. 115-.-1 + &. 10.22 + %. 12-2.5$ + (. 10-.25 + Problem 5: he poy bra3e test of a elevator door drive shut motor! the ammeter ad voltmeter measurig the iput read -$ A ad 220 ,. ,. he he speed of the motor is foud to be 10 rpm ad the balace o a 2 ft bra3e arm read 2.2 pouds. he tare "eight of the arm is foud to be positive 2.- pouds. (etermie the efficiecy of the motor of this load. A. 8.0-J &. 8.05J %. 8$.$5J (. 88.-2J Problem 5: I a bra3e test of a elevator door motor! the ammeter ad voltmeter measurig the iput read -$ A at 220 ,. ,. he he speed of the motor is foud fou d to be 10 rpm ad the balaced o a 0.1 m bra3e arm reads 11. 3g. he dead "eight of the arm is foud to be 1.0 3g. +hat is the output hp of the door motor# A. .$0 hp &. 10.-8 hp %. 8.2 hp (. .58 hp Problem 58: A shut motor "ith a armature ad field resistace of 0.055 ad -2 ohms! respectively! is to be tested for its mechaical efficiecy by meas of a rope bra3e. +he the motor is ruig at 1$00 rpm! the logitudial pull o the 6ich diameter pulley is 5 pouds. he readigs of the lie ammeter ad voltmeter are -5 ad a d 105! respectively. %alculate the efficiecy. A. .10J &. 5.-2J %. 8.28J (. .12J Problem 5: A shut motor "as tested by meas of a poy bra3e havig a legth arm of -.5 -. 5 feet ad tare "eight of 5. lbs. he curret dra" by the machie from a 2$0 , lie "as 50. A "he the scale readig "as 2$ lbs ad the speed of the motor "as 1215 rpm. %alculate the rotatioal losses of the motor. he armature ad shut field resistaces of the machie are 0.25 ad 120 ! respectively. A. $ + &. 2 + %. 20 + (. 05 + Problem 50: %alculate the force that "ill be exerted o the scale i a poy bra3e test "he a 206hp! 1!$00 rpm motor is operatig at full load. he legth of the bra3e arm is - ft. ad the tare "eight of the bra3e is -.5 - .5 lb. A. -0.$5 lbs &. 28. lbs %. 21.5$ lbs (. -.-- lbs
TEST 1' – *LTE0N*T0S
Problem 51: +hat is the speed of a 100 3+! 2-06 2-06 volt! three6phase! four 'pole! 0 /B alterator# A. $50 rpm &. 00 rpm %. 1200 rpm (. 1800 rpm Problem 52: A six6 pole! -6 phase A% geerator has 2 slots! the coil spa is 12. +hat is the pitch factor# A. 1.000 &. 0.- %. 0.85 (. 0. Problem 5-: A three6 phase alterator has slots per pole per phase. (etermie the distributio factor. A. 0. &. 0.5 %. 0.(. 0.$8 Problem 5$: A -0 C,A! 15 3, three6 phase alterator "ill have a per phase omial impedace of XXXXXX A. .5 ohms &. ohms %. 15 ohms (. oe of these Problem 55: A t"o6 pole three phase phas e 50 /B L6 coected A% geerator has slots per pole ad coductors per slo t. +hat is the flux per pole if the voltage o ope circuit is 1.1 3,. Assume a coil spa of uity. A. 0.15 +b &. 0.1$2 +b %. 0.150 +b (. 0.128 +b Problem 5: A 6 pole! -6 phase! 0 cycle alterator has 12 slots per pole ad $ coductors per slot. he "idig is 5 pitch. here are 2!500!000 2!500!000 max"ells >0.025 "eber? "eber? eterig the armature from each orth orth pole! ad this flux flux is siusoidally distributed distributed alog the air gap. he armature coils are all coected i series. he "idig is "ye6 "ye6 coected. (etermie the ope circuit emf of the alterator. alterator. A. 5-2.1 , &. 50$.2 , %. 512.$ , (. 52.$ , Problem 5: A four6 pole! three6 phase! 50 /B! star coected A% geerator has 2$ stator slots. here are coductors per slot ad a siusoidally siusoidally distributed flux per pole of - m+b. m+b. Eid the termial voltage o ope ope circuit! if the coil spa factor is uity. A. 5$.05 , &. 5.$$ , %. 58.$8 , (. 558.2 , Problem 58: A three6 phase! 6 pole! 2 slot armature of a sychroous geerator is "oud usig a t"o6 layer lap coil havig 20 coductors per coil "ith a pitch of 8-.--J. he flux per pole is $!800!000 max"ells. If the rotor of the geerator is drive at a speed of 1200 rpm! calculate the iduced emf per phase. A. 580 , &. 5-0 , %. 55$ , (. 585$ , Problem 5: A 1 C,A! 11 3,! three6 phase "ye6 coected sychroous geerator has a sychroous reactace of 5 ohms ad a egligible resistace per phase. At a certai field curret the geerator delivers rated load at 0. laggig po"er factor at 11 3,. 3,. Eor the the same excitatio! "hat is trhe termial voltage at 0. 0. leadig po"er factor full full load# A. 11. 3, &. 11.$ 3, %. 11.- 3, (. 11.5 3, Problem 580: A three6 phase star coected A% geerator is rated at 2.5 C,A! 11 3,! 0 /B. he geerator has a egligible resistace ad a sychroous reactace 20 ohms per phase. o "hat value "ill the termial voltage rise "he full load at 80J pf laggig is s"itch6off# A. 1$.2 3, &. 1-.5 3, %. 15.- 3, (. 12. 3, Problem 581.
A 1200 3,A! 006volt! - phase L coected alterator has a effective resistace of 0.$0 ohm ad a reactace of ohms per phase. It delivers full load curret at 0. 80 laggig pf at rated voltage. +hat "ill be the termial voltage for the same excitatio ad load curret! if the po"er factor is 0.80 leadig# A. $50 , &. 88 , %. 88, (. $250 , Problem 582 A 2500 3,A! 00 , sychroous turbo alterator is operatig at full load ad 0.8 pf laggig. his machie has a sychroous reactace per phase is 10.$ ohms ad a egligible resistace. %alculate the percetage voltage regulatio. A. $8.5J &. $2.-5J %. $5.8$J (. $-.J Problem 58A 50 3,A! 5506volt sigle phase alterator dra"s a field curret 10 A at rated load. +ith the same field curret! the ope circuit emf ad short6circuit curret are -00 , ad 150 A. he ohmic resistace of the armature bet"ee termials is 0.18 ohm. he ratio of of effective to ohmic resistace resistace maybe ta3e as 1.5. (etermie (etermie the regulatio at 0.8 pf laggig. A. 2.8J &. 2.$J %. 25.5J (. 2$.J Problem 58$ A geerator is rated 100 C+! 1-.8 3,! ad 0J pf. he effective resistace is 1.5 times the ohmic resistace. he ohmic resistace is obtaied by coectig t"o termials to (% source. he curret ad voltage are 8. A ad , respectively. +hat is the effective resistace per phase# A. 0.051- &. 0. 0.051- %. 0.051- (. 0.051- Problem 585 o get the armature resistace of a 100 C+! 1-.8 3, ad 0J po"er factor geerator! t"o termials are coected to a (% source. he measured curret ad voltage are 8. amperes ad volts respectively. respectively. +hat is the (% resistace per phase# A. 0.022- ohm &. 0.0-$2 ohm %. 0.085 ohm (. 0.01 ohm Problem 58: A 2 C,A! 2.-6 3, three6 phase L6 coected alterator operates at rated 3,A at a po"er factor of 80J. he dc armature "idig resistace bet"ee termials is 0.08 . he field ta3es 0 A at 125 , from a exciter euipmet. Erictio ad "idage loss is 20 3+! iro losses - 3+ ad stray load losses are 2.0 3+. %alculate the efficiecy of the alterator. Assume Assume the effective armature6 "idig resistace is 120J of the (% resistace. A. $.0J &. 2.1J %. -.2J (. 8.5J Problem 58: (etermie the efficiecy of a 1500 3,A! 2-00 ,! -6 phase! L6 coected alterator! "hich operates at rated output "ith a po"er factor of 80J. he (% armature resistace at 0 o % bet"ee termials is 0.08 0. 08 ohm. he field ta3es 0 A at 120 , from the exciter euipmet. Erictio ad "idage losses are 15 3+! iro loss is -5 3+ ad stray load losses is 1.5 3+. Assume the effective armature "idig resistace is 1.5 times the (% value. A. $.5J &. 0.-1J %. -.-5J (. 2.2J Problem 588: A 2500 3,A 3,A! three6 phase! 0 /B! . 3, "ye6coected alterator has a field resistace of 0.$5 ad a armature resistace of 0.05 per phase. he field curret at full load 0.85 pf! is 200 A. he stray po"er losses amout to 82 3+. %alculate %alculate the efficiecy of the alterator at full load! 0.85 pf laggig. A. -.J &. $.8J %. 5.2J (. .-J Problem 58 A . 3,! L6coected! -6phase alterator has a sychroous reactace of per phase ad a egligible resistace. At At a certai field curret the armature is 3o" to iduce 5.8 3, per phase. %alculate the maximum po"er that ca be developed developed by the alterator alterator at this excitatio.
A.
12 C+
&.
11 C+
%.
.8 C+
(.
10 C+
Problem 50 A 11!000 volts three6phase "ye6coected "ye6coected turbo alterator has a sychroous reactace of ohms ad a egligible resistace per phase. +he the field curret is 8 A! the ope circuit voltage is 12!000 volts. (etermie the armature curret "he alterator developed maximum po"er. A. 1$5 A &. 112 A %. 1$- A (. 15 A Problem 51 A three6phase! 11 3, "ye coected sychroous alterator has a sychroous reactace of 8 ohms per phase but egligible egligible resistace. If the excitatio excitatio is such that the the ope circuit voltage voltage is 1$ 3,! 3,! determie determie the po"er factor at the maximum output. A. 0.8 &. 0.2 %. 0.(. 0.08 Problem 52 A -6phase -6phase A% geerator is supplyig supplyig po"er to a load of -200 3+ at 2-00 volts ad a pf 0f 0J. Assume Assume that the loss of the lie! the geerator armature ad the load is eual to 10J of the load! "hat "ould be the savigs i "atts if the pf "ere raised to 80J# A. 100!000 &. 1$0!000 %. 80!000 (. 2-0!000 Problem 5A -6phase 50 C,A! 1-.8 3,! -00 rpm! 0 /B grid coected geerator "ith a sychroous reactace of -.8 ohms per phase operatig "ith a laggig po"er factor of 0.88 at rated voltage ad curret. (etermie e" po"er factor if the motor motor curret is decreased by 5J. A. 0.20 &. 0.-5 %. 0.0 (. 0. Problem 5$ A -6phase 50 C,A! 1-.8 3,! -00 rpm! 0 /B grid coected geerator "ith a sychroous reactace of -.8 ohms per phase operatig "ith a laggig po"er factor of 0.88 at rated voltage ad curret. If the load decreases such that its prime mover po"er is decreased by 25J ad the rotor curret decreases b y the same percetage! "hat "ill be the e" pf# A. 0.28 &. 0.8 %. 0.8 (. 0.0 Problem 55 A -6phase 50 C,A! C,A! 1-.8 3,! -00 rpm! 0 /B grid coected coecte d geerator "ith a sychroous sychroou s reactace reacta ce of -.8 ohms per phase operatig "ith a laggig po"er factor of 0.88 at rated voltage ad curret. If the machie is to provide a laggig reactive reactive po"er of $0 C,A C,A@ ad still operatig at at its rated curret! "hat percet percet chage i the rotor curret is reuired# A. 10.$8J &. 10.2$J %. 11.-0J (. 12.28J Problem 5 A three6phase three6phase turbo alterator has a reactace of 15 ohms ad a egligible resistace! the machie dra"s a armature curret of 250 A at 0.8 pf laggig "he ruig o 12!000 volts ifiite busbars. If the steam admissio is costat but the emf is raised by 20J! calculate the e" operatig pf. A. 0.5$ &. 0.58 %. 0.50 (. 0.55 Problem 5 A three6phase! 20 3,! 3,! sychroous sychroous alterator has a reactace of 10 ohms ad a egligible resistace. he machie dra"s a armature curret of 150 A! 0.80 pf laggig. If the steam admissio is costat ad field curret is ad*usted raisig the iduced emf by 25J! determie the value of the e" armature curret. A. $$2 A &. $52 A %. $21 A (. $-- A Problem 58 A stadby (iesel geerator set "ill have the follo"ig loads: iductive load dra"ig 50 3,A at 0.8 pf T lightig load dra"ig 20 3,A at 1.0 pf. At "hat pf "ill the geerator operate#
A.
0.855 laggig
&.
0.82 laggig
%.
0.821 laggig
(.
0.8$ laggig
Problem 5 A 250 ,! -0 /B geerator supplies po"er to a parallel circuit cosistig of a 20 hp motor "hose efficiecy is 0J at 0.80 pf laggig ad a secod load that dra"s a apparet po"er of 3,A at uity pf. (etermie the system reactive po"er. A. 2-.582 3,A@ &. 12.$-5 3,A@ %. 10.-$1 3,A@ (. 20.-8$ 3,A@ Problem 00 "o -6phase! $10 ,! 0 /B alterators are operated i parallel. he total load of the system is 1050 3+ at 5J laggig pf. If the alterator A is carryig 00 3+ at 80J pf laggig! determie 3,A@ 3,A@ of alterator &. A. $01 3,A@ &. $05 3,A@ %. $11 3,A@ (. $08 3,A@ Problem 01 "o alterators A ad & are operatig i parallel supplyig a load dra"ig 1000 3,A at 0.80 po"er factor laggig. If alterator A cotributes cotributes 500 3,A at 0.0 po"er factor laggig! determie the po"er factor of alterator &. A. 0.28 laggig &. 0.852 laggig %. 0.01 laggig (. 0. laggig Problem 02 "o idetical three6phase L6coected alterators A ad & share eually a load of 10 C+ at -- 3, ad 80J laggig pf. he sychroous reactace of each machie is $ ohms per phase ad the armature r esistace is egligible. Alterator Alterator A has its field excitatio ad*usted to carry 125 A laggig curret! "hat is the curret supplied by alterator A. A &. A %. 8 A (. 5 A Problem 0Alterator A > 100 3,A! -6Y! 2$0 ,! 0 /B! 1800 rpm? is operatig i parallel "ith alterator & > 125 3,A! -6Y! 2$0 ,! ,! 0 /B! 1800 rpm?. he load of alterator A is 0 3+ at 0J pf laggig ad the load of alterator & is 80 3+ at 0J pf laggig. (etermie pf of load. A. 0.5 laggig &. 0.8$ laggig %. 0.8- laggig (. 0.8 laggig Problem 0$ "o -6phase! L6coected turbo alterators supply a load of -000 3+ at . 3, ad at 0.8 pf laggig. he excitatio of machie A is ad*usted so that it delivers 150 A at a laggig po"er factor! ad the goverors are so set that the load is shared eually bet"ee the machies. (etermie the operatig po"er factor of machie & A. 0.2 &. 0.2 %. 0.0$ (. 0.8 Problem 05 "o "o alterators are operatig i parallel supplyig a commo load of $250 3+ at 0.85 po"er factor laggig. Alterator A cotributes 00 3,A@ at 0.2 po"er factor laggig. Dolve for the po"er factor of alterator &. A. 0.81- laggig &. 0.8-$ laggig %. 0.80$ laggig (. 0.820 laggig Problem 0 "o L6coected alterators A ad & ruig i parallel supply the follo"ig loads at -.- 3,: ;oad 1: 800 3+ at uity pf ;oad 2: 00 3+ at 0.8 pf laggig ;oad -: $00 3+ at 0.0 pf laggig If alterator A is ad*usted to carry a armature curret of 150 A at 0.85 pf laggig "hat is the armature curret of alterator A. 208 A &. 180 A %. 200 A (. 10 A Problem 0
"o A% geerators ruig i parallel supply the follo"ig loads: $00 3+ at uity pfT 500 3+ at 0. pf laggigT 00 3+ at 0.8 pf laggig. e machie is loaded to 1000 3+ at a pf of 0.2 laggig! "hat is the operatig po"er factor of the secod machie. A. 0.$ laggig &. 0.21 laggig %. 0.-2 laggig (. 0.51 laggig Problem 08 "o alterators are coected i parallel. he total load is $250 3+ at 0.85 pf laggig. Alterator A operates "ith a load of 2125 3+ at 0.0 pf laggig. (etermie the 3,A load of alterator &. A. 22$5 &. 208 %. 2185 (. 2$10 Problem 0 Dipalay Cies! has t"o -6phase! 0 /B A% geerators operatig i parallel. he first uit has a capacity of 1000 3,A ad the secod uit has a capacity of 1500 3,A. he first is drive by a prime mover so ad*usted that the freuecy fall from 1 /B at o6load to 5. /B at full load. he secod has a differet speed6load characteristics! the freuecy fall from 1.$ /B at full load. +he these alterators are *oitly deliverig 2000 3+! "hat "hat is the load of each geerator# A. 88$ 3+! 111 3+ &. 8 3+! 11-- 3+ %. 15 3+! 1085 3+ (. 80$ 3+! 11 3+ Problem 10 "o "o alterators are drive by shut motors. he shut motors have speed6load droop characteristics of -J ad $J respectively. he alterators are i parallel ad each carryig 50 3+. here is o automatic speed6load cotrol. A additioal 50 3+ is s"itched o. +hat ar e the resultig loads of the alterators assumig that the speed6load cotrol of each ad*usted# A. 8.5 3+ 1.$- 3+ &. 82.51 3+ .$ 3+ %. 5 3+ 5 3+ (. 80.-1 3+ . 3+ Problem 11 here are t"o alterators! 100 3+! -6phase -6phase i parallel are drive by shut motors "hose speed6load characteristics are as follo"s: Alterator Alterator o.1! o6load speed 00 rpm ad the full6load speed 5-0 rpm! "hile alterator o. 2! o6load speed 50 rpm ad full6load speed 550 rpm. Eor "hat load "ill the alterator divide the load eually# A. 2.$5 3+ &. 8.8 3+ %. .5$ 3+ (. $. 3+ Problem 12 here are t"o alterators! 100 3+! -6phase i parallel are drive by shut motor "hose speed are drive by shut motor "hose speed6load characteristics are as follo"s: Alterator Alterator o.1! o6load speed 00 rpm ad the full6 load speed 5-0 rpm! "hile alterator o.2! o6load speed 50 r pm ad full6load speed 550 rpm. +hat is the greatest load that ca be delivered "ithout overloadig either alterator# A. 11.$- 3+ &. 18.8 3+ %. 1.5$ 3+ (. 1$. W"
TEST 1) – T0*NS0%E0 '13 # ''. Problem 1he maximum flux desity i the core of a -0002$06,! -0002$06,! 50 /B sigle6phase distributio trasformer is 1.25 esla. esla. If the voltage iduced per tur is 8 volts! determie the cross sectioal of the core i cm 2. A. 22 &. -5 %. 288 (. -2 Problem 1$ he et cross sectio of a trasformer is 20 suare iches. he maximum flux desity is 11 3ilogausses. he freuecy is 0 /B. If there are 1!000 turs i the primary! primary! determie the primary iduced emf. A. -80 , &. -$5 , %. -50 , (. -850 ,
Problem 15 %alculate the total magetic flux i a 06cycle trasformer i "hich the iduced emf per tur of the "idig is eual to 2 ,. A. .50 m+b &. .02 m+b %. .50 m+b (. .$2 m+b Problem 1 he lo" side of a certai "eldig trasformer has 2 turs ad delivers -00 A. if the high voltage side has -0 turs! ho" much curret flo"s through it# A. 10 A &. 12 A %. 20 A (. 15 A Problem 1 A sigle6phase sigle6phase trasformer is rated $!10 , primary ad 250 , secodary. It has 1!500 turs i the primary ad a voltage regulatio of 8J. +hat should be the umber of turs i the secodary "idig# A. 88 turs &. 2 turs %. 0 turs (. 8 turs Problem 18 he curret desities i the primary ad secodary "idigs of a step do" trasformer are 1250 ad 1500 A per per suare ich! respectively. respectively. he ratio of trasformatio is 10:1 ad the mea legth per tur of the primary is 15J greater tha that of the secodary. secodary. If the primary "idig resistace is 20 ohms! calculate the resistace of the secodary "idigs. A. 0.202 ohm &. 0.21 ohm %. 0.20 ohm (. 0.220 ohm Problem 1 A certai trasformer trasformer has a ratio of 8 is to 1. he primary "idig resistace is 0.0028- ohm per tur ad has 1155 more turs tha the secodary "idig. If the copper losses i the primary is 20J less tha i the secodary! secodary! fid resistace of the secodary "idig. A. 0.0- ohm &. 0.00 ohm %. 0.08 ohm (. 0.08$ ohm Problem 20 A 10 3,A! 3,A! 2$002$06, sigle6phase trasformer has the follo"ig resistaces ad reactaces. Eid the primary voltage reuired reuired to produce 2$0 , at the secodary termials termials at full load! "he the the po"er factor is 0.8 laggig. @ 1 < - ! K1 < 15 @2 < 0.0 ! K2 < 0.150 A. 2$50 , &. 252 , %. 2$ , (. 2-2 , Problem 21 A 1063,A 1063,A! 2!000$00 , sigle6phase distributio trasformer trasformer has a primary ad ay secodary "idig impedace of 5.0 = * 10 ad 0.2 = * 0.$5 ohms! respectively. respectively. %alculate the voltage across the secodary termials at full load! 80J po"er factor laggig! "he the primary is supplied "ith 2!000 volts# A. $00 , &. -$ , %. -85 , (. - , Problem 22 A sigle6phase trasformer rated 5 3,A! 8000 volts primary 2$0 volts secodary! is give the short circuit test. +ith the secodary termials short6circuited! $$0 volts >0 /B? is impressed o the primary! primary! "hich the dra"s rated curret ad 1125 "atts. Dolve for the percetage impedace of the trasformer. A. 5.2J &. $.-J %. 5.50J (. 5.1-J Problem 2A short circuit test "as performed upo a 1063,A! 2-002-0 volt trasformer "ith the follo"ig results: 7D% < 1- voltsT P D% < 12 +T ID% < $.-$ A. %alculate i primary terms the reactace of the trasformer. A. -1.5 ohms &. 2.88 ohms %. 10.1 ohms (. 12.$5 ohms Problem 2$
A sigle6phase! 25 3,A! 3,A! $8002$0 volt trasformer "as give a short circuit tests: +ith the secodary termials short6circuited! short6circuited! -.5 volts "as applied o the primary so that the ammeter reads rated curret ad the "attmeter reads 12.$ "atts! all o the primary side. Dolve for the percetage resistace of the trasformer. A. 1.5J &. -.-J %. -.02J (. 2.2-J Problem 25 he follo"ig data "ere obtaied "he a short circuit test "as performed upo a 100 3,A 3,A! 2$002$0 volts distributio trasformer: 7 D% < 2 voltsT I D% < $1. AT P D% < 1!180 +. All istrumets are o the high side durig the short circuit test. %alculate the euivalet resistace ad reactace of the trasformer. A. 0.82 ! 1.5 &. 0.82 ! 1.- %. 0.52 ! 1.- (. 0. 0.52 ! 1.5 Problem 2 A 1-.8 3,$80 ,! 10 C,A three6phase trasformer has 5J impedace. +hat is the impedace i ohms referred to the primary# A. 0.52 ohm &. 0.0- ohm %. 5.125 ohms (. .01 ohms Problem 2 A short circuit test "as performed o a 20 3,A! 2000200 , sigle6phase trasformer. +ith the secodary "idig short6circuited! full load curret flo"s i the primary "idig "ith 100 , applied o it. he "attmeter coected i the primary read -00 +. (etermie the termial voltage o full load uity pf. A. 18. , &. 1-.$ , %. 1. , (. 15.2 , Problem 28 he follo"ig data "ere obtaied "he a short circuit test "as performed upo a 100 3,A 3,A! 2$002$0 volts distributio trasformer: 7 D% < 2 voltsT I D% < $1. AT P D% < 1!180 +. All istrumets are o the high side durig the short circuit test. %alculate the percet regulatio at a po"er factor of 0.5 laggig. A. 2.5$J &. 2.8J %. 2.2J (. 2.1J Problem 2 A 20063,A trasformer "ith impedace of 5J ad the po"er factor of the load is 85J. he primary voltage is !000 volts "hile the copper loss is 5 3+. Eid the percetage regulatio. A. 5.0-J &. 5.21J %. $.$-J (. $.0-J Problem -0 A 150 3,A! three6phase trasformer supplies 100 3,A at 50J laggig po"er factor. he trasformers "idig impedace is 2J resistace ad 5J reactace.! based o 150 3,A. 3,A. (etermie the voltage regulatio of the trasformer at this load. Assume 100J voltage. A. -.55J &. 5.--J %. $.2$J (. $.05J Problem -1 A short circuit test "as performed upo a 1063,A! 2-002-0 volt trasformer "ith the follo"ig results: 7D% < 1- voltsT P D% < 12 +T I D% < $.-$ A. %alculate the percet regulatio at a laggig po"er factor of 0.0. A. 5.28J &. 5.55J %. 5.-J (. 5.2J Problem -2 A 100 3,A! 0000 ,! 0 /B sigle6phase trasformer operatig at rated coditio has the follo"ig losses: hysteresis loss < 520 +T eddy curret loss < -0 + ad copper loss < 2000 +. if this trasformer is to be used o a 50 /B system! determie its e" 3,A ratig. Assume the same total losses ad maximum core flux. A. 8-.8 &. $.%. 8.$ (. 1.8 Problem -+he 120 ,! 0 /B is applied to the primary "idig of a trasformer! the core loss is 2$0 +. +he 50 ,! 25 /B is applied the core loss is 50 +. (etermie the core loss "he 2-0 ,! 50 /B is applied to the primary "idig.
A.
0-.5 +
&.
$2. +
%.
8-. +
(.
8$. +
Problem -$ he eddy curret ad hysteresis losses of a $!$006,! 06/B 06/B sigle6phase distributio trasformer are 280 ad 50 "atts! respectively. respectively. (etermie the core loss "he the trasformer is coected across a $!006volt! 506/B source. A. + &. 8- + %. $ + (. + Problem -5 I a $00 ,! 50 cs trasformer! the total iro loss is 2500 +. +he the supplied p.d. is 220 , at 25 cs! the correspodig loss is 850 +. %alculate the eddy curret loss at ormal freuecy ad p.d. A. 2-- + &. 215 + %. 2010 + (. 221 + Problem - +he a 220 ,! 0 /B is impressed o a certai trasformer at o load! the total core loss is 200 +. +he the freuecy of the impressed voltage is chaged to 25 /B ad the magitude of the voltage is made such as to maitai the same maximum flux desity as before! the core loss falls to 5 +. %alculate the hysteresis losses at 0 /B. A. 1- + &. 1 + %. 11 + (. 1 + Problem - A 10063,A! $102-0 ,! 0 /B sigle6phase trasformer has percetage impedace of 1.5 = * $.0. its efficiecy "he operatig at rated coditios at 5J pf laggig is J. (etermie the efficiecy! efficiecy! if the trasformer is loaded at rated load ad voltage but at 50 /B. Assume the ratio of eddy curret losses to hysteresis losses at 0 /B to be 2.5. A. .1-J &. .J %. .1J (. .$2J Problem -8 he full load copper loss of a 5 3,A sigle6phase trasformer is thrice the iro losses. At half load uity pf! the efficiecy is J. J. (etermie the full load efficiecy at 0.8 pf laggig. laggig. A. 5.J &. 8.$5J %. $.8J (. .8J Problem - A 50 3,A! 3,A! 2-002-0 volt! 06cycle trasformer is tested i the laboratory so that its characteristics maybe determied. he stadard test reuires a ope circuit test ad short circuit test. pe circuit test l < .5 A 7 < 2-0 , P < 18 + Dhort circuit test l < 21. A 7 < 115 , P < 50 + (etermie the efficiecy of the trasformer at half load! uity pf. A. .55J &. 8.0J %. 8.$5J (. .80J Problem $0 he iro loss of a 2563,A! 2563,A! 0 /B sigle6phase distributio trasformer is 1J of the rated output at uity po"er factor ad the full full load copper loss is -0 -0 +. +. (etermie (etermie the efficiecy "he operatig operatig oe half of the rated output at 0J po"er factor laggig. A. 5.--J &. .82J %. $.2$J (. .2J Problem $1 Oive that full load copper losses are exactly t"ice the iro losses i a 5063,A trasformer! ad that the uarter load efficiecy is .5J. %alculate the full load efficiecy at uity po"er factor. A. .$8J &. 8.12J %. .$J (. .25J Problem $2 A 15 3,A! 2-002-06volt trasformer is uder test. +ith the lo" side supplied "ith rated voltage ad the high side ope circuited! iput po"er through a "attmeter reads 2$5 +. +ith the high side supplied "ith 5 ,
"hile the side short circuited! iput po"er at rated curret reads -50 +. (etermie the maximum efficiecy that ca be expected from this trasformer at uity pf. A. .2J &. .25J %. .8-J (. 8.21J Problem $A 1063,A 1063,A! 2-002-0 trasformer has a euivalet resistace referred to the secodary "idig of 0.05 ohm. he core loss of this trasformer is 5 +. At "hat 3,A load "ill this trasformer operate at maximum efficiecy# A. 8.1 3,A &. .08 3,A %. .-2 3,A (. 8.0 3,A Problem $$ he core loss of a 5 3,A sigle6phase trasformer "ith ormal voltage applied to the primary is 5 "atts. he maximum efficiecy of the trasformer of 0.80 po"er factor# A. 5.1J &. -.-8J %. 8.52J (. 1.-J Problem $5 A 10063,A trasformer has $J efficiecy at full load ad 50J full load "ith uity pf i both cases. (etermie the maximum efficiecy of the trasformer at uity pf load. A. .2J &. 5.8J %. -.$$J (. $.-2J Problem $ A 10063,A 10063,A trasformer has a maximum efficiecy of 8J at 10J uderload ad at uity pf. 7valuate the efficiecy at uarter load! 0.80 pf laggig. A. .-J &. 5.-J %. $.J (. .J Problem $ A 1 C,A! 11 3,! 0 /B trasformer has a euivalet series impedace of 1.0 = * 5 ohms referred to the lo" voltage side ad a o6load loss of 5500 "atts at rated termial termial voltage. +hat is the maximum efficiecy at 0.8 pf laggig# A. 8.-$J &. .$2J %. 8.02J (. .-8J Problem $8 he all day efficiecy of a 10 3,A sigle6phase trasformer is $.J "he loaded as follo"s: full load uity pf for $ hrs ad a o load the rest of the day. If the full load copper loss at uity pf is $00 "atts! calculate the core loss. A. 5 3+ &. 0 3+ %. 2 3+ (. 8 3+ Problem $ A 25 3,A distributio trasformer trasformer operates at 20J overload! 0.- pf laggig for 1 hourT at full load! 0. laggig pf for - hours! 50J load at uity pf for 8 hoursT ad 10J load at 0.8 leadig pf for the rest of the day. If core loss is 150 "atts ad full load copper loss is 500 +! "hat is the all day efficiecy of the trasformer# A. $.2-J &. 2.8J %. .1$J (. .8J Problem 50 Eid the all6day efficiecy of a trasformer havig a maximum efficiecy of 8 percet at 15 3,A at uity pf ad loaded as follo"s: follo"s: 12 hours 66662 3+ at 0.5 pf laggigT hours hours 6666 12 3+ at 0.8 pf laggigT laggigT hours 6666 at o6load. A. 5.-J &. 1.J %. $.J (. -.-J Problem 51 A -0 3,A! 2$002$0 ,! 0 /B trasformer has a full load po"er of uity over the period of 2$ hours. he maximum efficiecy is 5J ad it occurs at f ull load. %alculate the all6day efficiecy if loaded as follo"s: hours at full load ad hours at uarter load. A. 1.5-J &. 2.$5J %. 0.-J (. -.8J
Problem 52 A 1000 3,A 3,A! 00$00 volts! 0 cycle sigle phase core type trasformer has the follo"ig average daily load: full load at 0.8 pf for 8 hrsT half load at 0.0 pf for 10 hrsT o6load for hrs. %alculate the ratio of full load copper loss to the iro loss for the trasformer to be most ecoomical for the above loadig. A. 2.05 &. -.0 %. 2.1 (. 2.28 Problem 5he full load copper loss ad iro loss of a 5 3,A trasformer are eual to 1 3+. (urig a give day! the trasformer is loaded as follo"s: full load at uity pf for 8 hours! oe6half load at uity for 8 hours ad o6load the rest of the day. %alculate the all day efficiecy. A. .-J &. .2-J %. .$J (. 8.-2J Problem 5$ A . 3,00 ,! ,! multi6tap! sigle6phase distributio distributio trasformer is coected to the far ed of a distributio lie for "hich the rear ed voltage is maitaied at . 3,. he euivalet impedace of the trasformer referred to lo" voltage side is 0.05 = *0.25 per phase. he impedace of each lie is 1 = *2 . It is reuired to maitai a termial voltage of 00 , "he the lie curret of -00 A at 80J pf laggig is delivered to the load. +hat approximate percetage tappig is reuired i the primary side# eglect chages i impedace due to chages i turs ratio. A. $J &. 2J %. 0J (. 88J Problem 55 A 0 /B alterator geerates a sigle6phase voltage of 120 , ad has a reactace of 0.25 ohm. he alterator feeds a lie! "hich is essetially resistive "ith a impedace of 0.1 ohm. he lie is termiated "ith a 2:1 step up trasformer. +hat should should be the load impedace to be coected to the secodary side to have maximum po"er factor trasfer to it# it# A. 0.5 = * 1.2 &. 0.$ ' * 1.0 %. 0.5 ' * 1.2 (. 0.$ = * 1.0 Problem 5 A trasformer trasformer cosist of a primary "idig "ith 500 turs ad t"o secodary "idigs of 125 turs ad - turs. he 1256tur secodary "idig has 0 ohms coected to its termials ad the -6tur secodary "idig has - ohms coected to its termials. If the primary is coected to a 1206,! 1206,! 0 /B source! determie the curret i the primary "idigs. A. 0.--2 A &. 0.$12 A %. 0.2-5 A (. 0.25 A Problem 5 A -6phase! 0 /B trasformer has primary! primary! secodary ad tertiary "idigs. he primary "idig is delta coected ad rated !00 ,. he secodary "idig is delta coected ad rated 1000 ,. he tertiary "idig is "ye coected ad rated $$0 ,. If the secodary "idig has a -6phase balaced load of 100 3,A at 80J pf laggig ad the tertiary "idig has a balaced -6phase load of 50 3+ at uity pf! "hat is the curret i the primary "idig ad its operatig pf# A. 12.52 A! 0.08 &. .2- A! 0.02 %. 12.52 A! 0.02 (. .2- A! 0.08 Problem 58 A 2063,A 2063,A! 5006, load is to be supplied by a ideal step6up autotrasformer from a $006, source. Eid the curret i the commo "idig. A. -0 A &. $0 A %. 50 A (. oe of these Problem 5: he t"o "idigs of a 1063,A! 1063,A! 2-002-0 volt! distributio trasformer is coected i series to form a autotrasformer givig a small reductio to potetial differece from a 2-006volt lie. (etermie its 3,A ratig as a ideal autotrasformer! operatig i the above coditios. A. 10 3,A &. 100 3,A %. 110 3,A (. oe of these
Problem 0: A 10 3,A! $$0110 volt! sigle6phase trasformer has a efficiecy of J at a rated load of uity po"er factor. he he full load copper loss is 250 "atts. If this trasformer is to be coverted as a 550$$06volt autotrasformer! autotrasformer! determie its efficiecy "he supplyig full load at 85 percet po"er factor. A. .25J &. .0-J %. .$5J (. 8.1J Problem 1: +hat should be the 3,A 3,A ratig of each t"o trasformers i a ope6 delta ba3 "he the three6 phase balaced load is 20.$ 20.$ 3,A 3,A# A. 155.0 3,A &. 1-.$0 3,A %. 150.25 3,A (. 1. 3,A Problem 2: A , or ope6 delta coected trasformer ba3! composed of t"o idetical uits serves a balaced three6 phase load of 1 3,A 3,A at 2-0 volts. Dolve for for the miimum siBe i 3,A 3,A of the trasformers eeded. eeded. A. 8 3,A &. .2$ 3,A %. 1 3,A (. 8.25 3,A Problem -: A , >ope6 delta? coected trasformer ba3 serves a balaced -6 phase load of $0 3,A at 2-0 , ad 0.8 pf laggig. Dolve for the miimum 3,A of each trasformer eeded to accommodate the load "ithout overloadig. A. 25 &. 2$ %. 2(. 20 Problem $: "o "o sigle6 phase distributio trasformers are ba3 i , >ope delta?. If each trasformer is rated -.5 3,A 3,A! solve for the maximum three6 phase load that the ba3 ca carry "ithout overloadig! cosiderig that the load has a po"er factor of 0.85 laggig. A. 52.5 3+ &. $.5 3+ %. 5-. 3+ (. 55.2 3+ Problem 5: A ope6 delta ba3! cosistig of t"o sigle6 phase trasformers is operatig "ith a balaced three6 phase load of 50 3,A! 3,A! $$0 , at 0.8 pf laggig ad a sigle6 phase load of 10 3+ resistive coected across c6a leg. (etermie the miimum ratigs of the t"o trasformers. Assume a phase seuece of a6b6c. A. -8.80 3,A! -$.0 3,A &. -$.-2 3,A! --.$0 3,A %. -5.$8 3,A! -.-$ 3,A (. -0.8- 3,A! -.52 3,A Problem : "o "o >2? sigle6 phase distributio trasformers! coected i ope6 delta "ill supply po"er to a 200 hp! -6 phase iductio motor! operatig operatig at 0.0 po"er factor ad 0.0 0.0 efficiecy. efficiecy. Dolve for the miimum siBe i 3,A 3,A of each trasformer eeded to supply the po"er "ithout beig overloaded. A. 1-.- 3,A &. 12$.$5 3,A %. 1-0.-8 3,A (. 12.$8 3,A Problem : he 9tility %ompay supplies t"o sigle6 phase trasformers ba3ed i ope delta. If each trasformer is rated 563,A capacity! "hat is the maximum -6 phase load i 3ilo"atts that the ba3 ca carry "ithout sufferig overload cosiderig that the load has a laggig po"er factor of 0.80. A. 10$ 3+ &. 112 3+ %. 1-0 3+ (. 11$ 3+ Problem 8: "o "o idetical 16 phase trasformers coected i ope delta "ill serve a three6 phase motor load of 250 hp! 0.0 pf laggig! 0.0 efficiecy. efficiecy. Dolve for the miimum siBe i 3,A 3,A of each trasformer reuired to serve the load "ithout overloadig.
A.
150.--
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10.1
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10.$-
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185.1-
Problem : A ope6 delta coected trasformer ba3 serves a balaced -6 phase load of $0 3,A at 2-0 , ad 0.8 pf laggig. Dolve for the real po"er ad pf at "hich each trasformer trasformer is operatig. operatig. A. 11.5$ .5$ 3+ 3+ aatt 0. 0.5 pf pf! 22-.0 3+ 3+ aatt u uity pf &. 12.22 .22 3+ 3+ at at 0. 0.5 pf pf! 22 22.$2 3+ 3+ at at u uity pf %. 11.5$ .5$ 3+ at 0.8 0.8 pf! pf! 2-.0 -.0 3+ at 0.0 .0 pf (. 12.2 12.22 2 3+ 3+ at 0.8 0.8 pf! pf! 22.$2 2.$2 3+ at 0. 0.0 0 pf Problem 0: A ope6 delta! three6 phase trasformer cosistig of t"o sigle6 phase trasformers is operatig "ith a balaced three6 phase load load of 50 3,A 3,A! $$06, at a laggig pf of of 0.8. (etermie the operatig pf pf of each trasformer. trasformer. A. 0.-- laggig! 0.- laggig &. 0.-8- laggig! 0.88 laggig %. 0.-8- laggig! 0.- laggig (. 0.-- laggig! 0.88 laggig Problem 1: "o "o sigle6 phase trasformers are coected i , >ope delta? ad servig a delta coected impedace load! each impedace is eual to 1Z-.8 0 ohms. If the trasformer voltages impressed o the impedaces are: ,ab < 2$0Z00! ,ab < 2$0Z2$00! ,ab < 2$0Z1200 volts Dolve for the 3,A delivered by each trasformer. A. .28! 5.20 &. 5.8! .1 %. .8$! 5.$ (. .2$! .2$ Problem 2: "o "o sigle6 phase trasformers i a ope delta ba3 served a three6 phase balaced load of 20.$ 3,A. 3,A. If a third trasformer is added for delta operatio! "hat percet icrease i load does this represet# A. -.2J &. 8$.J %. 80.5J (. .$J Problem -: hree sigle6 phase trasformers each rated 5 3,A are ba3ed i delta ad supplyig a three6 phase load dra"ig 10 3,A at 0.8 laggig po"er factor. If oe trasformer is removed for repairs! solve for the amout of overloadig of the remaiig uits. A. -0 3,A &. 10 3,A %. 20 3,A (. 25 3,A Problem $: A 006 volt! 06 /B! 26 phase et"or3 is coected to a three6 phase! $6 "ire system by a Dcott6 coected trasformer combiatio. If there are 1500 turs o the t"o6 phase side! calculate the umber of turs o the three6 phase side reuired for for the mai ad teaser trasformers. trasformers. ,o ,oltage per phase o the -6phase -6phase side is 2$0 ,. ,. A. $ turs! 8- turs &. - turs! 8$ turs %. 5 turs! 82 turs (. 2 turs! 85 turs Problem 5: A balaced three6 phase trasformer ba3 has delta6 coected primary ad "ye6 coected secodary "idigs. he primary to secodary "idig voltage ratio is 2$002. Dolve for the primary lie curret if the lo"6side >secodary? load dra"s a lie curret of 1000 A. A. 200 A &. 115 A %. 150 A (. 15 A Problem : A three6 phase 150 3,A! $10 ,! 0.8 laggig pf load is to be supplied by three sigle6 phase trasformers havig a turs ratio of 2. %alculate the curret that flo"s i the primary "idigs if the trasformers are coected delta6delta. A. 10.$1 A &. .01 A %. 20.82 A (. 12.02 A Problem :
+hat should be the turs ratio of a three phase trasformer to trasform 10!000 3,A from 2-0 3, to $10 , if the trasformer is to be coected [ 6 L # A. $ &. 8 %. (. Problem 8: A ba3 of three 50:1 sigle6 phase trasformers coected L6[ L6[ is used to step do" the /, trasmissio lie rated 1-8 3,. (etermie the magitude of the step do" voltage. A. 12 3, &. .0 3, %. 1-8.55 3, (. 15.-5 3, Problem : he potetial trasformer of a lie has a ratio 1-2!000. hese are coected "ye6 delta. he voltmeter reads $ volts. +hat is the voltage of the lie# A. 221. 3, &. 112.5 3, %. 1-5.2 3, (. 1-2 3, Problem 80: A po"er trasformer rated 50!000 3,A! 3,A! -$.5 3,1-.8 3, is coected "ye6 grouded primary ad delta o the secodary. (etermie (etermie the full load phase curret o the secodary side. A. 202 A &. 125 A %. 1$$ A (. 1208 A Problem 81: A 1-.8 3,! 10 C,A three6 phase trasformer is coected "ye6 grouded delta. +hat is the 3, ratig of the secodary "idig# A. . &. 15 %. 2-. (. 1-.8 Problem 82: he Ps of a 220 3, trasmissio lie have ratio of 1-2. 3,.-5 3, ad are coected "ye6"ye. A voltmeter coected lie to groud reads volts. +hat is the trasmissio lie voltage# A. 228.- 3, &. 220.10 3, %. 22-.15 3, (. 225.25 3, Problem 8-: A po"er trasformer rated 50!000 3,A! 3,A! -$.5 3,1-.8 3, is coected "ye6"ye. +hat are the lie currets at full load# A. 525.2 A! 125.$ A &. 8-. A! 202 A %. $8-.1 A! 120. A (. 1$$.- A! -2-.2 A Problem 8$: "o trasformers are coected i parallel to supply a commo load of 15 3,A. rasformer A is rated 100 3,A "ith euivalet impedace of . ohms "hile trasformer & is rated 5 3,A "ith euivalet impedace of 12.5 ohms. Eid the 3,A load of each trasformer. A. 8! &. ! %. 80!5 (. 5!100 Problem 85: "o distributio trasformers are coected i parallel supplyig a load of 125 3,A. If trasformer A ia rated 50 3,A! "ith 1$ ohms euivalet reactace ad trasformer & is rated 5 3,A "ith 11 ohms euivalet reactace. Dolve for the loadig i 3,A of each trasformer. A. 55 3,A! 0 3,A &. 50 3,A! 5 3,A %. 58 3,A! 3,A (. 52 3,A! - 3,A Problem 8: A 1256 3,A distributio trasformer "ith $J impedace is coected i parallel "ith aother trasformer rated 563,A 563,A ad "ith -J impedace. &oth have the same voltage ratio. eglect resistace of each trasformer. trasformer. he total load is 1$0 3,A at 85 percet po"er factor. /o" much load does each carry# A. 80.5 3,A 5.5 3,A &. .8 3,A 2.22 3,A %. 80 3,A 0 3,A (. 8.50 3,A 52.5 3,A
Problem 8: "o parallel trasformers have 8J reactace each. e is rated 25 C,A ad the other at 15 C,A. Eor a give -0 C,A load "ith a laggig pf of 0.8! determie the load carried by each trasformer# A. 18.50 C,A! 11.50 C,A &. 18.5 C,A! 11.25 C,A %. 15.25 C,A! 1$.5 C,A (. 1.$5 C,A! 1-.55 C,A Problem 88 A 50063,A sigle6phase trasformer GAH "ith percetage impedace of 0.010 =*0.05 is coected i parallel "ith a 25063, 25063,A trasformer G&H "ith percetage percetage impedace of 0.015 = *0.0$. *0.0$. If the trasformers are servig a sigle6phase load rated 80063,A 80063,A! 80J laggig pf! determie the operatig pf of each trasformer. Assume Assume the trasformers have the same tur ratio. A. A < 0.2! & < 0.80&. A < 0.2! & < 0.85 %. A < 0.2! & < 0.85 (. A < 0.2! & < 0.80Problem 8 he C7@A;% has t"o sigle6phase trasformers "ith eual turs ratio ad ratigs ad are operated i parallel to supply a load of 280 3+ at 0.80 laggig pf. rasformer rasformer A has a resistace of 2J ad a reactace of 8J. rasformer rasformer & has a resistace of 1J ad a reactace of J. (etermie the po"er delivered by the trasformer A ad & to the load. A. A < 12- 3+! & < 15 3+ &. A < 125 3+! & < 155 3+ %. A < 122 3+! & < 158 3+ (. A < 12 3+! & < 15- 3+ Problem 0 "o "o sigle6phase trasformer "ith eual ratigs ad turs ratio are operated i parallel to supply a load of 180 3+ at a laggig pf of 0.0. rasformer rasformer A has a resistace of 1 J ad a reactace of J. rasformer & has a resistace of 2J ad a reactace of 5J. %alculate the po"er delivered by each trasformer. A. 8- 3+! 3+ &. 3+! 101 3+ %. 88 3+! 2 3+ (. 80 3+! 100 3+ Problem 1 "o "o sigle6phase trasformers A ad & are coected i parallel to serve a 006A sigle6phase sigle6phase load at 0. 80 pf laggig. he euivalet euivalet impedace impedace of the trasformers are 2 = *- ad 2.2.- = * 5 ohms! respectively. respectively. (etermie the ratio of the 3+ output of trasformer A to the 3+ output of trasformer &. Assume the trasformer have eual ratigs ad turs ratio. A. 1.5 &. 1.88 %. 1.8 (. 1.$
TEST 1- – 3# P*SE (ND4CT(N %T0S Problem 2: A sigle phase iductio iductio motor is rated 5 hp! 5J po"er factor ad 220 volts. +hat is its full load curret# A. 22.5 A &. 20.5 A %. 1. A (. 18.5 A Problem -: A 5 hp! -6 phase motor dra"s curret "he coected to 2-0 ,. ,. (etermie (etermie the curret dra" by the motor if the po"er factor is 0.0 ad efficiecy of 8-J. A. 12.5- A &. 15.1- A %. 1-.25 A (. 1$.05 A Problem $: A -6 phase motor is rated 50 hp at $0 volts lie to lie! 0.85 pf laggig ad 0.5 efficiecy. efficiecy. Dolve for the rated curret. A. 8.$ A &. 02.2- A %. $05.$- A (. 1.-2 A Problem 5:
A $0 hp! -6 phase! $6 pole! 2-06 volt! 0 /B iductio motor operatig at 0.0 efficiecy! 0.85 po"er factor ad -J slip! drives a "ater pump. (etermie the curret at "hich the motor is operatig. A. $.5-1 A &. .2-$A %. .15 A (. -.-51 A Problem : %alculate the speed of a 06 cycle! 1$6 pole motor if the slip is 5J. A. 51$.2 rpm &. $88.5 rpm %. $5.-2 rpm
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$2.- rpm
Problem : he rotor speed of a 6 pole! 506 cycle iductio motor is 0 rpm. %alculate the percet slip. A. 5J &. 2J %. $J (. -J Problem 8: +hat is the speed of a iductio motor of six poles if the percet slip is 2.5J# A. 1$2 rpm &. 110 rpm %. 8 rpm (.
155 rpm
Problem : A suirrel cage iductio motor motor "ith ameplate data of: 150 hp! -6 phase! $06 ,! 0 /B! 6 pole! 0.85 pf! "as sub*ected to certai performace tests. he test results readigs "ere as follo"s: Eull load curret < 202 A Eull load torue < .8 lb6ft. Dolve the percetage slip. A. -.28J &. $.15J %. -.05J (. 2.25J Problem 00: A six6 pole! three6 phase suirrel6 cage iductio motor is coected to a 06 cps supply. supply. At full load! the rotors iduced emf ma3es 2 complete cycles i 1 miute. Eid the rotor speed. A 11 rpm &. 1200 rpm %. 105$ rpm (. 112$ rpm Problem 01: A 506 hp! three6 phase motor! rated 220 ,! 5J po"er factor has poles. he slip at full load is -J. +hat is the freuecy of the rotor curret at full load# A. 1.8 /B &. 0 /B %. 5.$ /B (. 58.2 /B Problem 02: A 1506 hp! -6 phase! 6 pole! $0 ,! 0 /B iductio motor dra"s 15 A lie lie curret at full load speed of 110 rpm ad 0.85 pf. Dolve for the percet slip at full load. A. 2.5J &. -.0J %. 2.8J (. 2.0J Problem 0-: he deep "ell pump motor is 50 hp! -6 phase! $6 poles! 2-0 volts! 0 /B iductio motor! operatig at 0.0 efficiecy! efficiecy! 0.85 po"er factor ad -J slip. (etermie the curret at "hich the motor is operatig. A. 112. A &. 122.$ A %. 120.5 A (. 12$. A Problem 0$: he rotor of a 220 ,! ,! 0 /B! $6 pole iductio motor has a po"er iput of 80 3+ is observed that the rotor emf ma3e 0 cycles c ycles per miute. %alculate the rotor copper loss. A. 2 3+ &. 5 3+ %. - 3+ (. $ 3+ Problem 05: A iductio motor carries a rotor curret per phase of 10 A "he loaded util the slip is 5J. If the rotor effective resistace is 0.1 ohm per phase! determie the total po"er trasferred across the air gap per phase. A. 210 + &. 2$0 + %. 10 + (. 200 + Problem 0:
A 10 hp >ameplate?! 6 pole! 0 /B! three6 phase iductio motor delivers . hp "ith a iput 200 "atts. he core loss is $50 +. he stator copper loss is 50 "atts ad the rotatioal losses is 150 "atts. +hat is the motor speed# A. 111 rpm &. 1200 rpm %. 1210 rpm (. 1125 rpm Problem 0: A three6 phase suirrel cage iductio motor is dra"ig $5 3+ from a $$0 ,! 06 /B! -6 phase lie. If stator losses amout to 00 +! determie total mechaical po"er developed. Assume a slip of -J. A. $0.-2 3+ &. $$.$ 3+ %. $8.22 3+ (. $2.8 3+ Problem 08: A 106 hp! $6 pole! 25 /B! -6 phase iductio motor is ta3ig 100 "atts from the lie. %ore loss 20 "attsT stator copper loss is 58 "attsT rotor copper loss is $$5 "atts ad the frictio ad "idage loss 121 "atts. (etermie the output torue i e"to6meters. A. 108.$ &. 112.5 %. 101.2 (. 10-.Problem 0: A $06 hp! 2-06 ,! ,! 86 pole! 25 /B! three6 phase iductio motor is ruig at -55 rpm at rated load. he torue lost by frictio is 2$ 6m. If total stator losses amout to 1000 +! evaluate evaluate the efficiecy of the motor at this load. A 1.$2J &. 88.51J %. 0.-1J (. 8.1J Problem 10: he rotor of 2206 ,! 0 0 /B! $6 pole iductio motor has a po"er iput of 80 3+ is observed that the rotor emf ma3es 0 cycles per miute. %alculate the gross mechaical po"er developed. A. 2 3+ &. 8 3+ %. 5 3+ (. 3+ Problem 11: A 6 pole! 50 /B! -6 phase iductio motor rus at 0 rpm "hile deliverig a shaft torue of 120 6m. if frictio ad "idage loss amout to 180 +! determie determie rotor copper loss. A. 521 + &. 518 + %. 510 + (. 52 + Problem 12: (etermie the speed i rpm of the motor at full load "ith the follo"ig circuits elemets per phase. @otor lea3age reactace < 0.5 @otor resistace < 0.10 Dtator lea3age reactace < 1.12 Dtator resistace < 0.25 %oectio %oectio < L6L his motor is 500 hp! -6 phase! 2200 volt! 06 cycle! 6 pole iductio motor "ith additioal core loss of 2000 "atts ad the frictio ad "idage losses total is 10!000 "atts. A. 1200 rpm &. 11 rpm %. 110 rpm (. 1188 rpm Problem 1-: A 506 hp! $$0 ,! ,! -6 phase! 0 /B! 6 pole suirrel cage iductio motor is operatig at full load ad 0.8 pf. he full load efficiecy is 85J ad the percetage slip is 5J. (etermie full load torue. A. 21$.55 6m &. 20.2 6m %. -12.$ 6m (. -2-.2$ 6m Problem 1$ A -06hp! $6pole! -6phase! 2-0 volts! 0 /B suirrel cage iductio motor operatig at 0J efficiecy! 85J po"er factor ad 2.5J slip slip drives a "ater pump for a reservoir. reservoir. Eid Eid the curret ad speed at "hich "hich the motor is operatig. A. -.$ -.$ A! 155 rpm &. 2.- A! A! 155 rpm %. -.$ A! A! 1800 rpm rpm (. 2.2.- A! A! 1800 rpm Problem 15
A 506hp! 506hp! $6pole! -6phase! 2-0 volts! volts! 0 /B suirrel cage iductio iductio motor has a efficiecy of 0J! po"er factor 85J ad a slip of 2J at full load. Eid the torue i lb6ft at full load. A. 152.$5 &. 1$8.8 %. 121.-$ (. 150.5 Problem 1 he losses i a -6phase! 256/B! $6pole iductio motor at full load are as follo"s: core ' -JT Erictio ad "idage ' 2JT Dtator copper ' $JT ad @otor copper ' 2J. At 0J of full load of the machie! determie its efficiecy. A. 0.52J &. 88.15J %. 8.2$J (. 8.81J Problem 1 A 100 hp! $$0 volt! three6phase! 0 /B iductio motor operates "ith 2 percet efficiecy! efficiecy! 0.85 po"er factor! at rated load. +hat is the curret of the motor# A. 125 &. 115 %. 8 (. 55 Problem 18 A six6pole! three6phase! $$06volt! 06/B iductio motor develops 106hp at 1150 rpm! the po"er factor beig 80J laggig. laggig. Dtator ad core losses amout amout to $00 + ad ad -50 + respectively respectively.. Erictioal losses amout amout to 0.56hp. %alculate motor lie curret. A. 12.2$ A &. 11.$2 A %. 1-.$1 A (. 1$.$ A Problem 1 A three6 phase! .5 hp! 2206 ,! 6 pole! 06 /B! L6 coected iductio motors "as tested ad give the follo"ig results: o6 load test: l < .5 A P < 10 + r < < 110 rpm ;oad test: l < 18.$ A P < 00 + r < 11$ rpm @esistace test: test: 0.5$ ohm bet"ee ay t"o stator stator termials (etermie the efficiecy of the motor durig the load test. A. 8-.$5J &. 8$.J %. 85.28J (. 8.55J Problem 20: A three6 phase "oud iductio motor! $$0 ,! 0 cycle! $6 pole is coected to a pump that delivers 1000 cfm of "ater agaist a effective head of 8 ft. 9der this load the motor! the motor dra"s 15 3+ at a po"er factor of 0.0. +he operated "ithout load! the motor dra"s 800 "atts. he stator resistace per phase is 0.21 ohm. he turs ratio bet"ee stator ad rotor is $:1. (etermie the efficiecy of the pump. A. 8-.2J. &. 8$.5J %. 8-.1J (. 8$.2$J Problem 21: A three6 phase! 6 pole! 06 /B! L6 coected coected suirrel cage iductio motor operates "ith a slip of 2J ad dra"s 10 A ad -!500 + at full load. +he ruig light! the motor dra"s $.2 A ad -00 +. +he the rotor of this motor is bloc3ed! the motor dra"s $50 +! 15 A at 50 ,. %alculate the torue exerted "he drivig its full load. A. 22.82 6m &. 2$.5 6m %. 20.- 6m (. 2.$ 6m Problem 22: he follo"ig data "ere obtaied from a 56 hp! 1106,! 0 /)! 86 pole! -6 phase! L6 coected iductio motor: o6 load test: l < 10 A+1 < 25 + +2 < 6 $25 + ;oad test: l < 28 A+ 1 < -1$0 + +2 < 1580 r < 80 rpm (% resi resist sta ace ce test test:: 0.1 0.1 ohm ohm bet" bet"ee ee ay ay t"o t"o stat stator or term termi ial alss %alculate the torue i 6m exerted by the motor durig the load test. Assume the A% resistace is 1.25 times the (% resistace. A. $$.$ &. 52.$2 %. $.10 (. $-.8$ Problem 2-:
A resistor assembly assembly for a "oud rotor cosist of 20 elemets of cast iro grid elemets. he ratig of each is 0.10 ohm. +he *oied i series ad tested across 220 volts! the measured curret "as 100 A. /o" much po"er "as lost i the *oits# A. 1. 3+ &. 1.8 3+ %. 2.0 3+ (. 2.1 3+ Problem 2$: A "oud rotor motor! motor! .5 hp! 2-0 volts! -6 phase ta3es a lie curret of 18.$ amperes! "he operatig at rated output at a efficiecy of 88J. %alculate the idicatios o "attmeters "he these are iserted to measure po"er by the t"o6"attmeter t"o6"attmeter method. A. $.0-5 3+! 2.-2- 3+ &. $.2-2 3+! 2.12 3+ %. -.02 3+! 2.$5 3+ (. -.855 3+! 2.50- 3+ Problem 25 "o6"attmeter method is used to test a 25 /P! 2-0 volt! 1800 rpm! 06cycle! -6phase iductio motor. +he the lie voltages are 2-0 volts! oe "attmeter reads = 1-!$00 "atts ad the other = !$00 "atts. (etermie motor lie curret. A. 55. A &. 58.$ A %. 52.- A (. 50.8 A Problem 2 A iductio motor of -0 hp! 220 volts -6phase dra"s $50 percet of the rated curret "ith the rated voltage ad delivers durig the startig period 1-0 percet of the ormal torue. he full load efficiecy ad full load pf of this motor is 80J ad 0J respectively. respectively. If a autotrasformer is used as a startig uit ad startig torue of the load is oly 50 percet of the rated torue of the motor! fid the startig voltage. A. 1-.$$ , &. 1-0.5 , %. 1-2.- , (. 1-$.20 Problem 2 A 106/P! 550 ,! 0 /B! -6phase iductio motor has a startig torue of 10J of full load torue ad a startig curret of $25J of full load curret. If the motor is used o a $$0 ,! ,! 0 /B system! "hat "ill be the startig torue expressed i percet of full load value# A. 102.$J &. 101.8J %. 10$.2J (. 10-.5J Problem 28 A 106/P! 550 ,! 0 /B! -6phase iductio motor has a startig torue of 10J of full load torue ad a startig curret of $25J of full load curret. +hat "ill the voltage i order that the startig curret be limited to the full load value# A. 1-2.$ , &. 12.$1 , %. 125.52 , (. 1-.5 , Problem 2 A 256hp! 2-0 , three phase motor "ith 85J po"er factor has a startig curret of 5.5 times rated curret. o reduce the startig curret! a "ye6delta starter is istalled. +hat shall be the e" startig curret# A. 15 A &. -02 A %. 1-5 A (. 15 A Problem -0 A suirrel cage motor is started at 50J of its rated voltage. +hat is the startig torue relative to its rated voltage startig torue# A. 50J &. 100J %. 25J (. 5J Problem -1 A delta6coected delta6coected load iductio motor dra"s 100 A from each lie of a three6phase source ad develops $0 lb6ft torue at stadstill. Eid the torue "he coected to the same service if the motor is re6coected i "ye. A. 1-.- lb6ft &. 120 lb6ft %. $0 lb6ft (. oe of these Problem -2
A iductio motor of -06/P! 220 ,! -6phase dra"s $50 percet of the rated curret "ith the rated voltage ad delivers durig the startig period of 1-0J of the ormal torue. he full load efficiecy ad full load pf of this motor is 80 percet ad 0 percet respectively. respectively. If a autotrasformer is used as a startig uit ad the startig torue of the load is oly 50 percet of the rated torue of the motor! fid the startig curret o the lie. A. -01.$ A &. 22. A %. 288. A (. 22.- A Problem -A .5 hp! 500 , three6phase motor iductio motor is developig its full load output at 0 rpm. he startig torue is eual to the full load torue. +hat "ill be the startig torue if the supply voltage falls to $00 volts# A. -2.-$ 6m &. -5.2 6m %. 28.2 6m (. -8.82 6m Problem -$ he deep "ell pump motor is 50 hp! -6phase! $6poles! 2-0 volts! 0 /B iductio motor! operatig operatig at 0.0 efficiecy! efficiecy! 0.85 po"er factor ad -J slip. (etermie the discharge of the pump i cubic meters per miute! assumig that the total head agaist "hich the pump is "or3ig is 50 meters ad the desity of "ater is 1000 3g per cubic meter. A. $.10&. $.22$ %. $.5(. $.205 Problem -5 A three6phase! 2-0 ,! ,! 6pole! 0 /B iductio motor is loaded by meas of a poy bra3e. he legth ad dead "eight of "hich are 2.5 ft ad 2 lbs respectively. respectively. +ith 2-06, impressed o this motor! the total f orce delivered by the poy bra3e is -0 -0 lbs. the po"er iput to to the meter is measured by t"o t"o "attmeters usig the the t"o6"attmeter method. hese "attmeters register $ ad 8 3+ respectively. respectively. If the motor has a slip of 55 uder this coditio! determie its efficiecy. A. -.2J &. 2.$$J %. 0.82J (. $.$-J Problem - A 5 3,A! -6phase trasformer supplies the follo"ig iitial loads: %apacitor ba3 dra"ig 25 3,A@ ad a iductive load dra"ig - 3+! 0.15 pf. (etermie the maximum hp of iductio motor at 0.8 pf ad 0J efficiecy that ca be added to the load "ithout overloadig the trasformer. A. $0.2 hp &. -8.$ hp %. -5.5 hp (. -.5 hp Problem - he feeder of a idustrial plat is has a load of $00 3,A at a po"er factor of 55 laggig. A iductio motor load dra"ig 100 3+ is added to the feeder. (etermie the operatig po"er factor this motor such that the total feeder load "ill have a laggig pf of 0J. A. 0.$2 &. 0.8$ %. 0.02 (. 0.818
TEST 2. – S5NC0N4S %T0S Problem -8: A three6phase L6coected sychroous motor "ith a lie6to6lie voltage of $$0 , ad a sychroous speed of 00 rpm operates "ith a po"er of 3+ ad a laggig po"er factor of 0.8. he sychroous reactace per phase is 10 ohms. (etermie (etermie the torue agle i electrical electrical degrees. A. -.--° -.--° &. --.51° --.51° %. -5.51° -5.51° (. -8.$° -8.$° Problem -: A 106hp! 2-06,! three6phase L6coected sychroous motor has a reactace of - ohms per phase ad a egligible resistace. o o "hat voltage must the motor is excited i order to deliver full load at uity po"er factor ad 0J efficiecy# A. 22 , &. 25$ , %. 2$8 , (. 2$2 ,
Problem $0: A 1000 3,A! 11 3,! -6phase L6coected sychroous motor has a resistace of - ohms ad a reactace of 25 ohms per phase. (etermie the iduced emf "he fully loaded at 0.8 po"er factor laggig. A. 5521 , &. 5-2 , %. 5$5 , (. 5582 , Problem $1: A 5006hp! 2200 ,! ,! -6phase star coected sychroous motor has a sychroous impedace of 0.- = * - Ω per phase. (etermie the iduced iduced emf per phase if the motor motor "or3s o full load "ith a efficiecy of $J ad ad a po"er factor of 0.8 leadig. leadig. A. 1-0 , &. 1-5$ , %. 1$02 , (. 1522 , Problem $2: A three6phase! star coected sychroous motor ta3es 50 3+ at 0 ,! the po"er factor beig 0.8 laggig. his machie has a sychroous reactace of 1 ohm per phase "ith a egligible resistace. If the emf is icreased by -0J! the po"er ta3e remaiig remaiig the same! fid the the e" leadig pf curret. A. $.1 A &. 85.2 A %. 0.- A (. 88. A Problem $-: A . 3,! L6coected sychroous motor has a sychroous reactace per phase of 10 ohms ad a egligible resistace. Eor a certai load! the motor dra"s 0 3+ at ormal voltage. At this load! the iduced emf per phase is 510 ,. ,. (etermie (etermie the operatig pf. A. 0.$8 &. 0.502 %. 0.$2 (. 0.518 Problem $$: A 56hp! 006volt! 10006rpm! three6phase L6coected L6coected sychroous motor has a armature resistace of 0.05 per phase ad a lea3age reactace of 0.$5 ohm per phase. he efficiecy at rated load! 80J pf leadig is 2J. (etermie mechaical po"er developed "ithi the armature. A. $ 3+ &. 2 3+ %. 0 3+ (. 3+ Problem $5: A 2-0 ,! 06/B! -6phase! L6coected sychroous motor dra"s a curret of 20 A ad delivers 8 bhp. Armature resistace per phase is 0.5 Ω. If the iro ad frictio losses amout to -00 +! determie determie the operatig po"er factor of the motor. motor. A. 0.80 &. 0.80 %. 0.8 (. 0.82 Problem $: A 2200 ,! ,! 200 hp! -6phase mesh coected sychroous motor is "or3ig o full load at a efficiecy 0.88 ad 0.8 pf leadig. he armature reactace per phase is 5 ohms. (etermie the iduced emf per phase. eglect resistace. A. 2- , &. 2-$5 , %. 2-80 , (. 2-0 , Problem $: A 156hp! 2-0 , sigle6phase sychroous motor is ta3ig a curret of 50 A at a po"er factor of 0.85 leadig. 7ffective armature resistace is 0.2 ohm. If this motor drives a mechaical load of 12 hp! determie its rotatioal losses. A. -2- + &. -$0 + %. - + (. -1$ + Problem $8: A $$06 ,! sigle6 phase sychroous motor is dra"ig a lie curret of 50 A at 0. pf laggig. his machie has a armature resistace ad reactace of 0.8 ad 10 ohms respectively. If stray po"er ad excitatio losses amout to 500 + ad 800 + respectively! determie the bhp output of the motor. A. 2-.2 & 20.$ %. 25.8 (. 18.5
Problem $: 77 &oard April 1A sigle6 phase sychroous motor gives a output of .$ 3+ at 0. pf laggig "ith 00 ,. If stray po"er loss is 00 + ad field losses is 00 +! "hile effective armature resistace is 0. ohm! fid the efficiecy of the sychroous motor. A. 82.-5J &. 81.2$J %. 85.25J (. 8$.$J Problem 50: A 2-06 ,! 0 /B! sigle6 phase sychroous motor is ta3ig a curret of 20 A at 0.8 pf laggig. 7ffective armature resistace is 0.- ohm. Iro ad frictio losses amout to $50 +! determie the efficiecy of the motor at this load. eglect losses i the excitatio. A. 8.15J &. 85.-0J %. 88.52J (. 8-.20J Problem 51: A three6 phase star6 coected sychroous motor dra"s 0 A at 0.8 pf leadig "he coected from a . 3,! 3,! 06 /B! -6 phase source. At this load the machie operates "ith a efficiecy of 0J. If the sychroous impedace of the machie is 2 = *15 ohms! determie the stray po"er losses. A. $0.5 3+ &. 28. 3+ %. -2.8 3+ (. -$. 3+ Problem 52: A 20 /P! $$06 ,! 06 /B! -6 phase star6 coected sychroous motor has a armature resistace per phase of 0.$ ohm. It is givig its full load output at a po"er factor of 0. leadig. If the stray po"er losses amout to 500 +! fid the armature curret. A. 2-.$$ A &. 25.28 A %. 22.5- A (. 20. A Problem 5-: A 5006 ,! ,! 06 /B sigle6 phase sychroous motor develops 20 hp ad is operatig at a pf of 0.8 laggig. 7ffective resistace of armature is 1 ohm. Iro ad frictio losses amout to 500 +. (etermie (etermie po"er dra" by the motor from the source. A. 18! 220 + &. 21! 5$ + %. 1! 288 + (. 20! 05 + Problem 5$: 77 &oard April 11 A three6 phase sychroous motor is measured by t"o A ad & "attmeters. It reads 28. 3+ ad $.5 3+! respectively. respectively. he iput po"er of the motor is uder excited ad assumed costat. +hat are the readigs of A ad & "attmeters if the po"er factor is 85J ad the motor is over6 excited# A. $8. 3+! 2.5 3+ &. $2.5 3+! -2. 3+ %. 52. 3+! 52. 3+ (. 51.10 3+! 2$.1 3+ Problem 55: he iput po"er to a 006 , sychroous motor is measured by meas of a t"o6 "attmeter method. e "attmeter reads $ 3+ ad the other read -.5 3+. he motor is 3o" to be operatig at leadig pf. (etermie the lie curret dra". A. 10$ A &. 110 A c. 10 A (. 112 A Problem 5: A group of iductio motors rated 22006 ,! ,! -6 phase! 06 /B delivers a total of 00 hp ad is operatig at a average po"er factor of 0.8 laggig. If half of this is replaced by a group of sychroous motors operatig at a average pf of 0.8 leadig! determie the percetage reductio of the lie curret. Assume all motors operate at a average efficiecy of 0J. A. 2-J &. 25J %. 20J (. 21J Problem 5: A three6 phase trasmissio lie havig a capacity of 10! 000 3,A serves a balaced load that dra"s 5!000 3+ at a laggig po"er factor such that the trasmissio lie is loaded to its capacity. capacity. A additioal load of iductio motors operatig at a average pf of 0.8 is coected to the lie. I order to ma3e use of the lie to its full
capacity i active po"er! a sychroous codeser havig losses of -00 3+ "ill be coected to the lie. +hat is the 3,A ratig of the sychroous motor reuired# A. 11!158 &. 12!18 %. 1-!205 (. 10! 202
Problem 58: A three6 phase L6 L6 coected sychroous motor "ith a lie6to6lie voltage of $$0 , ad a sychroous speed of 00 rpm ad operates "ith a po"er of 3+ ad a laggig po"er factor of 0.8. he sychroous reactace per phase is 10 ohms. ohms. he machie is operatig operatig "ith rotor curret of 5 A. it is desired desired to cotiue carryig carryig the same load but to provide 5 3,A@ 3,A@ of po"er factor correctio to the lie. (etermie the reuired rotor curret to do this. A. .88 A &. 8.0 A %. 8.2 A (. 8.28 A Problem 5: 77 &oard ctober 11 A -!00 volts three6 phase star6 coected turbo sychroous geerator of sychroous reactace of 0.5 ohm per phase ad egligible resistace is supplyig -0! 000 3,A 3,A at 0.8 pf laggig to a large po"er system. If the steam supply is cut6 off! calculate the amout of curret that the geerator "ill the carry assumig egligible losses. A. -01 A &. -82- A %. -0$ A (. -80 A Problem 0: 77 &oard ctober 1$ A "ye6 coected turbo alterator havig a sychroous sychroous reactace of 0.5 ohm ad egligible resistace is coected to a large po"er system havig a busbar voltage of 1-.8 3, supplyig a load of 15!000 3,A at 0.80 laggig po"er factor. If the steam supply is cut6 off! the armature curret "ill the machie carry assumig egligible losses# A. 25.55 A &. 525.2 A %. -8$.2 A (. 2.55 A Problem 1: 77 &oard ctober 1$ A 1!000 3,A! !00 , "ye6 coected three6 phase alterator havig a reactace of 8.8 Ω ad a egligible resistace is supplyig po"er to a costat freuecy bus bar. he ope circuit emf at this istace is $!-11 , per phase. If steam supply is suddely suddely cut6 off! off! the armature curret i amperes is earest earest to A. 5 &. 0 %. 5 (. 5
7D 216%,7@7@D 216%,7@7@D M @7%IEI7@D Problem 2: A sigle6 phase rotary coverter has a output voltage of 110 volts. (etermie the lie curret i A% side "he the machie delivers a (% output of 50 A. assume the machie is operatig "ith a pf of 0.85 ad efficiecy of 5J. A. 0.1 A &. 0.-$ A %. 8.5 A (. 82.2- A Problem -: 77 &oard April 1$ I a three6 phase sychroous coverter! coverter! the ratio of the A% voltage to (% voltage is A. 0.12 &. 1.0 %. 0.50 (. 0.0 Problem $: A three6 phase rotary coverter delivers 150 A at 500 ,(%. (etermie the curret o the A% side if the operatig po"er factor of the machie is 0.8 ad the efficiecy is 0J. A. 1 A &. 15 A %. 18 A (. 1 A Problem 5:
hree sigle6 phase trasformers coected delta6 delta fed a three6 phase rotary coverted at 2!-00 ,. his coverter supplies po"er to a (% load that dra"s 100 3+ at 250 ,. if the rotary coverter operates at a efficiecy of 5J at uity pf! calculate the curret i the secodary "idig of the trasformer ba3. A. - A &. -55 A %. 22 A (. 2$0 A Problem : A ope delta ba3 is servig a three6 phase rotary coverter. he coverter supplies 15 A of curret to a 1.$ ohm dc resistive load. If the machie dra"s a A% curret of 100 A at 0.8 pf laggig! determie miimum siBe of trasformer eeded. A. 15.$ 3,A &. 2$. 3,A %. 25. 3,A (. 1.$ 3,A Problem : A $6 phase star6 coected rotary coverter operatig at 0.0 efficiecy ad 0.85 po"er factor is coected across a 220 ,! 0 /B mais ad dra"s 50 A. determie the (% load curret. A. 208. A &. 220.5$ A %. 21.- A (. 212.25 A Problem 8: he dc output of a six6phase star6coected star6coected coverter is 500 3+ at $00 ,. If the pf ad efficiecy of the machie is 0.8 ad 0.2 respectively! determie the ac curret dra" from the supply# A. 2 A &. $0 A %. -2 A (. 2 A Problem 0:77 &oard April 12 A 500 3+! 006, 006, (%! 126phase sychroous coverter operates as a direct coverter at a full load efficiecy of 2J ad a po"er factor of 0.-. %alculate the A% voltage bet"ee slip rigs ad the A% curret dra" from a 126phase trasformer fed supply. A. 112 ,! 22 A &. 112 ,! 215 A %. 110 ,! 22 A (. 110 ,! 215 A Problem 1: A $6pole 2-06,! 2-06,! 0 /B! three6phase iductio motor directly drives a 6pole alterator. (etermie the output freuecy. Assume a slip of -J i the motor. A. 0.0 /B &. 88.$ /B %. 8. /B (. 8.- /B Problem 2: A $6pole! three6phase sychroous motor coected across a 0 /B supply drives a 6pole alterator through a belt. If the diameter of the driver ad drive pulleys are ad 10 iches respectively! respectively! determie the operatig freuecy of the alterator. alterator. A. 5- /B &. 5$ /B %. 55 /B (. 52 /B Problem -:77 &oard April 12 A geerator is rated 00 3,A! 2$0 ,! 0 cycles! -6phase! 6poles ad "ye6coected. +hat "ill be the speed of the drivig pulley if the drive ad drivig pulleys are 1 ft ad 2 ft i diameter respectively# A. 2$00 rpm &. 1200 rpm %. 00 rpm (. 00 rpm Problem $:77 &oard ctober 18 he pulley of a old ge6set has a diameter of 20 iches. he belt exerts a pull of -5- pouds o the pulley. he ge6set rus at 00 rpm. +hat is the approximate 3+ ratig of the ge6set# A. 5 &. 250 %. 200 (. -.5 Problem 5: A 2-06,! -6phase motor belt drives a 50 3+! 250 , (% geerator. he motor! belt ad geerator efficiecies are 0.1! 0.5 ad 0.8 respectively. If the motor operates at a pf of 0.8 laggig! determie the curret dra". A. 18 A &. 15 A %. 12 A (. oe of these
Problem : A sigle6phase sigle6phase motor is coected across a 2-06,! 0 /B supply ad dra"s -0 A at 0.85 pf laggig. his motor drives a 1206, (% geerator through direct couplig. If the motor! couplig ad geerator efficiecies are 0.85! 0. ad 0.88 respectively determie the curret delivered by the geerator usig the above coditio. A. -5 A &. -2 A %. -8 A (. $8 A Problem : A 2-06,! 0 /B! -6phase motor drives a 25 3+! 250 , (% geerator through belt ad pulley. he motor geerator efficiecies are 0.0 ad 0.88! respectively. respectively. If the motor dra"s a lie curret of 8 A at 0.85 pf laggig! ho" much is the combied efficiecy ad pulley# A. 5.12J &. .0$J %. 5.--J (. $.81J Problem 8:77 &oard ctober 11 A movig coil ammeter! a resistace of 1500 ohms ad a diode are coected i series across a 125 , siusoidal A% A% supply. he diode diode has a liear curret voltage characteristics over the rage l < 0! 7 < 0 , to l < 200 mA ! 7 < 200 ,. %alculate the po"er dissipated i the 15006ohm resistor. A. 0. + &. 0.8- + %. 0.1 + (. 0.8 + Problem : A half6"ave rectifier dra"s po"er from a po"er trasformer at 2$ volts ad delivers 200 mA to a load. (etermie po"er dra" by load. A. 0.$8 + &. 1.25 + %. 2.1 + (2.05 + Problem 80: A A% ammeter is coected i series across the output of a full "ave rectifier. his meter reads 8 A. If a movig coil ammeter is replaced istead of the A% ammeter! "hat "ill be its expected readig# A. 8. 8.0 A &. . A %. .2 A (. 5. A Problem 81:77 &oard ctober 18 I the electroic laboratory! laboratory! a diode rectifier tube has a plate resistace of 00 ohms >assumed costat? ad is coected as a half6"ave rectifier to a load resistace of 1!$00 ohms. he eergiBig supply voltage is $$0 volts effective! 0 /B alteratig curret. Eid the average load voltage. A. 1-8.5 , &. 1-2.8 , %. 1--. , (. 150.2 , Problem 82: hree idetical trasformers are used to supply po"er to a iodiBig plat reuirig 1000 A at 28 , (% through a -6phase half "ave rectifier. he trasformers are coected delta6"ye. +hat are the secodary curret ad voltage of each trasformer# A. 10$2 A! 28.$ , &. 101 A! 1.$$ , %. 10$2 A! 1.$$ , (. 101 A! 28.$ , Problem 8-:77 &oard ctober 18 I the electrical laboratory! a diode rectifier tube has a plate resistace of 00 ohms >assumed costat? ad is coected as a half6"ave rectifier to a load resistace of 1!$00 ohms. he eergiBig supply voltage is $$0 volts effective! 0 /B alteratig curret. Eid the rms rectified curret. A. 0.12 A &. 0.155 A %. 0.208 A (. 0.-11 A Problem 8$:77 &oard April 1 A resistor is coected across a A% supply of 220 volts. he po"er dra" is 1!000 "atts. If a diode "ere coected i series "ith the resistor! "hat "ould be the po"er absorbed by the resistor# A. 850 + &. 250 + %. 50 + (. 500 + Problem 85:77 &oard ctober 1
A circuit cosists cosists of a resistor that is coected i series "ith a perfect diode. +he coected across a 206 , battery the curret measured is 10 A. /o"ever! "he coected across a -06, battery but "ith reversed polarity! "hat "ould be the e" curret# A. 15 A &. )ero )ero cur curret%. ret%. 20 A (. oe oe of the the as" as"er ered ed listed sted Problem 8:77 &oard April 1 A germaium diode! "hich has a offset voltage of 0.2 , ad a icremetal resistace of 20 ohms! is coected i series "ith a 10!0006ohm resistor across a 100 , (% source. +hat is the curret# A. .8 mA &. 10 mA %. .8 mA (. . mA
TEST 22# T0*NS%(SS(N L(NES Problem 8: A sigle solid roud copper "ire has a diameter of 0.50 ich. (etermie its self OC(. A. 0. 0.-8$ ich &. 0. 0.1$ ich %. 0. 0.1825 ich (. 0. 0.25 ich Problem 88: (etermie the mutual OC( of a three6phase sigle6circuit trasmissio trasmissio lie "hose coductors arraged i a triagular formatio so that the t"o distaces bet"ee coductors are 20 ft ad the third is -8 ft! respectively# respectively# A. 2$. ft &. 25.-5 ft %. 2-. ft (. 2.$- ft Problem 8: A three6phase three6phase double circuit lie has a horiBotal spacig of $0 ft ad a vertical spacig bet"ee ad*acet levels of 25 ft. (etermie the mutual OC( of the lie. A. $-.08 ft &. $2.$ ft %. $1.$2 ft (. $0.5 ft Problem 0:77 &oard Carch 18 A 2-0 3, trasmissio lie is 100 miles log. he coductor is A%D@ of 1!11-!000 %C. he coductors are horiBotally arraged "ith 20 ft spacig. he resistace per mile is 0.0 ohm ad its OC@ is 0.0$-5 ft. +hat is the impedace of the lie# A. . = * 5.25 ohms &. -.2- = * 5.25 ohms %. . = * .1 ohms (. -.2- = * 25.- ohms Problem 1:77 &oard ctober 1 A -$.5 3, feeder lie is 5 miles log. he coductors are space $ feet horiBotally. horiBotally. he coductor is $0 copper "ith OC@ of 0.018 ft. +hat is the reactace# A. 2.- ohms &. .2 ohms %. -.$ ohms (. 5.1 ohms Problem 2: A sigle6phase sigle6phase trasmissio lie 15 3m log is usig copper coductors of diameter 0.8 cm. If the distace bet"ee coductors coductors is 1.25 m! determie the self6iductace self6iductace of the trasmissio trasmissio lies. A. 0.0- / &. 0.02$ / %. 0.02 / (. 0.055 / Problem -:77 &oard ctober 18 A 5 3m log! three6phase lie has a horiBotal cofiguratio of $ ft spacig. he coductor is --.$ C%C A%D@ "ith OC@ of 0.02$$ ft ad a resistace of 0.-0 ohm per mile. +hat is the impedace# A. 2.22 cis 5 &. 1.1 cis $ %. . cis 5 (. -.5 cis $ Problem $: A 106 mile! 2-06 3,! 06 /B! three6 phase sigle6 circuit trasmissio lie uses a triagular arragemet "ith 20 ft! 220 ft ad - ft spacig respectively. If the lie coductors have a OC@ of 0.021 ft! determie the capacitive susceptace to eutral per mile. A. $.18 x 106 mh mho per mi &. 12.$ x 106 mho per mi
%.
.2 x 106 mh mho per mi
(.
2.$ x 106 mho per mi
Problem 5: A sigle6 circuit! -6 phase! 0 /B trasmissio is usig a horiBotal arragemet "ith a spacig distace of $ m bet"ee ad*acet coductors. If each coductor has a outside diameter of 0.8 cm! determie the capacitace to eutral per meter. A. 8.-52 pEm &. .- pEm %. .$2 pEm (. oe of these Problem : A sigle6 phase trasmissio trasmissio lie has total impedace of 1.5 = *0.- ohms. It delivers - C+ at 11 3, ad at uity po"er factor. (etermie the sedig ed voltage of the trasmissio lies. A. 11.$1 3, &. 11.2$ 3, %. 12.02 3, (. 11.8 3, Problem : A sigle6 phase trasmissio lie has total impedace of 5 ∠0o ohms ad supplies a total load of 120 A! -.3, ad at 0.8 po"er factor laggig. %alculate the sedig ed voltage. A. -.- 3, &. -.2 3, %. -.5$ 3, (. -.8 3, Problem 8: 77 &oard April 181 A three6 phase! -6 "ire short trasmissio lie has a resistace of - ohms ad a reactace of 8 ohms per "ire. At the receivig ed! a balaced -6 phase load dra"s a lie curret of 0 A! at 1-!500 volts lie6to6lie! 0.0 po"er factor laggig. laggig. (etermie the voltage at the the sedig ed. A. 1$!15 , &. 1$!1$- , %. 1$!2-0 , (. 15!055 , Problem : 77 &oard ctober 1! 77 &oard April 1 A load of 12 C,A! C,A! 0.8 pf laggig! 22 3, is served by a trasmissio lie! "hich has a lie resistace of ohms ad a lie reactace of 10 ohms. Dolve for the sedig ed voltage. A. 2$!-$5 , &. 2!5 , %. 2-!--5 , (. 25!$22 ,
Problem 800: 77 &oard April 182 A short -6 phase! -6"ire lie has a resistace of 5 ohms ad reactace of 12 ohms per "ire ad trasmit po"er to a three6 phase load load dra"ig 1000 3+ at 1-!120 volts lie6 lie6 to6 lie! 0.8 pf laggig! laggig! 0 /B. Dolve for the sedig ed voltage. A. 1$!200 , &. 1$!--0 , %. 1$!1-0 , (. 1$!2$0 , Problem 801: 77 &oard April 11 A -6 phase lie has a reactace of $.-2 ohms ad a resistace of $.15 ohms. he load at receivig ed is -800 3+ at 5J po"er factor laggig ad the voltage at the sedig ed is - 3,. (etermie (etermie the voltage at the receivig ed. A. -$.2$ 3, &. -$.8 3, %. -5.1$ 3, (. -5.$5 3, Problem 802: 77 &oard Carch 18 A short 2-06 3, trasmissio trasmissio lie has impedace of 5 cis 8 ohms. he sedig ed po"er is 100 C+ at 2-0 3, ad 85J po"er factor. +hat is the voltage at the other ed# A. 225.$ 3, &. 22.- 3, %. 22-.2 3, (. 228.2 3, Problem 80-: 77 &oard ctober 1 A three6 phase trasmissio lie! 15 3m log serves a substatio rated 15 C,A at -$.5 3,! 0 /B. If the lie resistace is 0.12 ohm per 3ilometer ad the lie reactace is 0.$5 ohm per 3ilometer! "hat should should be the sedig ed voltage be so that the trasformer ca be fully loaded at its rated voltage ad uity pf. A. -!200 , &. -!500 , %. -5!$08 , (. -$! 0 ,
Problem 80$: A three6 phase trasmissio trasmissio lie! 10 3m log delivers a load of 5000 3+ at 11 3, ad 0.8 pf laggig at the receivig ed. he resistace of the lie per 3m per phase is 0.1 ohm ad the reactace per phase per 3m is 0.2 ohm. Dolve for the regulatio of the lie. A. 12.$$J &. 11.05J %. 10.$5J (. 10.12J Problem 805: 77 &oard April 180 A -6 phase! -6"ire short trasmissio lie havig a impedace of -. = *1 ohms per "ire is used to supply a iductive load of 100 A at 0.0 pf ad a capacitive load of 50 A at 0.50 pf. he receivig ed voltage is $10 volts per phase. Eid percet regulatio. A. 25.$J &. 20.--J %. 2.-$J (. 2-.1J Problem 80: It is desired to deliver $000 3+! three6 phase at distace of 25 miles. he load beig -- 3,! 0 /B ad the po"er factor of the load beig beig 85J laggig. he he reactace of the lie lie per phase is 0.2 ohm per mile. mile. he lie loss is 10J of the po"er delivered. (etermie voltage regulatio of the lie. A. 11.2J &. 12.-J %. 11-.2J (. 1$.8J Problem 80: 77 &oard ctober 18 A short 2-0 3, trasmissio trasmissio lie has a impedace of 5 cis 8 ohms. he sedig ed po"er is 100 C+ at 2-0 3, ad 85J po"er factor. +hat is the percet regulatio of the lie# A. -.J &. 1.5J %. 2.2J (. 0.J Problem 808: 77 &oard ctober 18A short subtrasmissio lie serves at its ed a iductio motor rated 500 /P! 0.88 pf! 0.0 efficiecy! at 2!$00 volts phase to eutral. If the trasmissio has a resistace of 1.5 ohms ad a reactace of 2.$ ohms per phase! solve for the voltage regulatio of the lie. A. .J &. .02J %. .$8J (. .25J Problem 80: A short -6 phase! -6 "ire trasmissio lie has a impedace of 2 = * ohms per "ire! at the receivig ed are coected a three6 phase iductive load dra"ig 5000 3+ at 0.8 pf! lie6to6lie voltage of 1-!800 , ad a capacitor ba3 dra"ig 200 A lie curret. Dolve for the po"er at the sedig ed. A. 5!52 3+ &. 5!1$ 3+ %. 5!-1 3+ (. 5!2$ 3+ Problem 810: A short -6 "ire trasmissio lie has a impedace of 2 = *5 ohms per "ire. At the receivig ed! a balaced -6 phase load ad ad capacitor ba3 dra" -000 -000 3,A 3,A! 0.1 pf laggig ad 00 3,A 3,A@ respectively at 8000 volts per phase to eutral. (etermie the po"er loss of the trasmissio lie. A. 81.-2 3+ &. .5 3+ %. 0.$ 3+ (. 1.0 3+ Problem 811: A 106 3m! three6 phase trasmissio lie delivers po"er to a load rated 200 3+! 3+! . 3, ad at 80J laggig po"er factor. he resistace ad reactace reactace of each lie are 0.8 ad 1.2 ohms! ohms! respectively. respectively. +hat percetage of the the po"er geerated is lost lost i the trasmissio trasmissio lie# A. .5-J &. 8.05J %. 8.22J (. .$J Problem 812: 77 &oard ctober 17ach coductor of a three6 phase! -6 "ire trasmissio lie has impedace of 15 = *20 ohms at 0 /B. he voltage bet"ee lie coductors at the sedig ed is 1-!200 volts. he load coected to this lie is balaced ad ta3es 1000 3+ at a laggig po"er factor. he curret per coductor is 0 A. +hat is the load po"er factor# A. 0.80- laggig &. 0.82$ laggig %. 0.850 laggig (. 0.815 laggig Problem 81-:
A 15 C+! 1-2 3,! 80J pf three6 phase load is to be serve by a trasmissio lie havig coductors "hose resistace is 0.5 ohm3m. If the losses o the lie shall ot exceed .5J! ho" log must this lie be# A. 8 3m &. 0 3m %. 3m (. 5 3m Problem 81$: A three6 phase! three6 "ire trasmissio lie supplies at the receivig ed a iductive load of 5000 3+ at 0.8 pf ad the lie6to6lie voltage 1-!250 , ad i additio a capacitor ba3 that dra"s a lie curret of 0 A. he effective impedace of the trasmissio lie is 2 =*- ohms per "ire. (etermie the sedig po"er. A. 5-1 3+ &. 55-0 3+ %. 52555 3+ (. 5$10 3+ Problem 815: 77 &oard April 182 A short three6 phase! three6 "ire lie has a resistace of 5 ohms ad reactace of 12 ohms per "ire ad trasmit a po"er to a -6 phase load dra"ig 1000 3+ at 1-!120 volts lie to lie! 0.8 pf laggig! 0 /B. Dolve for the sedig ed po"er factor. A. 0.55 laggig &. 0.$5 laggig &. 0.5$ laggig (. 0.- laggig Problem 81: 77 &oard ctober 182! 77 &oard ctober 18 A short three6 phase trasmissio trasmissio lie has a resistace of - ohms ad a iductive reactace of $ ohms. At the receivig ed the voltage is1-! 250 volts lie6to6lie! "ith a load "hich dra"s 200 A at 0.0 laggig po"er factor ad capacitor ba3 dra"ig A. solve for the po"er factor at the sedig ed. A. 0.5 laggig &. 0.02 laggig %. 0.28 laggig (. 0.-5 laggig Problem 81: 77 &oard April 185 he sedig ed voltage of a balaced -6 phase trasmissio lie is 8$10 volts! phase to eutral. he lie curret is 200 amperes "ith a sedig ed laggig po"er factor of 0.80-. he receivig ed voltage is 00 volts! phase to eutral! "ith "ith a lie curret havig a laggig laggig po"er factor of 0.85. 0.85. Dolve for the impedace of the the trasmissio lie. A. 1.$ = * 5.15 Ω &. 1.$2 = * 5.15 Ω %. 1.$ = * 5.0$ 5.0$ Ω (. 1.$2 = * 5.0$ Ω Problem 818:77 &oard April 18 A short! -6phase! -6"ire trasmissio trasmissio lie has a receivig ed voltage of $10 , phase to eutral ad servig a balaced -6phase load of 8!$00 volt6amperes at 0.82 pf laggig. At the sedig ed the voltage is $00 ,! phase to eutral ad the pf is 0. laggig. Dolve the resistace of the lie. A. 1.-$5 Ω &. 1.$2 Ω %. 1.$5 Ω (. 1.-5 Ω Problem 81:77 &oard April 18$! 77 &oard April 18 At the sedig ed of a -6phase trasmissio lie! the voltage is measured to be 2!5$0 volts phase to eutral ad the lie curret to be 0 A at a laggig po"er factor of 0.5. At the receivig ed! the voltage measured is 2!200 volts phase to eutral ad the po"er factor is 0.80! li3e"ise laggig curret. Dolve for the resistace ad reactace of the lie. A. 2.2 = * $ &. 2.$ = * %. 2.0 = * 5 (. 2.1 = * Problem 820: A three6phase trasmissio lie 5 3m log delivers 2 C,A at a po"er factor of 0.80 laggig. he resistace ad reactace per 3m of each coductor are 0.- ohm ad 0. ohm! respectively. respectively. %alculate the voltage at the sedig ed. Assume Assume a trasmissio lie loss of .2J of the po"er factor delivered to the load. A. $$05.$5 , &. $1. , %. $810.50 , (. $52.85 , Problem 821:77 &oard April 1A certai statio i ;uBo has - 3,! -6phase! is to supply12 C+ load at -0 3, ad 0.8 po"er factor laggig over a -6phase trasmissio lie. Eid the resistace of the lie if the legth of the trasmissio lie is $!000 meters ad the efficiecy is 0J. A. 5.-- ohms &. $.$5 ohms %. .-1 ohms (. -.5 ohms
Problem 822: A three6phase! three6phase! -6"ire trasmissio lie has a impedace per "ire of - = * ohms! the receivig ed load is 150 3+! 0.5 pf laggig "ith the lie voltage of 1-!200 ,. (etermie the efficiecy of the lie. A. 2.$J &. 5.21J %. 0.2$J (. -.05J Problem 82-:77 &oard ctober 180 A short lie lie has a resistace of $ ohms ad a reactace of 12 ohms per "ire ad trasmits po"er to a cocetrated load of 1000 3,A! 3,A! 1-!200 volts! -6phase! 0 /B! 0.8 pf iductive load. Eid its efficiecy. A. -.-0J &. .5J %. 5.5J (. .21J Problem 82$:77 &oard ctober 18 A 2-0 3, trasmissio lie is sedig 100 C+ po"er at 2-0 3, ad 0J po"er factor. he impedace is 5 = * 20 ad its capacitive reactace is 2500 ohms. (etermie the receivig ed voltage. A. 221.2 3, &. 222.8- 3, %. 22.15 3, (. 22$.28 3, Problem 825:77 &oard ctober 1 A -6phase! 0 /B trasmissio lie delivers 20 C,A to a load at 3, at 80J pf laggig. he total series impedace of each lie is 15 = * 5 ohms. If a omial GpiH circuit is used! "hat "ould be the trasmissio efficiecy if the admittace is *0.000 mhos# A. 0.8J &. 1.J %. -.5J (. 2.J Problem 82:77 &oard Carch 18 A 2-0 3, trasmissio trasmissio lie has a impedace of 50 cis 8 ohms ad a capacitive reactace of 1200 ohms. It trasmits the po"er of a base load plat. a certai dry seaso the sedig ed po"er is 100 C+ at 2-5 3, ad 5J po"er factor cotiuously for a period of oe moth. If cost of geeratio is 1.-0 pesos per 3+6hr! "hat is the cost of the lie losses for the oe moth period# A. P 55!000 &. P 12.2 millio %. P 5. millio (. P 2.- millio
TEST 23# P6E0 *CT0 C00ECT(NS Problem 82:77 &oard ctober 1 A 1-23, lie three6phase system delivers 0. C,A of a balaced delta load of po"er factor 0.J laggig. (etermie the reactace ecessary to attai uity po"er factor. A. Kc < 1!02 Ω &. Kc < 5 Ω %. Kc < 1!1$2 Ω (. Kc < 1!0$5 Ω Problem 828:77 &oard ctober 10 A sigle6phase iductive load ta3es 50 3,A at 0.0 po"er factor laggig. Dolve for the 3,A@ of a capacitor reuired to improve the po"er factor to 1.0. A. -0 3,A@ &. 20 3,A@ %. 22.5 3,A@ (. $0 3,A@ Problem 82: A sigle6phase load o 220 , ta3es 5 3+ at 0. laggig po"er factor. Eid the 3,A@ siBe of capacitor! "hich maybe coected i parallel "ith this motor to brig the resultat po"er factor to 1.0. A. . &. .-2 %. 8. (. .2 Problem 8-0: A 5 hp! 220 ,! 0 /B! sigle6phase iductio motor operates at a efficiecy ad po"er factor of 0.88 ad 0.8 respectively. respectively. +hat capacitace should be coected across the motor i order for the feeder supplyig this motor to operate at uity po"er factor# A. 201.55 µE &. 18-.52 µE %. 1$.22 µE (. 212.5 µE Problem 8-1:77 &oard ctober 18
Istalled i oe of the customer of %7PA;% are t"o sigle phase trasformers each rated 5 3,A are coected , or ope delta to serve a -6phase load of 120 3+ at 0.8 pf laggig. o prevet the overloadig of the trasformers! determie the siBe of the capacitor i 3,A@. 3,A@. A. $0 &. $1 %. - (. $2 Problem 8-2: hree trasformers each rated 100 3,A are coected delta supplyig a load of 10 3+ at 0.8 pf laggig. e of the trasformers is ta3e for repair ad the rest are coected ope delta. +hat 3,A 3,A@ >miimum? of capacitor must be coected "ith the load so that the load of the remaiig trasformers "ill be 5J of their combied rated capacities. A. 85.-2 &. 81.2 %. 8.58 (. 80.2 Problem 8--:77 &oard ctober 1hree sigle6 phase trasformers each rated 5 3,A are ba3ed i delta ad supplyig a -6 phase load dra"ig 10 3,A at 0.8 laggig po"er factor. If oe trasformer is removed for repairs! solve for the miimum amout i 3,A@ of capacitor eeded to prevet overloadig of the remaiig uits. A. 0.-2 &. -.$ %. 2.$ (. -.28 Problem 8-$ "o sigle6 phase trasformer each rated 150 3,A are coected ope delta supplyig a three6 phase iductio motor rated 250 hp! 0. pf ad 80J efficiecy. (etermie the miimum siBe i 3,A@ of a capacitor eeded to prevet overloadig the trasformers. A. 1-5 &. 12 %. 120 (. 12Problem 8-5: 77 &oard ctober 182 "o "o sigle6 phase trasformers are each rated 5 3,A are coected i , or ope delta to serve a -6 phase load of 120 3+ at 0.80 po"er factor laggig. (etermie the siBe i 3,A@ 3,A@ of the capacitor eeded to prevet overloadig of the trasformers. A. $0.25 &. $1.28 %. $5.2$ (. $-.50 Problem 8-: 77 &oard April 18$ A plat has a load of 20 3ilo"att "ith a average po"er factor of 0J. he o"er reuests you to correct the po"er factor to reduce its po"er cosumptio. /o" much capacitor 3,A@ 3,A@ is reuired to icrease the po"er factor to 0J# A. 152.$ &. 155.- %. 150.-$ (. 15$.58 Problem 8-: 77 &oard ctober 182 A 15063,A6trasformer ba3 "ill serve a load expected to dra" 1-5 3+ at 0.80 laggig po"er factor. Dolve for the siBe of the capacitor ba3 eeded to be added i order to prevet overloadig of the trasformer ba3. A. -2.50 3,A@ &. -5.8 3,A@ %. $0.-1 3,A@ (. 28.2 3,A@ Problem 8-8: 77 &oard ctober 181 A -6 phase geerator has the follo"ig -6 phase loads: a iductive load dra"ig $00 3,A at 0.0 po"er factor ad a resistive load dra"ig 80 3,A at 1.00 po"er factor. Dolve for the siBe i 3,A@ of the capacitor ba3 eeded to improve the po"er factor of the combied loads to 0.85 laggig. A. 120.58 3,A@ &. 121.8 3,A@ %. 12$.5$ 3,A@ (. 122.82 3,A@ Problem 8-: 77 &oard April 1 A load of 10!000 3,A 3,A!! 80J pf laggig is coected to a 1-!200 volts lie. /o" much capacitive reactive po"er is eeded to correct correct the po"er factor to 0. laggig# laggig# A. 5!15 3,A@ &. -!1-8 3,A@ %. 2!5$ 3,A@ (. $!-5 3,A@ Problem 8$0: 77 &oard April 18
A short! -6 phase! -6 "ire trasmissio lie has a receivig ed voltage of $10 , phase to eutral a servig a balaced -6 phase load of 8!$00 volt amperes at 0.82 pf laggig. At the receivig ed the voltage is $00 , phase to eutral ad the pf is 0. laggig. Dolve for the siBe i 3,A 3,A@ of the capacitor eeded to improve the receivig ed pf to 0. laggig maitaiig $10 ,. A. 181 &. 15 %. 12 (. 18 Problem 8$1: A short! -6 phase! -6 "ire trasmissio lie has a impedace per "ire of - = * ohms! the receivig ed load is 150 3+! 0.5 pf laggig "ith the lie voltage of 1-!200 ,. determie the 3,A@ of the capacitor to be coected at the receivig ed to ma3e the pf at that ed to 0.8 laggig. A. 82$.5 &. 81.$5%. 80-.88 (. 81.-2 Problem 8$2: 77 &oard ctober 180 A balaced! balaced! 500 3,A! 3,A! -6 phase! $$0 volt! 0 /B iductive load operates at a pf of 5J. (etermie the total capacitor 3,A@ reuired improvig the pf to 5J. A. 20.$ &. 1.$2 %. 210.5 (. 12.21 Problem 8$-: 77 &oard Carch 18 A sigle6 phase iductio iductio motor is rated 5 hp! 5J po"er factor ad 220 volts. +hat approximate siBe of the capacitor siBe is ecessary to raise the po"er factor to about 5J# A. - 3,A@ &. 2 3,A@ %. 2.5 3,A@ (. -.5 3,A@ Problem 8$$: 77 &oard ctober 18$ A balaced -6phase load dra"s 150 A phase curret at .5 3, phase to eutral! 0.81 po"er factor laggig. It is desired to raise the po"er factor to 0. leadig. Dolve for the amout of capacitor 3,A@ 3,A@ eeded to achieve such pf. A. 22- 3,A@ &. 2$0 3,A@ %. 250 3,A@ (. 2-5 3A,@ Problem 8$5:77 &oard April 181 A -6phase! -6"ire! short trasmissio trasmissio lie has a resistace of - ohms ad a reactace of 8 ohms per "ire. At the receivig ed! a balaced -6phase load dra"s a lie curret of 0 A! at 1-!500 ,! solve the siBe i 3,A@ of capacitors eeded to raise the po"er factor at the receivig ed to 0.5 leadig. A. 10$-.5 &. 115$.2 %. 102.5 (. 12-2.2 Problem 8$: he iput to a iductio motor from a 1- 3,! 0 /B lie is 1000 3,A! at 0.8 pf laggig. A capacitor is placed i parallel "ith "ith the motor to improve improve the pf. %alculate the capacitace capacitace reuired raisig the po"er po"er factor to 0. leadig. A. 2 µE &. 50 µE %. $- µE (. 5 µE Problem 8$:77 &oard April 181 A three6phase balaced load dra"s a lie curret of 80 A at 0.0 laggig po"er factor. Dolve the miimum siBe i 3,A@ 3,A@ of the capacitor ba3 eeded to raise the po"er factor to 0.5 leadig! if the lie to lie voltage is 1-!200 volts. A. 1-10.15 &. 1--8.25 %. 12$.5$ (. 1$-0.12 Problem 8$8:77 &oard ctober 10 "o L6coected! L6coected! 50° 50 ° rise iductio motors are fed by a $10 ,! lie to lie! -6phase 0 /B motor6cotrol ceter 20 feet a"ay. Cotor V1 drives a 006hp compressor. he efficiecy of this motor is 0J ad its po"er factor is 0.5. Istrumets of motor V2 idicate 1-0 3+! 2 amperes. (etermie the capacity i microfarads per phase of a "ye6coected ba3 that is reuired to correct the po"er factor of the total load to 0. laggig. A. 12.$ µE &. 1-.8 µE %. 1.2 µE (. 182.1 µE Problem 8$:
A 2.- 3, three6phase system supplies a 12063+! 12063+! 0. pf laggig balaced load. (etermie the capacitace i each phase of a "ye6coected capacitor ba3 to ad*ust the po"er to 0.0 laggig. A. 51.1 µE &. 52.2 µE %. 2.5 µE (. 8.2 µE Problem 850:77 &oard ctober 1 A sigle6phase! 0 /B! 5 hp suirrel cage iductio motor dra"s a curret of 5- A at 11 ,. If it has a 8.5J electrical to mechaical coversio efficiecy! "hat capacitace should be coected at the termials of the motor i order to icrease the po"er factor of the load combiatio to 2J# A. $80 µE &. -80 µE %. -20 µE (. $20 µE Problem 851:77 &oard April 18 A three6phase! 0 /B! 2200 volts iductio motor develops 500 /P! 0.8 laggig pf ad efficiecy of $J. he po"er factor is raised to 0.0 laggig by coectig a ba3 of codesers i delta across the lies. If each of the capacitace uit is built up of four similar 550 , codesers! calculate the capacitace of each codeser. A. .0$ µE &. 5.$2 µE %. .12 µE (. 2.-0 µE Problem 852:77 &oard April 1A star6coected star6coected $00 /p >metric?! 2000 ,! 50 cs motor "or3s at a po"er factor of 0. laggig. A ba3 of mesh6coected codesers are used to raise the po"er factor to 0.- laggig. %alculate the capacitace of each uit reuired reuire d if each is rated 500 ,! ,! 50 cs. he motor efficiecy is 85J. A. 1$ µE &. 225 µE %. -02 µE (. 2-- µE Problem 85-: A factory dra"s a laggig load of 2000 3+ at a po"er factor of 0J from a 3, bus lie. A sychroous sychroous capacitor is istalled to raise the overall po"er factor to uity. Assumig Assumig the sychroous capacitor losses are 25 3+! 3+! calculate the operatig po"er factor of the sychroous capacitor. capacitor. A. 0.20 0.201 1 lead leadi ig g &. 0.10 0.10- lead leadi ig g %. 0.-0 0.-02 2 lead leadi ig g (. 0.11 0.11- lead leadi ig g Problem 85$: A $006, three6phase balaced load ta3es $0 A at a laggig po"er of 0.8. A over6 excited sychroou s ychroouss motor is coected to raise the po"er factor to uity. uity. If the mechaical output of the motor is 15 hp ad its efficiecy is 85J! fid the 3,A iput to the motor. A. 2$.2 3,A &. 18. 3,A %. 20.- 3,A (. 21.2 3,A Problem 855: A three6phase load of 100 3,A operates at 0.06pf laggig. Dolve for the operatig po"er factor of a sychroous codeser ecessary to raise the system po"er factor to 0.8 laggig! ad so arrage that the system apparet po"er is the same as before the correctio. A. 0. 0.-2 leadig &. 0. 0.882 leadig %. 0. 0.05 leadig (. 0. 0.0 leadig Problem 85: A idustrial plat has a electrical load of 5000 3+ at 80J pf laggig. It has bee decided to replace a 5006hp iductio that drives a pump. his motor operates at a efficiecy of 0J ad a pf of 0. laggig. If a sychroous motor is purchased as a replacemet! "hich is capable of operatig at 0.80 pf leadig. +hat "ill be the e" plat pf. Assume the sychroous motor to have the same efficiecy. A. 0.8&. 0.82%. 0.8- (. 0.852 Problem 85: A sychroous sychroous motor is dra"ig 0 3+ is coected i parallel "ith a load dra"ig 250 3+ at a laggig po"er of 0.8. If the combied combied load has a po"er factor of 0.! at "hat "hat po"er factor is the sychroous sychroous motor operatig# A. 0. 0.82 leadig &. 0. 0.8$ leadig %. 0. 0.88 leadig (. 0. 0.8$ leadig Problem 858:77 &oard ctober 185
A iductive load cosumes 10 3+ at 0.5 pf laggig. A sychroous sychroous motor "ith a pf of 0. leadig is coected i parallel "ith the iductive load. +hat is the miimum reuired 3+ siBe of the sychroous motor so that the combied load "ill have a pf of 0.8 laggig. A. 1.08 3+ &. 1.20- 3+ %. 1.05 3+ (. 1.10 3+ Problem 85:77 &oard April 180! 77 &oard April 12 A idustrial plat dra"s 500 3+ at 0. po"er factor from a three6phase system. I order to raise the po"er factor to 0.8 laggig laggig ad to supply eeded additioal po"er! a sychroous sychroous motor is added . his motor dra"s -00 3+! brigig the e" total plat load to 800 3+. eglectig the losses of the sychroous motor! calculate the exact reuired 3,A ratig. A. --.2$ Wva &. -$5.-$ 3,A %. --.-$ 3,A (. -0.-5 3,A Problem 80: A iductio motor load of 1500 3+ cosists of several uits i parallel! operatig at a average po"er factor of 0.80 laggig. I order to improve the po"er factor! a portio of the iductio motor loads is to be replaced by a sychroous motor! motor! operatig operatig at the same efficiecy as the the iductio motors motors ad at a po"er factor of 0.0 leadig. Eid the 3,A ratig of the sychroous motor reuired brigig the po"er factor of the total load to 0.0 laggig. Assume Assume the iductio motor load! "hich has to be replaced! operates at the same pf as the iductio motor group. A. --2 3,A &. -25 3,A %. -00 3,A (. -22 3,A Problem 81: A alterator rated 5-063,A! is operatig at 0.0 pf laggig. A sychroous codeser is i parallel to improve the pf to 0J laggig. (etermie the operatig po"er factor of the sychroous codeser. Assume Assume the alterator is ot supposed to be overloaded. A. 0. 0.5$ leadig &. 0. 0.$$ leadig %. 0. 0.$- leadig (. 0. 0.5- leadig Problem 82: A over6excited sychroous motor is coected across a 150 3,A! 3,A! 0.0 laggig po"er factor load. he motor ta3es 12 3+ "hile ruig o o6load. %alculate the 3,A 3,A ratig of the motor reuired i order to brig the overall pf of the motor6iductive load combiatio to uity. A. 10.22 &. 10.8 %. 110.20 (. 105.58 Problem 8-: A idustrial load ta3es 250 3+ at 0J pf from a 00 ,! 0 /B! -6phase feeder. It is desired to raise the pf of the etire feeder to 0J by meas of a sychroous motor! motor! "hich at the same time is to drive a dc compoud geerator! reuirig reuirig that the sychroous motor ta3es 0 3+ from the lie. (etermie the reuired curret ratig of the sychroous motor. A. 15.5- A &. 18$.- A %. 12.5 A (. 188.$$ A Problem 8$:77 &oard April 18 A existig idustrial plat has a average load of 00 3+ at 0. pf laggig. o raise the overall po"er factor to 0.2! a sychroous motor drivig a (% geerator is to be istalled. If the iput of the sychroous motor "ill be 250 3+! calculate its 3,A iput ratig. A. 5- 3,A &. 88 3,A %. 2- 3,A (. 15 3,A
TEST 2" – *4LTS N ELECT0(C*L S5STE% Problem 85: I symmetrical compoets! "hat is the vector sum of 1 = a = a 2# A. 1 &. 0 %. '1 (. Ifiity Problem 8:77 &oard ctober 18
If the load of a "ye6coected trasformer are: la< 10 10 cis cis >6-0 >6-0?? l b< 12 cis 215 l c< 15 cis 82 +hat is the phase b positive seuece compoet# A. 1-.$ 1-.$ cis >6>6-2.2? .2? &. 10 10.2 cis cis 2$0 %. 12 12.2 .2 cis 208. 208.$ $
(. 12.2 12.2 cis >6>6-1.? .?
Problem 8: Oive three ubalaced three6phase voltages: ,a < 150 = *0 , , b < 60 ' *120 , ,c < 6120 = *0 , (etermie ,a1. A. 1$2.$- = *12.-5 &. 1-5.-2 ' *21.-$ %. 1$5.2 = *1-. (. 1$0.2- ' *.-2 Problem 88: 77 &oard Carch 18 he three6 phase ubalaced currets are: la < 10 cis >6-0? >6-0? l b < 0 lc < 10 cis 150 Eid the egative seuece curret of phase a. A.
8. cis -0
&.
5. cis >60?
%.
Problem 8: 77 &oard ctober 18$ Oive the follo"ig currets: la < 0 = *0 A l b < 6-6 *$8 A Dolve for the egative seuece compoet of l a. A. 8. 8 .$1 ' *1.5$-
&. . .$- = *1.-$
65.
(.
5.
lc < 6$8 = *- A
%. . .51 ' *1.$$
Problem 80: 77 &oard ctober 18 he three6 phase ubalace currets are: la < 10 cis >6-0? >6-0? l b < 0 lc < 10 cis 150 Eid the Bero seuece curret. A. -.-- cis -0 &. 0 %. 5.
(.
Problem 81: 77 &oard ctober 18$ Oive the follo"ig currets: la < 0 = *0 A l b < 6- 6- ' *$8 *$8 A lc < 6$8 = *- A Dolve for the Bero seuece compoet of l a. A. 10 = *$ &. 8 ' * %. 68 ' *$
(. 8. 8.-5$ = *1.0-$
-.--
(.
12 ' *
Problem 82: 77 &oard ctober 1 he seuece curret of phase a curret are as follo"s: )ero seuece curret < 1$.1-∠ 1$.1- ∠1.-$o Positive seuece curret < 2.8∠ 2.8 ∠10.0o egative seuece curret curret < 08.2∠ 08.2 ∠6-1o (etermie phase a curret. A. 20∠6-0o &. -0∠615.2o %. 10∠88o
(.
5∠15.2o
Problem 8-: 77 &oard ctober 18 A seuece compoet compoet of phase a curret are: )ero seuece compoet < 0.$ = *1.$ Positive seuece compoet < 18.$ cis >6-1.? egative seuece compoet compoet < -.2- cis 18.2 (etermie the phase b curret. A. 18 cis 215 &. 15 cis 2$0 %. 1 cis 220
(.
20 cis 225
Problem 8$:77 &oard Carch 18 he seuece compoets of phase a curret are: )ero seuece < 0.$ = *1.$ Positive seuece < 18.$ cis >6-1.? egative seuece < -.2- cis 18.2 (etermie phase c curret. A. 1.5 cis 1 &. 18 cis 215
%.
22.5 cis 82
(.
15 cis 100
Problem 85: 77 &oard April 12 (etermie the symmetrical compoets of the lie curret i lie \a if oe of the i phases impedace of its delta6 coected load coected across lies \ca is removed. he delta load "ith impedace of 10 ∠0o ohms per phase is supplied from from a 220 volts! 0 cycle! cycle! -6 phase. Assume Assume a phase seuece of a6b6c. A. la1 < 11 A! la2 < 11 A! la0 < 0 A &. la1 < .-- A! 1 a2 < .-- A! l a0 < .-- A %. la1 < 22 A! la2 < 22 A! la0 < 22 A (. la1 < 25.$ A! l a2 < 12. A! l a0 < 0 A Problem 8: 77 &oard April 11 A star6 coected balaced load ta3es 5 A from a balaced -6 phase! $6 "ire supply. supply. If the t"o supply lies of the fuses are removed determie the symmetrical compoets of the lie currets after the fuses are removed. A. l1 < 25 A! l2 < 25 A! l0 < 25 A &. l1 < 25 A! l2 < 50 A! l0 < 0 A %. l1 < 5 A! l2 < 5 A! l0 < 5 A (. l1 < 5 A! l2 < 0 A! l 0 < 0 A Problem 8: 77 &oard Carch 18 A 50 C,A! -- 3,11 3,! three6 phase! "ye6 delta coected trasformer has a -J impedace. +hat is the percet impedace at 100 100 C,A base ad -$.5 3, base# base# A. 1.-J &. 5.$J %. 5.$J (. .5J Problem 88: At a certai locatio of a electrical system! the available short circuit C,A is10 at 110 3, "hile its heveis heveis euivalet reactace is 0.05 pu. (etermie the per uit reactace uit of this poit usig a base 20 C,A ad 115 3,. A. 0.08 &. 0.0 %. 0.0 (. 0.0 Problem 8: A 1-.8 3,$$0 ,! 50 3,A sigle6 phase trasformer has a lea3age reactace of -00 ohms referred to the 1-.8 3, side. (etermie the per uit value of the lea3age reactace for the voltage base. A. 0.0$ &. 0.082 %. 0.08(. 0.0 Problem 880: 77 &oard April 180 A 5 3,A! 2$0061202$0 volt distributio trasformer "he give a short circuit test had $.2 volts applied "ith rated curret flo"ig i the short6 circuited "irig. +hat is the per uit impedace of the trasformer# A. 0.0-2 ohms &. 0.0-8 ohms %. 0.0$15 ohms (. 0.0$-5 ohms Problem 881: A -6 phase! -5 3,A! $80 ,! 50 /B! "ye6 coected alterator has a eual positive ad egative seuece reactace of 10J. Eid the symmetrical fault curret! if a -6 phase fault occurs at the alterator termials. A. $510.5 A &. $20.- A %. $255.2 A (. $8.1 A Problem 882: 77 &oard April 12 A geerator rated 00 3,A! 2$00 ,! 0 cycles! -6 phase! 6 poles ad "ye6 coected has 10J sychroous reactace. If a -6 phase fault occurs! "hat "ill be the short circuit curret#
A.
1$$- A
&.
15-2 A
%.
1$-5 A
(.
1$28 A
Problem 88-: A 20 C,A! 1-.8 3,! 0 /B! three6 phase sychroous turbo alterator has a positive ad egative Bero seuece reactaces of 0.25! 0.-5! 0.15 respectively. If lies b ad c are short6 circuited! determie the subtrasiet fault curret i lie b. Assume the alterator is operatig at o load ad at rated voltage "ith the eutral of the alterator solidly grouded. A. 21$ A &. 288 A %. 2$15 A (. 2510 A Problem 88$: 77 &oard Carch 18 At a certai locatio i a electric system! the available fault C,A is $00 C,A. A 15 C,A! -$.5 3,.2$ 3,! 2.5J impedace! "ye6 "ye grouded trasformer is istalled at that locatio. (etermie the short circuit C,A at the secodary side of the trasformer. trasformer. A. 15 C,A &. 150 C,A %. 0 C,A (. 2$0 C,A Problem 885: "o "o three6 phase trasformers are coected i parallel at the primary as "ell as at the secodary sides. e is rated 10 C,A! -$.51-.8 3, ad $J impedace "hile the other is rated .5 C,A! -$.51-.8 3, ad 5J impedace. he primary tappig poit has a -6 phase short circuit C,A of 1000 C,A. (etermie the fault curret delivered to a -6 phase fault at the secodary side bus bars. A. 1-!501 A &. 10!$52 A %. 12!5-2 A (. 11!5- A Problem 88: A 100 C,A! C,A! 22 3, sychroous turbo geerator has positive ad egative reactaces of 0.20 p.u. ad a Bero seuece reactace of 0.05 p.u. he eutral of the geerator is grouded through a reactor of 0.2$2 ohm. (etermie the ratio of the subtrasiet curret for a sigle lie to groud fault to the subtrasiet curret for a three6phase fault. Assume Assume the geerator is operated "ithout a load ad at rated voltage. A. 1.50 &. 1.25 %. 1.00 (. 0.80 Problem 88: 77 &oard ctober 12 A geerator is rated 100 C,A! 15 3,! it is L6 coected! solid grouded ad is operated at rated voltage at o6 load ad is discoected from the rest of the system. Its positive ad egative seuece reactaces are each 0.10 p.u. ad its Bero seuece reactace reactace is 0.05 p.u. %alculate i ohms of iductive reactace reactace to be iserted i the the eutral coectio of the geerator to limit the fault curret for a sigle lie to groud fault to the fault curret of a symmetrical three6 phase fault. A. 0.02-- Ω &. 0.0225 Ω %. 0.0- Ω (. 0.0-25 Ω Problem 888: 77 &oard ctober 182 he reactace of a three6 phase alterator is 8 percet. If the alterator is rated 25 C,A at 1-.25 3, output voltage! lie to phase! solve for the magitude of the fault curret geerated "he a short circuit occurs bet"ee 2 phases at the termials. termials. A. 0$ A &. 1-5 A %. 808 A (. $58 A Problem 88: A -6 phase! -5 3,A! $80 ,! 50 /B! "ye6 coected alterator has a eual positive ad egative seuece reactace of 10J. Eid the usymmetrical fault curret! if a 26 phase fault >lie6to6lie? occurs at the alterator termials. A. -80 A &. -0 A %. $510 A &. $180 A Problem 80: 77 &oard Carch 18 A 5 C,A! 1-.8 3,$80 ,! 5J impedace trasformer is tapped at 1-.8 3, lie "here the heveis euivalet impedace is 4 ohm. (etermie the fault curret at the primary for a three6 phase fault at the secodary. A. 10!500 A &. -!-00 A %. $!200 A (. !050 A
Problem 81: 77 &oard ctober 180 A 10 3,A! 110 ,! -6 phase! $6 "ire! 0 /B alterator geerates 0 volts per phase "he excited to give rated voltage at full load. he armature sychroous impedace per phase is 0.2 ohm. +hat is the curret i each phase if the geerator geerator termials are short6 circuited# circuited# A. -50 A &. 85 A %. 20 A (. 5-$ A Problem 82: 77 &oard ctober 18 At a certai poit of the et"or3 the positive! egative ad Bero seuece impedaces are 0.25 p.u.! 0.25 p.u. ad 0.- p.u. respectively. respectively. he base C,A C,A is 100. he voltage voltage level at that poit poit is -$.5 3,. 3,. (etermie (etermie the Bero seuece curret for a oe lie to groud fault. A. 2255 A &. 81-2 A %. 51 A (. 201 A Problem 8-: I a short circuit aalysis! the positive! egative ad Bero i mpedaces are 0.20 pu! 0.20 pu ad 0.25 pu! respectively! respectively! usig a base C,A of 50. 7stimate the fault curret o the faulted lies if the double lie to groud fault at the 1-8 3, level occurs. A. 120$ A &. 1011 A %. 100 A (. 110$ A Problem 8$: A 15 C,A! !00 ,! 0 /B! L6 coected sychroous alterator has a positive! egative ad Bero seuece per uit reactace of 0.20! 0.20! 0.20 ad 0.10 respectively. respectively. he eutral of the the geerator is grouded through through a reactor "ith a per uit reactace of 0.05 based o the geerator ratig. If a double lie to groud fault occurs at the alterator termials! estimate the curret that flo"s i the reactor. A. 520 A &. 52- A %. 125 A (. -$2 A Problem 85: 77 &oard Carch 18 I a short circuit study! the positive! egative ad Bero seuece impedace are 0.25 pu ad 0.25 pu ad 0. pu! respectively. respectively. he base C,A C,A is 100. (etermie the fault curret curret for a three6 phase fault at at the 115 3, level. A. -000 A &. 2000 A %. 2500 A (. -500 A Problem 8: A three6 phase 2206 ,! L6 coected alterator has a sychroous impedace of 0.15 = *2 ohms per phase. he alterator is coected through a short trasmissio lie "hose impedace per "ire is 2 = *1 ohms to a L6 L coected trasformer ba3 "hose total euivalet impedace referred to the secodary >high side? is 50 = *8. ohms. A three6 phase load is coected from the secodary side of the ba3 through a trasmissio lie "hose impedace is 50 = *5 ohms per "ire. If a symmetrical three6 phase fault occurs at the load side! ho" much is the curret "ill flo" to the alterator "idigs. Assume Assume the ba3 has a trasformatio ratio of 1:10. A. 22.- A &. 2-. A %. 21.5$ A (. 2$.15 A Problem 8: 77 &oard April 18$! 77 &oard April 18 hree sigle6 phase trasformers each rated 50 3,A! 2$00 volts primary! 2 volts secodary! four >$? percet impedace have their their primaries coected i delta ad secodaries i i "ye. %alculate the fault curret curret dra" if a short circuit occurs bet"ee t"o phases at the secodary termials. A. 220 A &. 2585 A %. 20- A (. 225 A Problem 88: 77 &oard ctober 18 ;a ode ña (istillery Ic.! located i %alubag! %alamba! ;agua istalled a emergecy -6 phase geerator! -6 "ire OC geerator is rated -50 3,A! 3,A! $0 volts! 0 /B "ith a reactace of 8J. Dolve for the symmetrical -6 phase short circuit. A. 5!-21 A &. 5!0- A %. 5!28$ A (. 5!$1 A Problem 8: 77 &oard ctober 1 A 15 C,A! C,A! -$.5 3,.2$ 3, trasformer is coected at a ifiite bus. he percet impedace of the trasformer is 2.5J. +hat is the curret at the -$.5 3, side for a three phase short at the .2$ 3, side# A. 55!500 A &. 10!000 A %. 5!000 A (. 25!000 A
Problem 00: 77 &oard April 185 A three6 phase! -6 "ire geerator is rated -25 3,A! 3,A! $80 volts! 0 /B "ith a reactace of eight >8? percet. Dolve for the fault curret delivered y the geerator durig a 26 phase short circuit at the termials. A. $2-2 A &. $$2 A %. $012 A (. $15 A Problem 01: he secodary side of 5 C,A! -$.51-.8 3,! -6 phase trasformer is coected to a bus bar served by a 20 C,A! 1-.8 3,! -6 phase alterator. he primary side of the trasformer is tapped from a ifiite bus. 7stimate the fault curret delivered to a -6 phase fault ear the commo bus bar. he trasformer ad alterator have $J ad .5J reactace! respectively. respectively. A. 12!0 A &. 18!00 A %. 15!-$0 A (. 1!$00 A Problem 02: (etermie the miimum rupturig capacity of the circuit brea3er as sho"! if a three6 phase symmetrical fault occurs at poit P. A. -0 C,A &. 20 C,A %. 10 C,A (. 15 C,A Problem 0-: Oive the oe lie diagram as sho"! determie the curret delivered by geerator A "he a three6 phase fault occurs at poit P. A. 12.5 A &. 1.1 A %. 1$5.5 A (. 18.$ A Problem 0$: Oive the oe lie diagram as sho"! determie the reactace of the limitig reactor x i order to limit the three6 phase symmetrical fault po"er at poit P to $00 C,A. A. &. %.
0.5 0.52 0.$
&.
0
TEST 2$ # (LL4%(N*T(N Problem 05: 77 &oard April 12 A piece of paper lies o the table 2m a"ay from a poit directly belo" a bulb of 100 cd ad is $ m above the table. %alculate the illumiatio o the ceter of the paper i lux. A. 5.2 &. . %. $.5 (. -.$ Problem 0: A ushaded lamp is m above a table. It is lo"ered do" by 2 m. &y ho" much is the illumiatio o the table icreased# A. 2.0 times &. 2.25 times %. 2.50 times (. oe of these Problem 0: 77 &oard April 18 A medium ushaded lamp hags 8 m directly above the table. o "hat distace should it be lo"ered to icrease the illumiatio to $.$5 times to its former value# A. $.02 m &. -.8 m %. -. m (. $.21 m Problem 08: A ushaded lamp is placed 5 cm from the scree of a photometer. If a glass is placed bet"ee the scree ad the lamp! the lamp must be moved 5 cm closer to the scree to produce the same illumiatio as before. he glass bloc3s "hat percet of the light produced by the lamp#
A.
11.5J
&.
10.2J
%.
12.$J
(.
.08J
Problem 0: 77 &oard April 1$ A floodlight floodlight emittig 25!000 cadelas i the ceter of its beam is aimed at 0 o to a poit o the groud 20 meters a"ay. he illumiatio of the poit i lux is A. 5$.12 &. 2.5 %. -1.25 (. 25 Problem 10: A u3o" lamp placed m from a photometer scree provides the same illumiatio as a 06cd lamp placed $ m from the scree. +hat +hat is the cadlepo"er cadlepo"er of the u3o" lamp# lamp# A. 202.5 cd &. 215.2 cd %. 211. cd (. 208.$ cd Problem 11: "o "o lamps A ad & havig itesities of -00 cp ad 500 cp respectively are situated 12 ft apart. A scree is placed bet"ee them i order order that the illumiatios illumiatios o ay sides are eual. eual. /o" much is this illumiatio# illumiatio# A. 11.$5 fc &. 10.2 fc %. 12.$5 fc (. 1-.15 fc Problem 12: 77 &oard April 185 A light is to be placed o a "all i order to obtai maximum brightess of illumiatio. o o achieve this brightess! ho" high high o the "all should should this light bulb bulb be placed to a poit o the floor that is -. m from the the "all# A. 2.5$ m &. 2.25 m %. 2.08 m (. 2.8 m Problem 1-: "o "o lamps x ad y are haged at a distace of 20 ft bet"ee their ceters ad 10 ft above the "or3ig surface. ;amp x gives 1$0 cp "hile lamp y gives 2-0 cp. At "hat distace from a poit directly belo" lamp A o the lie *oiig their ceters "ill the t"o lamps give eual a mout of illumiatio# A. 8.22 ft &. 8.-$ ft %. 8.05 ft (. 8.2 ft Problem 1$: A 1006 cd lamp! "hich emits light uiformly i all directios! is suspeded 2.5 m above the ceter of the "or3ig table! "hich is - m suare. %alculate the illumiatio at each corer of the table. A. 2.5 lux &. 2.- lux %. 2$.$ lux (. 28.-8 lux Problem 15: 77 &oard ctober 11 A lamp lamp of 500 cd is placed at the ceter of a room! 20 m x 10 m x 5 m. calculate the illumiatio illumiatio i each corer of the floor. A. 0.8- lux &. 0.81 lux %. 0.8 lux (. 0.8 lux Problem 1: Eour lamps are suspeded m above the groud at the corer of the la" $ m o each side. If each lamp emits 250 cd! calculate the illumiatio at the ceter of the la". A. 20.5 lux &. 22.-$ lux %. 21.2 lux (. 1.85 lux Problem 1: 77 &oard ctober 11 A lamp lamp of 500 cd po"er is placed at the ceter of a room! 20 m x 10m x 5 m. %alculate the illumiatio i a poit i the middle middle of a 10 m "all at a height of of 2 m from the floor. A. $.5 lux &. $.8 lux %. $. lux (. $.88 lux
Problem 18: 77 &oard ctober 12 ;umiaries of 2000 lumes output "ill be istalled i a room. he desired illumiatio is 200 foot6cadle. he coefficiet of utiliBatio is 0.$5 ad maiteace factor is 0J. (etermie the umber of lumiaries eeded if the siBe of the room is 120 m 2. A. -0 &. 28 %. -2 (. - Problem 1:77 &oard ctober 1A hall -5 x 20 m is to be provided "ith a geeral illumiatio of 1-0 flux. If the depreciatio factor is 1.$ ad the coefficiet of utiliBatio is 0.50! determie the umber of fluorescet lamp reuired. Assume Assume lumious efficiecy of the fluorescet tube as 50 lumes per "att for 806"att lamp. A. 2 lamps &. 5 lamps %. - lamps (. $ lamps Problem 20:77 &oard April 10 A hall -0 m log ad 12 m "ide is to illumiated ad the illumiatio reuired is 50 meter6cadles. %alculate the umber of lamps reuired ta3ig a depreciatio factor of 1.- ad utiliBatio coefficiet of 0.5 give that the output of the lamp to be used is rated 100 +! 115 lumes. A. -0 &. 2 %. 28 (. 2 Problem 21:77 &oard April 1A room 20 m x 10 is to be illumiated by eight lamps ad the average illumiatio is to be 50 lumes per suare meter. If the utiliBatio factor is 0.$8 ad depreciatio factor 1.2! calculate the mea spherical po"er per lamp. A. 2$ cp &. 255 cp %. 2-5 cp (. 22$ cp Problem 22:77 &oard ctober 11 It is reuired to provide a illumiatio of 150 meter6cadle i a factory hall $5 m x 15 m. Assume that the depreciatio factor is 0.80! coefficiet of utiliBatio is 0.$0 ad efficiecy of the lamp is 20 lumes per "att. %alculate the umber of 250 + lamps. A. 0 &. 2 %. (. 1 Problem 2-:77 &oard Carch 18 he illumiatio of a room is beig desiged. he data as follo"s: @oom legth < -0 ft @oom "idth < 20 ft %oefficie %oefficiett of utili utiliBatio Batio < 0. 0. Caiteac Caiteacee factor factor < 0J @euired foot6cadle < 50 ;umes per lamp < --00 +atts per lamp < 5,oltage < 220 Po"er factor < 5J +hat is the total curret curret of the lamp reuired to satisfy satisfy the reuiremet# A. 21 A &. 15 A %. A (. 25 A Problem 2$:77 &oard ctober 18 he floor area of a room is 10 meters by 10 meters. he desired illumiatio level is 150 lux. Assume Assume the coefficiet of utiliBatio is 0.51! the maiteace factor is 0.5 ad i the mar3et a fluorescet lumiaire provide 1200 lumes output of light. (etermie the umber of lumiaires eeded for the room. A. 2$ lamps &. 28 lamps %. 25 lamps (. 2 lamps
TEST 2' – ELECT0(C*L P6E0 P6E0 PL*NT Problem 25:77 &oard Carch 18 A deep "ell pumps "ater ito a ope reservoir at the rate of 100 gpm. he "ater table is 200 ft belo" the output pipe. he system has a overall efficiecy of 0J. +hat shall be the miimum hp of the pump# A. 5.- hp &. 8. hp %. 12.$ hp (. .2 hp Problem 2:77 &oard Carch 18
A pump reuires 100 hp to move "ater "ith a specific gravity of 1.0 at a certai flo" rate to a give elevatio. +hat horsepo"er does the pump reuire if the flo" rate ad elevatio coditios are the same but the fluid pumped has a specific gravity of 0.8# A. 80 hp &. 100 hp %. 0 hp (. 120 hp Problem 2:77 &oard April 1A electric motor is used to pump "ater from a "ell $0 ft deep. he amout of "ater pumped per hour to the groud level is 2-!000 gallos. +hat is the hp of the motor assumig there is o po"er loss# A. $- hp &. $2 hp %. $1 hp (. $0 hp Problem 28: A pump! drive by $$0 ,! -6phase iductio iductio motor lifts 1!100 cubic feet of "ater per miute agaist a total head of 100 ft of "ater. he he efficiecy of the pump ad that of its motor are 0.5 ad 0.2 respectively. respectively. he po"er factor of the motor is 0.. %alculate the cost of operatig the pump f or 2$ hours a day duty "he po"er costs per P 0.-0 per 3+6hr. A. P 1!2&. P 2! 0-5 %. P 1!1 (. P 1! 05 Problem 2:77 &oard ctober 18-! 77 &oard &oard ctober 10 A atural "aterfalls! 50 meters high! cosistetly discharges discharges 1.- m - per secod. A mii hydroelectric plat is to be costructed at the bottom of the "aterfalls. %alculate the electric geerator 3+ ratig! assumig 0J mechaical to electrical coversio efficiecy ad "ater turbie desig efficiecy of 0J. A. $01.2 &. $10.55 %. $20.$2 (. $25.10 Problem -0:77 &oard Carch 18 A po"er plat gets "ater from a dam from a height of 122.$5 m at the rate of 1000 cubic meters per miute. If the output of the plat is 15!000 3+! "hat is the plat efficiecy# A. 80J &. 0J %. 5J (. 5J Problem -1:77 &oard April 15 %alculate the curret ta3e by a motor at $$0 , havig a efficiecy of 0J. Coreover the motor is used to drive a pump! "hich lifts 2$0!000 3g of "ater per hour to a height of -0 meters. he pump is give to be 80J efficiet. A. 58 A &. 5 A %. 8- A (. 2 A Problem -2:77 &oard April 1$ A three6phase three6phase motor drive pump at 1!800 rpm is dischargig 500 gpm of "ater at a head of 25 meters. he pump efficiecy is is 5J. (etermie the hp of the the motor. A. 15 hp &. 12 hp %. 1$ hp (. 10 hp Problem --:77 &oard April 1A hydroelectric hydroelectric statio has a turbie efficiecy of 80J ad a geerator efficiecy of 85J. (etermie the volume of "ater reuired "he deliverig a load of $0 C+ for hours if its effective head is 120 m. +ater "eighs 1200 3gm -. A. 8!$2$ m- &. $5!-52 m- %. 8$5!0$1 m(. 05!$12 mProblem -$: A hydroelectric hydroelectric po"er plat is to be costructed. he place has a aual raifall of 10 cm. he available catchmet area is 250 s. 3m "ith a available head of -0 meters. the average! oly 85J of the raifall ca be collected i ad 0J of the impouded "ater is available for po"er. Assumig Assumig turbie ad geerator efficiecies of 80J ad 2J respectively! respectively! "hat "ill be the average po"er geerated. A. 2!-.5 2!-.5 3+ &. 1!-. 1!-. 3+ %. 1!$1 1!$1.2 .2 3+ (. 2!0- 3+ Problem -5:77 &oard Sue 10! 77 &oard April 11
A 100 C+ hydroelectric statio is supplyig full load for 10 hrs. i a day. %alculate the volume of "ater! "hich has bee used. Assume effect effective head of the "ater as 200 m ad the overall efficiecy of the statio as 80J. Assume 1 m - of "ater < 1000 3g. A. 2!2-2!$-5 m&. 2!2-!50 m%. 2!-$5!$5 m(. 2!-1!$02 m Problem -: A farmer has a small stream o his property! property! "hich he thi3s might supply eough po"er to light his farm load. he stream "as foud to be flo"ig at 0.05 m -sec. he available fall is 5 m. a small hydraulic turbie ad geerator "ill have a combied efficiecy of 5J. Assumig a trasmissio lie efficiecy of 82J! ho" may 506 + lamps ca be served by the geerator simultaeously# simultaeously# A. 28 28 lamps &. -2 -2 lamps %. - - lamps (. -0 -0 lamps Problem -:77 &oard April 1$ A "aterfall is 0 meters high. It discharges at a costat rate of 1.0 cubic meter per secod. A mii6hydro mii6hydro electric plat is to be costructed belo" the "aterfalls. he turbie efficiecy is 80J ad the geerator efficiecy is 5J. %alculate the 3+ output of the geerator. A. $$.-$ 3+ &. $$.22 3+ %. $5.2 3+ (. $1.-0 3+ Problem -8:77 &oard April 18 Caria %ristia falls located at south has a height of 100 meters! it discharges at costat rate 2.5 m -sec. atioal Po"er corporatio corporatio has costruct costruct a hydroelectric plat belo" belo" the "ater falls. If the turbie turbie efficiecy is 0J ad geerator efficiecy is 0J! calculate the aual eergy i 3+6hr! if the discharge rate is costat throughout the year. Assume specific gravity costat. A. 1-!5-$!85 &. 1-!$!5$ %. 1-!55!5$ (. 1-!50$!2-1 Problem -:77 &oard ctober 18-! 77 &oard ctober 10 A atural "aterfall! 50 meters high! cosistetly discharges discharges 1.- m - per secod. A mii hydroelectric plat is to be costructed at the bottom of the "aterfalls. %alculate the aual eergy i 3+6hr 3+6hr that ca be geerated by the po"er plat. Assume Assume the turbie ad ad geerator efficiecies efficiecies eual to 0J ad 0J! 0J! respectively. respectively. A. -!51!0 &. -!2!-5 %. -!12!212 (. -!-$5!815 Problem $0: A "ater turbie operatig at 85J efficiecy is uder a head of 100 m. If the costat discharge is 1000 galsec! evaluate the operatig speed of the turbie. A. $0 rpm &. 5$ rpm %. - rpm (. 08 rpm Problem $1: A mii6 hydroelectric hydroelectric po"er plat is uder a head of 25 feet. he turbie efficiecy is 0.85 ad the geerator efficiecy is 0.80. If the turbie speed is limited to $50 rpm! calculate the geerator 3+ output. A. -$02 &. -$8 %. $02$ (. -02 Problem $2: 77 &oard ctober 1 A po"er plat gets "ater from a dam from a height of 100 meters at the rate of 1000 cubic meters per miute. If the overall efficiecy of the plat is 5J! "hat is the 3+ output of the plat# A. !550 3+ &. 15!250 3+ %. 12!250 3+ (. 5!250 3+ Problem $-: 77 &oard ctober 1 A po"er plat cosumes cosumes 100!000 pouds of coal per hour. he heatig value of the coal is 12!000 &9 per poud. he overall overall plat efficiecy efficiecy is -0J. +hat is the the 3+ output of the the plat# A. 105!500 3+ &. 205!000 3+
%.
1$2!500 3+
(.
15!000 3+
Problem $$: A po"er plat has a fuel cosumptio of 1 poud per 3+6hr geerated. (etermie the heatig value of the fuel used i &9 per poud. he overall efficiecy of the plat is -J. A. 10!000 &. !500 %. !800 (. 10!050 Problem $5: 77 &oard ctober 18 A certai coal6 fired po"er plat has a heat rate of 2.88 x 10 calories per 3+6 hr. %oal costs P 2!500 per to. /o" much is the fuel cost compoet of producig 1 3+6hr# Assume Assume the heatig value of coal used eual to 1-!000 &9lb. A. P 2.50 &. P 1.5 %. P 1.00 (. P 1.25 Problem $: A 100 C+ thermal plat has a overall efficiecy of -$J. If the coal used has a heatig value of 10!800 &9 per poud! calculate the coal cosumptio of the plat per 3+6hr output. A. 0.8$ lb &. 0. lb %. 0.8 lb (. 0.- lb Problem $: 77 &oard ctober 1 A coal po"er plat has a overall plat efficiecy of 28J. %oal "ith a heatig value of 12!000 &9 per poud cost P 1.50 per poud. +hat +hat is the fuel cost pf producig producig oe 3+6hr# 3+6hr# A. P 1.0 &. P 1.52 %. P 1.5 (. P 1.2 Problem $8: A po"er plat has a overall efficiecy of -0J. If this plat ca cosumed $200 3ilograms of coal per hour! estimate the total electric eergy produced i oe day. Assume Assume the calorific value of the coal beig used is 8000 3cal per 3ilogram. A. 18- C+6hr &. 18 C+6hr %. 155 C+6hr ( 1 C+6hr Problem $: 77 &oard April 1$ A plat has a total operatig capacity of 800 3+. he coal cosumptio is 100 lbs per hour. he heatig value of the coal is 500 &9 per lb. +hat approximate percet of the heat i the coal is coverted ito useful eergy# A. 12.&. 15.0 %. 8. (. 1.5 Problem 50: 77 &oard ctober 1 A 100 C+ coal6 fired po"er plat has a average heat rate of 500 &9 per 3+6hr. 3+6hr. the plat load factor is 5J. he heatig value of the coal is 12!000 &9 per poud. %alculate the amout of coal usage for oe day. A. 1.$25 x 10 po pouds &. 2.2-5 x 10 pouds 5 %. 2.2-5 x 10 po pouds (. 1.82 x 10 pouds Problem 51: 77 &oard ctober 18 A diesel geerator set burs diesel "ith a heatig value of 18!000 &9 per poud. he diesel egie has a efficiecy of -0J ad the alterator has a efficiecy of 5J. (etermie the fuel cost compoet of producig oe 3+6hr if diesel costs P 2.80 per poud. A. P 0.15 &. P -.28 %. P 2.15 (. P 1.8 Problem 52: A diesel electric geeratig uit supplies a load at 0 3+. he heatig value of the oil used is 12!000 3cal per 3g. If the overall efficiecy efficiecy of the uit is $0J $0J determie the mass of oil reuired per hour. hour. A. 11.8 3g &. &. 10.- 3g %. %. 12.5 3g (. (. . 3g Problem 5-: 77 &oard April 1-
A 500 3+ electric lightig cost P 1000 per 3+ istalled. Eixed charges are 1$J! operatig cost is P 1.50 per 3+6hr. 3+6hr. he he plat averages 150 150 3+ for 5000 hours hours of the year! $20 3+ for 1000 hrs ad 20 3+ for the remaider. +hat +hat is the uit cost productio of electric eergy# A. P 1. &. P 1.8$ %. 2.15 (. 2.05 Problem 5$:77 &oard ctober 18 A coil fired Po"er Plat "ith -000 3+ rated capacity costs P 15!000 per 3+ istalled. Aual Aual operatig cost p 12 millioT aual maiteace maiteace cost P 8 millioT aual depreciatio depreciatio P 15 millioT iterest iterest o ivestmet per year 8J ad cost of coal P 800 per to. If oe poud of coal is eeded to geerate 1 3+6hr! fid the total aual cost to operate the plat. Plat capacity factor is 50J. A. P $.$5 millio &. P $-.-8 millio %. P $0.28 millio (. P $2.-2 millio
Problem 55:77 &oard ctober 18 o produce produce oe 3+6hr! a po"er plat burs 0. lb of coal "ith a heatig value of 1-!000 &9. +hat is the heat rate of the plat# A. ! !250 &93"6hr &. ! !550 &93"6hr %. 11!00 &93"6hr (. 8!00 &93+6hr Problem 5: 77 &oard Carch 18 he curret loads of four circuits are as follo"s: %ircuit o.1 < 25 amperes %ircuit o. 2 < -8 amperes %ircuit o. - < 18 amperes %ircuit o. $ < $5 amperes If the diversity factor is 1.5! "hat is the miimum ampacity of the feeder coductor# A. 12 A &. 18 A %. 8$ A (. 152 A Problem 5: 77 &oard ctober 18 he po"er costumer has four feeder circuits of 220 ,! ,! three6 phase. he circuits have maximum demad as follo"s: %ircuit o. 1 < -5 A %ircuit o. - < 2 A %ircuit o. 2 < $ A %ircuit o. $ < 5 A he diversity factor is 1.5! determie the maximum 3,A demad "ith the costumer. A. $ &. 2.5 %. 80 (. 5Problem 58: 77 &oard April 180 A substatio substatio trasformer is to servig the follo"ig loads: %lassificatio otal load (emad factor ;ightig -00 3+ 0J Po"er 1200 3+ 80J /eatig 500 3+ 0J If the diversity factor amog the load types is 1.5! determie the maximum demad o the trasformer. A. 2000 3+ &. 100 3+ %. 1225 3+ (. 1180 3+ Problem 5: 77 &oard ctober 18 he po"er costumer has four circuits of 220 ,! three6 phase. he circuits havig maximum demad as follo"s: %ircuit o. 1 < -5 A %ircuit o. 2 < $ A %ircuit o. - < 2 A %ircuit o. $ < 5 A
he diversity factor is 1.5 A! the load factor is 50J ad the po"er factor is 80J. +hat is the approximate 3+ demad of the costumer# A. 15 3+ &. $- 3+ %. 21 3+ (. 5- 3+ Problem 0: A idustrial plat has a aggregate load of 100 3+. he demad factor is 0J. If the average total eergy cosumptio of the plat i oe year is 18 C+6hr! C+6hr! "hat I the yearly load factor of the plat# A. -2.$5J &. $2.25J %. -8.J (. -5.-J Problem 1: Po"er plat has t"o 5 C+ geerator sets each operatig at 200 hours per year ad a 50 C+ geerator set operatig at -000 hours per year. If the plat output is 800 x 10 3+6hr per year! solve for the plat use factor. A. -.$J &. 5.0J %. 8.-J (. 0.J Problem 2: he average "ee3ly eergy geerated by a thermal plat is !000!000 3+6hr. 3+6hr. he pea3 load of the plat is 5!000 3+ durig the "ee3. If the plat has a istalled capacity of 100 C+! solve for the load factor of the plat. A. $8.2J &. 5.-$J %. 50.$$J (. 55.55J Problem -: 77 &oard April 10 A certai po"er plat has reserve capacity above the pea3 load of 10 C+. he he aual factors are load factor < 5J! capacity factor < $1J ad use factor < $J. (etermie the istalled capacity. capacity. A. --.$5 C+ &. -1.85 C+ %. -2. C+ (. -0.$ C+ Problem $: 77 &oard April 10 A certai po"er plat has reserve capacity above the pea3 load of 10 C+. he he aual factor are load factor < 5J! capacity factor < $1J ad use factor < $J. (etermie hours per year ot i service. A. 52 hours &. 5 hours %. 2$ hours (. - hours Problem 5: 77 &oard April 1A cetral geeratig statio has a aual factor report as follo"s: f ollo"s: Plat capacity factor < 50J ;oad factor < 0J 9se factor < $5J @eserved < 10!500 10!500 3+ (etermie the rated capacity of the statio. A. -!000 3+ &. 0!000 3+ %. 5!000 3+ (. 0!000 3+ Problem : 77 &oard ctober 10 A 55!000 3+ thermal plat of atioal Po"er %orporatio delivers a aual output of 28-!000!000 3+6hr "ith a pea3 load of $$ C+. +hat +hat is the capacity factor# A. $.$J &. $2.$J %. $8.2J (. $$.J
Problem : A thermal po"er plat has t"o geeratig sets rated 00 3+ ad 800 3+ respectively beig operated at rated capacity. capacity. he total coal cosumptio is 80 3g per hour. If the coal has a heatig value of 20!000 *oules per gram! "hat fractio of heat produced from the coal is coverted ito useful electrical eergy# A. -.0J &. $0.20J
%.
--.J
(.
-8.28J
Problem 8: 77 &oard ctober 18 he meterig of a po"er customer "as read ad gave the follo"ig data: 3+6hr < 200!000 3,A@6hr < 180!000 Caximu Caximum m (ema (emad d < -80 3+ &illi &illig g (ay (ayss < -0 -0 +hat is the load factor# A. 8J &. -J %. 80J (.
2J
%(SCELL*NE4S TP(CS – TEST 2) Problem : 77 &oard ctober 18! 77 &oard ctober 1A electric truc3 is propelled by a (% motor drive by a 1106 , storage storage battery. he truc3 is reuired to exert a tractive effort of 220 lb at a speed of 56mph. he overall efficiecy of the motor ad drive is 0 percet. +hat curret is ta3e from the battery# A. 25.2$ A &. 28.$5 A %. -0.22 A (. 2.18 A Problem 0: 77 &oard ctober 10 A electric motor drive coveyor belt 80 feet log is reuired to ta3e 2!200 lbs of dirt! roc3s! etc per miute from a excavatio site ad raise it 15 ft vertically. If all frictio i the machiery is eglected! "hat hp of motor is reuired# A. 1.5 &. 1.0 %. 2.0 (. 2.5 Problem 1: 77 &oard Sue 10 A electric motor is eeded to drive a escalator i a departmet store. he escalator is - i "ide ad ca accommodate t"o >2? riders side by side hece the loadig ca be cosidered as uiformly distributed "ith 250 lbft. ;iear speed is 80 ftmi. the escalator agle is -8 o ad its liftig height is .5 meters. Cechaical efficiecy of the system is 0J. (etermie the motor siBe i hp. A. 21.5&. 22.01 %. 1.$2 (. 20.8$ Problem 2: 77 &oard Sue 10 A electric lift is reuired to raise a load of 5 toe through a height of -0 m. oe uarter of the electrical eergy supplied to the lift is lost i the motor ad gearig. If the time reuired raisig the load is 2 miutes fid the curret ta3e by the motor! the supply voltage beig 2-0 , (%. A. $.8- A &. -.$2 A %. 5.2 A (. .05 A Problem -: 77 &oard ctober 12! 77 &oard April 1$ A coveyor coveyor belt of legth 156m is at -5 o "ith respect to the groud or horiBotal. It ca hold $!000 3g of ore over its total legth ad it travels the distace of its legth i -0 secods. %alculate the po"er ratig of the motor i 3+ that drives the coveyor belt. A. 10.50 3+ &. 11.25 3+ %. 1-.58 3+ (. 12.5 3+ Problem $: 77 &oard ctober 18 +hat is the "or3 i ergs eeded to raise a 106gram "eight 1006m up# A. $. x 105 &. 8 x 10 %. .8 x 10 (. 1. x 10 Problem 5: 77 &oard ctober 10 A electric lift ma3es120 double *oureys i a day ad a load of toes is raised to a height of 100 m i oe ad a half miutes. I the retur *ourey! the cage of the lift is empty ad it completes the *ourey i 0
secods. he "eight of the cage is 00 3g ad the couter"eight is - toes. %alculate the horsepo"er of the motor. Assume the efficiecy of the lift to be 80J. A. $.2$ hp &. 5.5 hp %. 58.0 hp (. 0.$- hp Problem : 77 &oard ctober 18 he po"er reuired by a plae flyig at 5$5 3mhr is 1800 3+. (etermie (etermie the average resistig force i e"tos. A. 11!80 &. 12!$20 %. 11!520 (. 12!0 Problem : 77 &oard ctober 10 A trai "eighig 100 tos is pulled up a 2J grade by 006hp. rai resistace is 1200 lbs. +hat is the speed mph# A. 22 &. 25 %. -2 (. 28 Problem 8:77 &oard April 1A (% series motor operates a crae at ormal voltage ad lifts a load of 26 toe at 50 mmi. (etermie the speed at "hich it "ill lift a load of 56toe. A. -0 mmi &. 20 mmi %. 25 mmi (. 28 mmi Problem : 77 &oard April 1$ /o" log could a 10006hp motor be operated i the heat eergy liberated by 1 cubic 3ilometer of ocea "ater "he the temperature of the "ater is lo"ered by 1 o % if all its heat "ere coverted to mechaical eergy# A. 10 yrs &. 1 yrs %. 182 yrs (. 188 yrs Problem 80: 77 &oard ctober 11 %alculate the miimum rms /P reuired of a ope type electric motor "hich operates at 15 /P load for 8 miutes! 10 /P load for miutes! 20 /P for miutes ad the motor is at rest for 12 miutes after "hich the cycle is repeated. A. 15.00 &. 12.25 %. 10.-2 (. 1.5 Problem 81: 77 &oard ctober 1A trasformer trasformer is desiged to carry -0 times its rated curret for 1 secod. he legth of time that a curret of 20 times the rated curret ca be allo"ed to flo" is A. 0. sec &. 2 sec %. 1.5 sec (. 2.25 sec Problem 82: 77 &oard ctober 1 A three6 phase motor dra"s 50 A of curret at full load. +hat shall be the maximum iverse6time circuit brea3er that may be used for short short circuit protectio# protectio# A. 50 A &. 100 A %. 125 A (. 5 A Problem 8-: 77 &oard ctober 10 A sychroous codeser costs P 1000 per 3,A. If a cosumer is charged at P 25 per aum per 3,A of maximum demad ad the iterest ad depreciatio charges are 10J o the capital ivested! determie his most ecoomical operatig po"er factor. he po"er factor of the cosumer load is 0.80 laggig. Assume Assume o losses i the sychroous codeser. codeser. A. 0.8 &. 0.88 %. 0.8 (. 0.8 Problem 8$: 77 &oard April 182
I a group of - motors! oe dra"s 15 A! the other $0 A ad the third 52 A. +hat siBe of coductor i terms of ampacity must be used for the feeder circuit# A. 120 A &. 10 A %. 1-$ A (. 10 A Problem 85: 77 &oard ctober 12 Oive the follo"ig three6 phase iductio motors operatig at full load. 156hp! 220 ,! 0.5 eff.! 0.80 pf 256hp! 220 ,! 0.0 eff.! 0.0 pf 20 hp! 220 ,! 0.2 eff.! 0.8 pf (etermie the ampacity of the feeder circuit coductors supplyig these motors. A. 18.$ A &. 18-.- A %. 1$.0 A (. 205.0 A Problem 8: 77 &oard April 182 A sigle6 phase motor has rated full6 load curret of 28 amperes. /o" large must be the ampacity of the fuses to be used# A. -5 A &. $2 A %. 0 A (. 8$ A Problem 8: 77 &oard ctober 18 +hat surge arresters omial ratig shall you recommed to protect distributio trasformer i a -$.5 3, grouded system# A. -$.5 3, &. -0 3, %. 22 3, (. 2 3, Problem 88: 77 &oard April 11 A iductio motor is euipped "ith a fly"heel of momet of iertia of $ 3g6m 2 for drivig a rollig mill. If the speed of the iductio motor is 1000 rpm! "hat extra eergy the fly"heel is capable of supplyig "he the load comes to the motor# A. 22 3S &. 20 3S %. 28 3S (. -2 3S Problem 8: 77 &oard ctober 12 A three6 phase! 220 ,! 0 /B iductio motor drives a fa! "hich provides $0 m - sec air reuiremets to a furace. Assume Assume fa efficiecy of 0J ad 150 mm / 2 gauge pressure. (etermie the lie curret dra" by the motor if efficiecy ad po"er factor is 80J ad 0J respectively. respectively. A.
$0 A
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$$ A
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$82 A
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$$2 A
Problem 0:77 &oard ctober 18 A te6 year ivestigatio of a rivers potetial gave a average "ater flo" of 25 cm per secod at the bottom ad 0 cm per secod secod at the surface. he average average cross6 sectio at the same same locatio is 80 s. s. m. "hat is the average flo" rate i cubic meter per hour# A. 15!00&. $ %. 5!500 (. 2!0 Problem 1: 77 &oard April 1-! 77 &oard ctober 1$ A 50 3+ electric lightig costs costs P 1000 per 3+ istalled. Eixed charges charges are 1$J! operatig cost is P 1.50 per 3+6hr. 3+6hr. he he plat averages 150 150 3+ for 5000 hours hours of the year! $20 3+ for 1000 hours ad 20 3+ for the remaider. +hat +hat is the uit cost of producig electric eergy# A. P 2.10 &. P 1. %. P 2.01 (. P 1.82 Problem 2: 77 &oard ctober 10 If the po"er gai i a circuit is 20 decibels. +hat is the actual ratio of the output to iput po"er# A. 200 &. 100 %. 20 (. 10 Problem -: 77 &oard ctober 10
If 20 decibels "ere po"er losses! "hat is the po"er output to iput ratio# A. 0.05 &. 0.01 %. 10 (.
5
Problem $: 77 &oard ctober 12 +hat is the output of a 26d& gai amplifier "hose iput po"er is 25R+# A. 12.5- m+ &. 11.2$ m+ %. 15.2 m+ (. 1$.05 m+ Problem 5: 77 &oard April 11 It is desired to deposit a thic3ess of 1 mm of ic3el o the surface of a "or steel pi 10 iches log ad $ iches i diameter. he available curret is 50 A. the electromechaical euivalet of ic3el is 0.000-8 gmcoulomb ad its relative desity is 8.. %alculate the time reuired. A. 11.-2 hrs &. 12.5 hrs %. 10.08 hrs (. .55 hrs Problem : 77 &oard ctober 18 he use of electricity for meltig a so" i a drive"ay 10 ft "ide by -0 ft log is beig cosidered. At At a 0.20 cets a 3ilo"att6hour! "hat "ould be the cost of meltig iches of so"# Assume Assume the follo"ig data: specific "eight of so"! 10 lb per cu. Et! efficiecy of operatio! 50J. A. P 20.25 &. P 25.-5 %. P 28.$0 (. P -0.Problem : 77 &oard April 10 A car is beig self started agaist a resistig torue of 06m ad at each start the egie is cra3ed at 5 rpm for 8 secods. Eor each start the eergy is dra" from a lead acid accumulator. If the fully charged battery has a capacity of 100 "h per charge! calculate the umber of starts that ca be made "ith such a battery. Assume Assume a overall efficiecy of the motor ad gears as 25J. A. 2 &. 25 %. 20 (. 2Problem 8: 77 &oard ctober 10 I a electric heater! the ilet temperature is 15 o %. +ater is flo"ig at the rate of -00 grams per miute. he voltmeter measurig voltage across the heatig elemet reads 120 volts ad a ammeter measurig curret ta3e reads 10 A. +he steady state is fially reached! "hat is the fial readig of the outlet thermometer# A. 2. o% &. 81.2 o% %. 5.- o% (. 8.8 o% Problem : 77 &oard April 12 A 2-06 volt is supplied to a electric solderig machie "hich dra"s a curret of 0.8 A! fifty6five percet >55J? of the heat geerated is lost i heatig other metal parts of the machie ad i radiatio. he copper6 solderig tip "eighs 150 grams. Celtig poit of solder ' -00 o% Ambiet temperature ' 15 o% Dpecific heat of copper ' 0.0$ calg6 o% (esity of copper ' 8.0 gcc (etermie the time elapsed after s"itchig o the machie before the solderig tip is heated to the meltig poit of solder ad the the machie ready for use. A. -.05 mi &. 2.2 mi %. -.- mi (. $.2$ mi Problem 1000: 77 &oard April 10 A room measures measures m x m x $ m. the air i it has to be r ee"ed t"ice a hour ad is to be maitaied at o least 15 % above the icomig air temperature. Eid the capacity of the heater assumig a loss of 10J of the heat. Assume air desity as 12.8 x 10 6$ grams per cubic cm ad specific heat of air as 0.2$ calg6 o%. A. 10 + &. 15$5 + %. 1-$ + (. 121 +
Problem 1001: 77 &oard April 10! 77 &oard ctober 1A foudatio foudatio -0 ft log! 12 ft "ide ad ft deep is to be composed of a 1:2:$ cocrete. /o" much gravel i cubic yards "ill be reuired# A. 150 &. 10 %. 110 (. 100