These are workouts Based on the principle of Magneto Geometrical Application.
These are workouts Based on the principle of Magneto Geometrical Application.Full description
Full description
Full description
Agriculture has made an enormous environmental footprint and is making agricultural development risky. Green agriculture uses well developed modern farming and sustainability concepts to improve natural agricultural techniques. It also draws on green
agriculture mcqs questions generally asked in exams
adionics ,n griculture02ml:namespace griculture02ml:namespace prefi2 o /4 * te!e #i!er and $eorge %uepper 5a 17 This article (slightl re!ised from the original) doe s a fair jo* o f descri*ing the routine applications of radionics to farming. ,t was was written as a urrent Topics pu*lication for the TT (ppropriate Technolog Transfer for ural reas) 8roject. TT is a 9# funded funded project whose purpose is the dissemination of information on sustaina*le agriculture. isit (http://www.attra.org/ http://www.attra.org/) ). TT;s 2tension er!ice er!ice or l and&grant colleges. urrentl= radionics= and the related concepts of radiesthesia and homeopath= are largel practitioner&*ased technologies. n e2ception is homeopath= which recei!es some attention in mainstream medical journals. contrast= all three are licensed= medical disciplines in the 02ml:namespace 02ml:namespace prefi2 st1 /49nited %ingdom and s e!eral other >uropean co untries. adionics is contro!ersial *eca use it is a metaphsical science. ,t is not recogni?ed * mainstream agricultural agricultural science@ thus= useful information information is a!aila*le onl from select sources. >!en within the alternati!e (sustaina*le= o rganic) agricultural communities= there is disagreement regarding its utilit and !alidit. Aet= there are man reports of success among those who ha!e gi!en radionics a serious loo'@ and the num*er num*er of practitionersB farmers= gardeners= crop consultants= !eterinariansB appears to *e growing. The o*jecti!e of this discussion is neither to persuade nor dissuade the reader regarding the !alidit of radionics. The purpose= rather= is to shed light on a poorl understood practice that is *eing adopted * a growing num*er of people within sustaina*le agriculture. ,ntroduction: adionics is closel related to the art of dowsing= also called radiesthesia. principal difference is that radionics uses instrumentation. instrumentation. These instruments instruments are sometimes referred to as electronic scanners or C*lac' *o2esC. t its roots= radionics and radies thesia rest on a set o f assumptions:
That there are su*tle fields of e nerg associated with e!erthing in nature. +or the sa'e of !isuali?ation= these might *e thought of as similar to the magnetic fields associated with magnets. That these fields pro!ide the *lueprint for the growth and de!elopment of plants or animals= !ia communication with cellular #D. That these fields a nd their interactions can *e d etected * the human ner!ous sstem. sstem.
This a*ilit is related to the intuiti!e or si2th sense and registers as a neuromuscular reaction upon detection of su*tle fields. This rea ction is sometimes referred to as the Cdowsing responseC. The dowsing response ma ta'e se!eral forms. 5ost o ften it is a slight phsical mo!ement. ,n radionic sstems= the dowsing response manifests for the practitioner as an electrostatic sensation on the finger tips when ru**ing the smooth surface of the instrument detection plate= a change in the swing of a hand&held pendulum= or as gal!anic s'in responseB the change in electrical resistance on the s'in as measured with *iofeed*ac' and lie detector ( polgraph) equipment. adionic instruments are tools that assist the human *od;s natural capa*ilities of su*tle field detection and i nteraction. The facilitate detection through the dowsing response@ help to discriminate among the !arious e nerg patterns@ and measure their field& strengths. The instruments also ha!e qualities that assist i n *ringing a*out desira*le changes in su*tle fields.
u*tle fields and su*tle energies are understood to e2ist on the su*&atomic le !el. s such= the are not designated as part of the electromagnetic spectrum= *ut are !iewed as its foundation and the foundation of all phsical matter. u*tle energies ha!e *een descri*e d in different terms= in *oth traditional mstical and theoretical scientific literature. Eindu= Fapanese and hinese cultures refer to CpranaC= C'iC and CchiC respecti!el. 5odern (http://home.earthlin'.net/Gg'uepper/inde2 in!estigators= such as ldon rd (J) ((http://home.earthlin'.net/Gg'uepper/inde2/adionics.htmHJHJ) refer to CscalarsC. #r. 8hilip allahan= a retired 9..#.. entomologist= states there are almost IKK terms used internationall for the energ measured * radionics instruments (L) (http://home.earthlin'.net/Gg'uepper/inde2/adionics.htmHLHL) . The scientific *asis for su*tle energies can *e found in the field of quantum phsics= which studies the nature of the su*&atomic world. The results of quantum e2periments and mathematical proo fs lead phsicists to the conclusion that the uni!erse is anthing *ut ordinar in the wa it is constructed or in how it wor's. ome phsicists now turn to >astern and astern philosoph= alternati!e medicine= and other metaphsical sstems. These include acupuncture meridians= a cupuncture points= and cha'ras= also 'nown as ple 2es (6) (http://home.earthlin'.net/Gg'uepper/inde2/adionics.htmH6H6) . urope where se!eral c ountries recogni?e it as an al ternati!e medical treatment. ,n the 9nited tates= significant ad!ances ha!e *e en made in non&medical a pplications of radionics such as agriculture and mining. #r. T. $al en Eieronmus (1ML&1MM)= an electrical e ngineer= recei!ed 9.. 8a tent HI=JMI=773= for an instrument used to detect and measure Cemanations from materialsC. Eieronmus instrumentation is the sta ndard * which other merican&made instruments are now gauged. Eieronmus was further in!ol!ed in the creation of the instrument emploed * the agricultural radionics compan 9%N= to successfull control se!eral agricultural pest species o!er large acreages in the late 1JKs and earl 1LKs. ome of these e2periments= in 8ennsl!ania= ri?ona= and alifornia= were conducted in cooperation with count (http://home.earthlin'.net/Gg'uepper/inde2 >2tension agents and +arm ureau wor'ers (7) ( /adionics.htmH7H7) . Nther merican researchers and teachers credited with furthering radionics in agriculture include 8eter %ell= te!e
The asics of gricultural adionics: There are a host of applications for radionics in *oth animal and cro p agriculture. 8rincipal applications fall into three main categories: analsis= e!aluation of materials= and !itali?ation. nalsis adionic analsis pro!ides a status report on the su*tle field associated with a su*ject. That su*ject ma *e a single head of li!estoc' or se!eral at once@ it ma *e a s ingle plant or a large crop acreage. adionic protocols pro!ide guidelines for collecting the appropriate specimens to anal?e different su*jects and su*ject groupings. o mmon specimens used are hair samples from li!estoc'@ and plant tissue and/or soil samples for crops. nalsis re!eals im*alances in the su*tle fields. These im*alances correlate to deficiencies= e2cesses= hperacti!it= and similar pro*lems in the animal or crop. nalsis also ide ntifies dsfunctions in the fields that are associ ated with disease and contamination@ and *ecause su*tle fields are *lueprints for the phsical structure= dsfunctions ma *e detected radionicall well *efore smptoms *ecome !isi*le. s a result= the farmer ma supplement feed rations= or spra a crop to head off an impending pro*lem.
>2ample: n orchardist monitors her trees radionical l to find e!idence of fungal diseases. eca use she does not detect an disease p ro*lems until midwa through the season= earl spras are not applied. This sa!es mone and reduces impact on the en!ironment. >2ample: horse *reeder has a !alua*le a nimal with health pro*lems= and the usual spectrum of testing re!eals nothing. adionic analsis suggests that the pro*lem is a relati!el rare amoe*ic infection. specific c on!entional test confirms this and the proper treatment is gi!en.
>!aluation Nf 5aterials
of their plants and animals= there* reducing the need for pesticides. nother unique application in!ol!ing su*tle field interactions is the matching of se ed to soil . comparing a soil specimen with specimens of !arious crop seed specie s or !arieties= in a radionic instrument= it is possi*le to determine the optimum match of seed to soil.
>2ample: n organic corn producer determines through con!entional and radionic means= that his soil is defici ent in phosphorus. The afforda*le choices of phosphorus fertili?er a!aila*le include *lac'&roc' phosphate and colloidal phosphate. adionic e!aluation indicates that corn= on this soil= should respond much *etter to the *lac'&roc' form. >2ample: *lue*err grower in the N?ar's is tring to reduce her*icide use= *ut is o!erwhelmed * cra*grass. Through radionic e!aluation= he finds that the urea fertili?er he uses stimulates cra*grass to germinate and grow. liquid&*lended fertili?er= also a!aila*le in his area = does not encourage the weed. +urther e!aluation shows the product is just as *eneficial to the *erries as urea. ince the new product is afforda*le= a switch is made= and the weeds quic'l *ecome more managea*le. >2ample: small&scale poultr grower notes that her whole chic'en floc' suddenl seems to doing poorl. ,t could *e due to weather changes= a disease organism= or the latest suppl of purchased feed. adionic e !aluation indicates that there is a pro*lem with the feed. +urther analsis indicates so me of the grain used was tainted with aflato2in.
itali?ation 8erhaps the most difficult aspect of radionics to credit is its a*ilit to !itali?e the su*tle field of a plant or animal * remote *roadcastB thus impro!ing its performance. The procedure is li'ened to that of a radio *roa dcast= with radionic instrumentation ser!ing as the sending station. 9sing a properl&o*tained specimen to achie!e the proper reso nance= a *roadcast ma *e CtargetedC to the su*ject. Fust as music and speech rides the c arrier wa!e from a radio station to a tuned recei!er= !itali?ing or hea ling energ is *elie!ed to *e transported to crop or li!estoc'. The successes of the radionics compan= 9%N (cited earlier)= were a result of radionic *roadcasting. Their approac h in!ol!ed transmitting the energ pattern of a pe sticide through speciall amplified instrumentation to the crop field.
>2ample: farmer with a sand&loam soil determines= through radionic analsis= that an e2pensi!e humic acid product would help to *uild soil humus le!els= as would the
iodnamic preparation HLKK. To encourage natural humus= specimens of humic acid and # LKK are inserted into a Eieronmus tower that has *een installed on the farm. >2ample: race horse= suffering from lung *leeding= will *e disqualified from competing if treated with the appropriate drug. !eterinarian= s'illed in radionics= prepares a water&*ased potenc of the drug= and effecti!el treats the horse without generating side&effects= or incurring disqualification.
ccessing adionics: There are se!eral sstems of radionics *ei ng taught in the 9..= and se!eral models o f instruments are usa*le within each sstem. 8erhaps the most widel 'nown and used is that originating with T. $alen Eieronmus. Eieronmus instruments= and those patterned after his *asic design= al so seem to *e the most eas to o *tain. ,nstruction is also e as to find. 8rices for Eieronmus instruments and clones *egin at a*out Q7LK= and range to QJKKK. The >&L is a computer&enhanced instrument that wor's well within the Eieronmus sstem. ,t is also widel used and costs appro2imatel QIJKK. There are a num*er of instruments *ased on other sstems of radionics= some of them >uropean. Nne source i s open O a*s= which imports instruments and supplies from the ruce open Oa*oratories= in usse2= >ngland. open;s instruments and literature are pro*a*l the *est option for those una*le to attend wor'shops. Oots of printed guides are a!aila*le= with some specific to agriculture. ,nstrumentation designed to wor' within one radionic sstem (e. g.= Eieronmus)= adapt poorl to other sstems. This is most o*!ious when one considers radionic ratesB the num*er codes used on most instruments. ates ha!e *een d e!eloped for plant and animal diseases= mineral nutrients= and a host of factors necessar and useful in agricultural wor'. ate num*ers are entered on the dials of i nstruments for *oth analsis and *roadcasting. +or e2ample= the Eieronmus&compati*le rate for ca lcium is IJ&KJ@ for a >uropean&stle instrument it is 3IKJ. The former emplos onl two dials for a rate= the latter= a minimum of J dials. 8rotocol s used in different sstems ma also !ar. Oi'ewise= instructors s'illed in one radionic sstem= ma *e una*le to pro!ide useful instruction in another. Therefore= it is wise to o*tain an instrument and rate catalog from the person pro!iding instruction= or to spend some time researching these particulars in ad!ance. adionics can *e learned successfull * most indi!iduals. ,nstructors and researchers estimate that *etter than KR of the population possess the intuiti!e a*ilit required. Those suffering ner!ous sstem disorders or injur@ on some forms of medication@ or those ha!ing drug and/or alcohol pro*lems= ma *e una*le to do radionic wor'= howe!er. +urthermore= due to the su*tle nature of the fields *eing e!aluated= the highl s'eptical or hostile indi!idual will also ha!e difficult getting things to wor' properl. ,nstruction tpicall ranges in cost from Q6L to Q1LK per da= and classes ma run from I to J das. eginning classes o ften concentrate on human health applications= with agriculture the focus of intermediate&le!el courses. Training occurs at !arious lo cations around the countr. 5ost instructors and associations maintain mailing lists or newsletters that pro!ide information a*out these classes. 8ri!ate classes and tutoring can sometimes *e arranged with an instructor= though the cost is usuall somewhat higher. The ad!antage is the higher certaint of successful learning= which accompanies the one&on&one en!ironment. Do!ices should plan to attend at least one *asic course. adionics is *oth an art and a science= and some as pects are e2tremel difficult to learn in the a*sence of an instructor. ummar:
adionics has generated considera*le contro!ers in the scientific communit. ,n some states= certain tpes of radionic instrumentation ha!e *een confiscated * the +# and health department authorities when medical claims ha!e *een made. ad ionics is not a legall recogni?ed medical sstem or tool. adionics is a metaphsical science@ and as such is not widel accepted= e !en within alternati!e agriculture. ,t is discounted in mainstream= con!entional agriculture. adionic instruments are highl dependent on the s'ill and e2perience of the operator and= consequentl= the should not *e confused with con!entional scientific or electrical instrumentation. adionics is an a lternati!e diagnostic and management tool for crop and li!estoc' agriculture. s a tool= it is an adjunct to= not a su*stitute for= sound agricultural practice.
eferences: eich= conomic 8ro*lems of iological >nerg. Nrgone ,nstitute 8ress= Dew Aor'. Eieronmus= arah loptic >nerg: The uto*iograph of an d!anced cientist= #r. T. $alen Ei eronmus. d!anced ciences ese arch S #e!elopment= Oa'emont= $. JM p. earden= Thomas >. 1MM. >2cali*ur riefing: >2plaining 8aranormal 8henomena= Ind ed. traw*err Eill 8ress= an +rancisco= . 33I p. rd= >ldon . 1M. calars= 02ml:namespace prefi2 s tI /48art ,. Fournal Nf The 9nited tates 8schotronics ssociation. nerg in griculture. cres= 9...= %a nsas it= 5N. 11L p. $er*er= ichard. 1MM. i*rational 5edicine: Dew hoices for Eealing Nursel!es. ear S o.= anta +e= D5. LL p. Tomp'ins= 8eter= and hristopher ird. 173. hapter 1. adio nic 8esticides= p. 317&3JI. ,n: The ecret Oife of 8lants. Earper S ow= Dew Aor'. JKI p. 5caman= Fa O. 1J. dward
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