The Free High School Science Texts: Textbooks for High School Students Studying the Sciences Physics Grade 12 Copyright c 2007 “Free High School Science Texts” Permission is granted t…Full description
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Equations of mathematical physics
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The Free High School Science Texts: Textbooks for High School Students Studying the Sciences Physics Grade 11 Copyright c 2007 “Free High School Science Texts” Permission is granted t…Full description
Physics class 12 project on kirchhoff's law . For making model- you have to make a cube using wire . When you finished making it just insert resistor in it. It's a delicate model so hand it with c...
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Magnetic Field Lines of Bar Magnet
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PHYSICS PROJECT
class 12 th physics project
CAPS approved, this popular series has been written by a team of Mechanical Technology specialists who are familiar with the needs of FET learners. They cover all the Mechanical Technology Learning...
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This title will be of outstanding value to learners -- no matter what their experience. With the content aligned to the new FET Schools curriculum and CAPS, the book reflects all the prescri…Full description
lesson plan fisika kelas X
A brief overview of the major topics and equations covered in a first-semester introductory physics course on classical mechanics and Newtonian dynamics.
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Physics project on nuclear physics for class 12. PEACE :)
SPH 4UI Equations These equations may be used directly for any question. If you require other equations you MUST show how those equations came about. Constants 18 3 -2 Ks = 3.35x10 m s
G = 6.67x10 -11Nm 2 kg -2 me = 9.11x10-31kg
m p = 1.673x10 -27kg
30
msun = 1.99x10 kg Mearth = 5.978 x 10 2
2
24
e = 1.602x10 -19 C
3.00x 0x10 108 m/ m/ss c = 3.0
µ0
=
4π x 10−7 T m/A
k = 9.00x109 Nm 2 C -2-2 6
kg rearth = 6.378 x 10 m sin A sin B sin C
2
AC = AB + BC − 2( AB)( BC) cos B
=
a
=
b
x =
c
−b ±
b 2 − 4ac
2a
Chapters #1, 2 – Forces and Motion
∆d = vav ∆t
a av =
∆v
∆t
1 2
2
a∆t
F f = µ F N
v avg =
∆d = v f ∆t −
F g = mg
F net = ma
∆d = v i ∆t +
1 2
2
a∆t
v f 2 = vi 2 + 2a∆ d
v1 + v 2
2
Chapters #4, 5 – Energy and Momentum W = ( F cos θ ) ∆d
∆
E= K
p = Fnet ∆ t v2 ′ =
1 2
2
∆ Eg =
mv
2m1v1
mg∆ h v1 ′ =
(m1 + m2 )
Ee=
1
2
kx
2
F = kx
p= mv
v1 (m1 − m2 )
(m1 + m2 )
Chapters #3, 6: Circular Motion and Gravitational Fields 2 3 m1 m2 −GMm 4π 2 r v r 2 2 ac = K = 2 F g = G Eg = = 4π rf = 2 2 r T T r r Chapters #7, 8: Electric and Magnetic Fields kq q kq kq q kq Fe = 12 2 E E = 1 2 V = V = = 2 r r r r I NI F = IlB sin θ µ = B = µ 0 B 0 2π r L
ε
Chapters #9, 10: v = f λ
λ =
d ∆x L
ε d
F M = qvB sin θ
q = Ne
The Wave Nature of Light
n1 sin θ1 = n2 sin θ 2 sin θ n =
nλ w
∆ x =
Pn S1 − Pn S 2 = n −
λ 2t
L
λ =
w∆y L
1
λ 2
sin θ n =
xn L
= n−
1 λ
2 d
Path Difference = 2 2 t = whole or ½ # of of