Electrostatics Mind Map PDF

Summary

This is a mind map covering the topic of electrostatics, discussing various concepts and equations related to electric fields, potential, and work done. It includes diagrams and formulas which can be used for various problems in physics.

Full Transcript

ELECTROSTATIC POTENTIAL EQUIPOTENTIAL SURFACE
ENERGY ELECTROSTATIC POTENTIAL
2 point charges
2kqQ a)
Q dmin= VA

r r P Vp = 4pe 1
r v mv2 >
Q
ra
0
V=0
Q VB > E
VA=VB>VC
>
VC
Q1 Q2 [ m,q q
Q Large distance fixed
[
1 1
Q A B
VAB=VB-VA= 4pe rb
-
ra >
like charges - positive (repulsive energy) rb 0
1 Q1 Q2
dmin
Equipotential surfaces
U= b)
4 0 r
Unlike charges - negative (attractive energy) WORK DONE
POTENTIAL OF CHARGED CONDUCTING SPHERE
System of charges c) Field lines and equipotential
VA q
VB
n(n-1) w = q[VB-VA] 1 2 surface are perpendicular to
Usystem = Upair No. of pairs =
A B V=KQ
2
q
R each other at every location.
500 -500
Q1 r Q2
4 x 3 A B
w = 1 x (-500-500)= -1000J E=0
3
No. of pairs = = 6
r 2 2
r=R
d) work done in moving a charge
r
r
KQ1 Q2 KQ1 Q4
Total P.E = + +
KQ2 Q3
Superposition of potential - Algebraic sum case 1: Vinside =Const case 2: Vsurface = kQ Voutside = kQ
on equipotential surface is 0
r 2 case 3:
r r2 r2 R r
KQ2 Q4 KQ3 Q4 KQ1 Q3
of all potentials = Vsurface=
KQ
R
Q3 r Q4
+ + +
ZERO POTENTIAL
Redistribution of Charge when two Conducting sphere are connected
r r r
Charge flow from higher
WORK DONE IN REARRANGEMENT OF THE SYSTEM
Q1
potential to lower potential ELECTRIC FIELD & POTENTIAL
a) Like charge-no zero potential point Q2
Final potentials of spheres are equal
Q
r1 r2
1 Q‛1 1 Q‛2
b) Unlike charge- 2 points of zero potential on E=-dV - V - V - V
Q
=
4pe0 r1 4pe0 r2 Ex= Ey= Ez=
r r 2r 2r
3kQ 2
3kQ 2
line joining
(Q1+Q2) r2
dr x y z
a b (Q1+Q2) r1
W = Uf- Ui =
2r
-
r Q1l= Q2l=
r1+r2 r1+r2
Q Q
= -
3kQ 2 Q1 r Q2
V=- E.dr
Q₂ r
r
Q Q
2r
2r Q 1r Q 1‛ r E1 r r2
Inside point = a= Outside point = b= = 1, = 2,
1
=
3kQ2 3kQ2 Q1+Q2 Q1-Q2 Q2‛ r2 E2 r1 2
r1
Ui = Uf =
r 2r

ELECTROSTATICS PHYSICS
WALLAH

DIPOLE ELECTRIC POTENTIAL
2) Umaximum (Unstable equilibrium)
Dipole moment P max
= pE sinq = pE, (q = 90o)
-Q kp Cos q
VP=
q = 180
P +Q
P = q 2l 2l r2 = pE sinq = 0,(q = 0o)
min
Direction is from -Q to +Q
q
+q
Vaxial=
Kp
= 0
Vequitorial
cosq=-1
-q
r2
P=ql 60o
P=ql
WORK DONE U = +pE
2q TORQUE
l l P= 2qlcos30 = 2 3ql( )
o

Uniform field
W= pE (cosq1-cosq2)
Force in Non- Uniform field
Q. Fine net dipole moment - Rotational motion only
qE
-q -q
p
q - No translatory motion POTENTIAL ENERGY p qE2
ELECTRIC FIELD qE

U= -pE cosq
q
E
p
qE1
=PxE
r
Kp = PE Sin q 1) Uminimum(stable equilibrium)
Ep= 3cos2q+1
q r 3
q=0o
Fx = p dE cos q
+Q -Q

cosq=1 dx
Kp qE1 - Both rotatory and
Eaxial=
r3
3 +1 =
2Kp
r3
Oo with dipole moment
p translatory motion U = -pE
Enet from -Q to +Q
qE2 where, dE= small change in field
Eequitorial =
Kp
0 +1 =
Kp 180o with dipole moment at the two locations
r3 r3 Enet from +Q to -Q
Non - Uniform field of the charges