Electric

=> Coulomb's
CH-1
Law
Charges and fields
=> Gauss
=> EF due to dipole Theorem &
* Derivation * Desivation. Application
A Force,
* Numerical always
* Derivation.
* Nature of Force. A Numerical.
on short dipole condition.

PRINCE => Electric Flux => EF lines

=
Torque
Intersection. A
Maximum Torque

SIR
*
* Flux enclosed
A Direction ofE A Minimum Torque.
* Total Flux
↓ I * do not form close loop.
sphere square
cube. => Potential Energy of
*
dd E.d5
=

dipole
A table condition

* Unstable Condition.
 CH-2 Potential and
Capacitance
=> Potential difference => Equipotential surface.
A Numerical * Definition A shape
N=
* Work done is treor-ve. *
properties - why 0

*
VA-VB XS-VA is
the,ve.
~
Why EF
1Eg Polential
PRINCE
or
surface.
* X
E dr
=
-

Potential energy of a system

=

SIR of two charges.

# Numerical
I->
v
iTEV
->
= 9,92
-

↑
->

=>
*
Capacitor
Definition * Derivation

Effect ofdielectricon c.

# Energy stored in
a
Capacitor * Derivation partially Filled
For Metal *
* Nemerical *
completely Filled.
* Series and Parallel Dielectric
then capacitance
 CH-5rd Current Electricity *Temples or tes R=?
Drift
-
velocity: V.imp => KCL and CNumerical)
=
* Yd=
IEE Aneld
IF
= Wheat Stone (Numerical)
T
-
-> Numerical, Derivation.
-) slide wire
Bridge (Numerical)
is thick.
<Why Copper strip
PRINCE
-> Relation between various
* Error
↓ ariables.
* Balanced point at Hiddle.
0
Definition ofG, R,
SIR
*

=
Temperature dependence
* R= Ro(I+9(T-To)
Numerical
based Numerical
* graph

s
4
 CH-4th Hoving changes and
Magnetism
*
Charged particle
Path of *M.Fdue to Circular Coil-
Numerical For Center.
* radius
=? Time Period =? + Derivation ->

shape. Loop.
Kn
a *
H.F on the side

PRINCE
morums
A Force between two parallel Eun
Galvanometer Ximp.

Current, the
Ampereo - Theory

SIR S=FgG Rot

>
Derivation = Conversion
- Numerical

-Force on
Ia Sensitivity IS: Xs
A
NAB
=
=

Loop.
*
Torque on a Current loop > Suspension wire properties
Numerical.
->
=) Radial M.F.
 CH 6th
Electromagnetic Induction:
=

=> the direction- Motional emo (Moving & Rotation)

Predict
->

· Numerical on Rotation.

②
* xxxxxx - i

- x x x x x x
-> I
Also for Coil

*
&
xxx x x x
- Self induction and Futual

* x x x x x x ·nduction. - Delivation
* Effect of variables.

PRINCE F Energy stored in an solenoid is 1 1II" Hence show that

=

the
density is
given by "r
ST
energy

= AC generator (Principle, diagram

and
Working).
 CH 7th
Alternating Current -
Q-Factor
=
-
more mrn

=> LCR Series Circuit -

Phasordiagram/Graph.
·
I Cimpedance > Transformer.
Current condition How to minimize losses
·
Maximum ·

(Resonance). ofa transformer

·
Why core

laminated.

PRINCE -
Lamp glowing More or not in case ofinductor.
A.C

SIR
do and
= How inductor a Capacitor pass respectively

CH 8 =

aves
CEN
* Ex Waves

* Source A
Uses
* production

aode

PRINCE
SE