Important Questions:

Chapter 11:

Molar specific heat

1st law of thermodynamics (with processes)

2nd law of thermodynamics

Describe Isobaric and Adiabatic process with graphical representation?

Equate the clausius and kelvin statements

Define co-efficient of Linear and Cubical expension with unis. Also show that coeffecient of linear expension is equal to the one third of coeffeient of cubical expension?

K.E is directly proportional to Temperature

PV=nRT

Chapter 12:

Gauss’s law and (its prove)

Application of the Gauss’s law (spherical charged shell, infinite sheet of charges, two oppositively charged plates)

Factors effecting on the capacitance of the capacitor

Electric Flux

Capacitors (in series and parallel)

Coulumb’s law

Chapter 13:

Resistivity

Temperature coefficient

e.m.f with its derivation

Resistance (in series and parallel)

Ohm’s law with its limitation

Chapter 14:

F=Bsintheta

JJ Thomson’s Experiment

Derivation for B, A.C generator

Laws of electromagnetic induction

Mutual Induction

Ampere’s circular law with ots application

Lenz’s law

Motional e.m.f

F=qvB

Chapter 15:

Galvanometer

Ammeter and Voltmeter

Factors effecting on the sensitivity of the galvanometer

Voltmeter

Wheat stone bridge

Construction and working of galvanometer

Chapter 16:

Diode as a rectifier

P type, n type

Semi conductor

Forward bias, Reversed bias

Band theory

Chapter 17:

Compton effect

Theory of relativity with its consequence

Einstien results for the photo electric equation

Chapter 18:

Derivation of enrgy level diagram

Bohr’s X-ray production

Laser, ruby laser

Chapter 19:

Exponential equation of the radioactive decay

Law of radioactive decay

Half life

Mass defect

Binding Energy

Chapter 20:

Geiger mular counter