12th physics

Chapter wise 

 PHYSICS I

1)       CIRCULAR MOTION

1.     Non-uniform circular motion: link1

2.     Uniform circular motion: link1

3.     Angular displacement:link1

4.     Angular velocity: link1

5.     Angular acceleration:link1

6.     Relation between linear velocity & angular velocity: link1

7.     Relation between linear acceleration and angular   acceleration: link1

8.     Radial acceleration / centripetal acceleration /    acceleration of particle in ucm: link1

9.     Centripetal and centrifugal forces: link1

10. Banking of roads: link1

11. Conical pendulum: link1

12. Vertical circular motion: link1

13. Equation for tension in string at any point, link1

2)      GRAVITATION

1.     Newton’s law of gravitation

2.     Value of gravity

3.     Critical velocity of satellite

4.     Binding energy of satellite

5.     Escape velocity

6.     Kepler’s laws

7.     Variation of ‘g’ due to altitude

8.     Latitude and depth

9.     Variation of ‘g’ due to latitude

10. Types of satellite

 3)      ROTATIONAL MOTION

1.     Rigid body

2.     Linear inertia and moment of inertia

3.     Radius of gyration

4.     Rotational kinetic energy

5.     Rotational moment

6.     Torque

7.     The Parallel-Axis and Perpendicular-Axis Theorems

8.     Perpendicular-Axis Theorems

9.     Principal of law of conservation of Angular momentum

10. Similarity Between Linear and Rotational Motions

4)      OSCILLATION

1.     Define oscillation

2.     Simple Harmonic Motion

3.     The Force Law for SHM

4.     Velocity in SHM

5.     projection of UCM on as SHM

6.     PHASE OF OSCILLATION

7.     Graphical representation of SHM

8.     K.E. of Particle performing SHM

9.     Law of conservation of Energy in SHM

10. Equation of pendulum

5)      ELASTICITY

1.     Deformation

2.     Deforming Force

3.     Perfectly Elastic Body:

4.     Plasticity:

5.     Perfectly Plastic Body:

6.     Elasticity:

7.     Stress

8.     Types of Stress:

9.     Longitudinal Stress or Tensile Stress

10. Volume Stress or Bulk Stress

11. Shearing Stress

12. Strain

13. Types of Strain

14. Longitudinal or Tensile Strain

15. Volume Strain or Bulk Strain

16. Shearing Strain or Shear:

17. Shearing Strain or Shear

18. SIR ROBERT HOOKE (1635-1703)

19. Hooke’s Law

20. Elastic Limit

21.  Hooke's Law of Elasticity

22. Hooke's Law of Elasticity

23. Elastic Constants (Moduli of Elasticity):

24. Young's Modulus (Y):

25. Bulk Modulus (K)

26. Modulus of Rigidity (h):

27. Poisson's ratio

28. Searle's Method

29. Elasticity and Plasticity

30. Work done in stretching thin wire by calculus method

6)      SURFACE TENSION

1.     Sphere of Influence

2.     Surface Energy

3.     Definition of Surface Tension

4.     Application of surface tension

5.     Relation between Surface Energy and Surface Tension

6.     Angle of Contact

7.     Cohesive Force

8.     Adhesive Force

9.     explanation of angle of contact

10. Shape of liquid

11. Capillary Action

12. Capillarity

13. Derivation of Capillarity

7)      WAVE MOTION

1.     Waves

2.     Types of Waves

3.     Characteristics of wave motion

4.     Basic of a wave

5.     Wave Motion is Doubly Periodic

6.     Simple Harmonic Progressive Wave

7.     Equation of a Simple Harmonic Progressive wave

8.     Similarity between shm and circular motion

9.     Equation of wave motion

10. Characteristics of progressive wave

11. Similarity between longitudinal and transverse wave

12. Reflection of a sound from a plane surface

13. Reflection of Wave Pulse from rarer medium

14. Reflection (free end)

15. Reflection from a Rarer Medium

16. Reflection of Wave Pulse from denser medium

17. Reflection (fixed end)

18. Why such changes in waves occur

19. Quincke’s tube experiment

20. Formation of beats

21. Equation of Formation of beats

22. Doppler Effect

8)      STATIONARY WAVES

1.     Define stationary waves

2.     Properties of a stationary wave

3.     Condition for nodes and antinodes

4.     Properties of stationary waves

5.     Fundamental frequency, harmonic and overtones 

6.     Damping and Resonance

7.     Fixed at both end

8.     Laws of Vibrating Strings

9.     Law of Density:

10. Open at one end

11. Resonance tube

12. Open at both the end

13. Error correction

9)      KINETIC GAS THEORY

1.     Fundamental Assumptions of the Kinetic Theory of Gases

2.     Mean Square Velocity:

3.     Pressure Exerted by Gas:

4.     Ideal gas law

5.     Robert boyle

6.     prove: C a ÖT

7.     Specific Heat of Gas

8.     Kinetic Energy per Unit Volume 

9.     kinetic energy of molecule 

10. kinetic energy per unit mass 

11. In case of gases, two specific heats are to be defined.
(i) Specific heat at constant volume
(ii) Specific heat at constant pressure

9.b  RADIATION (KINETIC GAS THEORY)

1.     Flow of heat

2.     Absorptive power or absorptivity(a)

3.     Reflective power or reflectivity(r)

4.     Coefficient of Transmission(t)

5.     Relation between a, r and t

6.     Perfect  absorber

7.     Perfect  Reflector

8.     Perfect transmitter

9.     Black body

10. Lamp black

11. Perfect black body(ferry’s black body)

12. Spectrum of black body by
Lummer and Pringsheim

13. Wein’s law of displacement

14. Emissive Power

15. Absorptive Power

16. Krichhoff’s law of radiation

17. Pervost theory of heat exchange

18. Stefan's Law of Radiation

19. Newton’s law of radiation

20. Limitation of Newton law

21. Radiation Correction

  PHYSICS II

1)      WAVE THEORY                                                notes     lectures

1.      The CORPUSCULAR ( PARTICLE) THEORY (1671)

2.     Wave theory of light

3.     Maxwell’s electromagnetic theory

4.     Planck's and Einstein theory

5.     state law of reflection derive law of reflection basis of Huygens wave theory

6.     Laws of Refraction at a Plane Surface (On Huygens’ Principle)

7.     plane of vibration

8.     plane of Polorisation

9.     Un polarised Waves

10. Polaroid

11. Plane-polarized light beam

12. Brewster's law

13. William nicol bi prism

         

2)       INTERFERENCE OF LIGHT

1.       Constructive interference

2.       Destructive interference

3.       Conditions Necessary for Obtaining a Steady Interference Pattern:

4.       Young’s Double Slit Experiment:

5.       Fresnel's biprism  experiment

6.       Diffraction

3)      ELECTROSTAICS

1.     Electric field intensity

2.     TNEI

3.     Gauss theorem

4.     Application of gauss theorem

a.      On sphere

b.     On cylinder

c.      On any arbitrary surface

5.     Mechanical force per unit area

6.     Energy per unit volume

7.     Di electric medium

8.     Polorisation

9.     Capacitors

10. Energy of capacitors

11. Capacitors in series

12. Capacitors in parallel

13. Venn de graph

4)      CURRENT ELECTRICITY

1.     Kirchhoff law of current

2.     Kirchhoff law of voltage

3.     Wheatstone bridge

4.     Application of Wheatstone bridge

a.      Meter bridge experiment

b.     Kelvin’s half scale experiment

5.     Potentiometer 

6.     Application of potentiometer

a.      Substitution method

b.     Sum and difference method

c.      Calculate internal resistance of cell

5)      MAGNETIC EFFECT OF ELECTRIC CURRENT

1.     Galvanometer

2.     Moving coil galvanometer:

3.     M.c.g : suspended type

4.     Working and principal

5.     Advantage of phosphor bronze suspension fiber

6.     Why radial magnetic field

7.     M.c.g : pivoted type

6)      MAGNETISM

1.     Relation between electrostatics and magnetism

_2.        Gyromagnetic ratio

3.     Magnetization

4.     Toroid

5.     Magnetization of a ferromagnetic material

6.     Studied with a toroid

7.     Classification of Magnetic Substances

_a.        Diamagnetic Substances

_b.        Paramagnetic  Substances

_c.        Ferromagnetic Substances

8.     Curie Temperature

7)      ELECTRO MAGNETIC INDUCTION

1.     Magnetic Flux (Φ):

2.     Faradays lenz law

3.     Self Induction

4.     Motional EMF

5.     Eddy Currents or Foucault Currents

6.     Mutual Induction

7.     Transformers

8.     A.C. Generator:

9.     Alternating emf

10. Relative Values Peak, Virtual and Mean Values of Alternating emf

11. AC Circuit with a Pure Resistor

12. AC Circuit with a Pure Inductor

13. AC Circuit with a Capacitor

14. Variation of X_L with Frequency

15. Phasor diagram

16. AC Circuit with L, C, R in Series Combination

17. Series resonance in AC Circuit with L, C, R

18. Parallel resonance in AC Circuit with L, C, R

19. Power in AC Circuit with R:

20. Power in AC Circuit with L, C, R:

21. L C Oscillations:

22. Root Mean Square or Virtual or Effective Value of Alternating Current:

23. Average or Mean Value of Alternating Current:

8)      ELECTRONS AND PHOTONS

photo electric effect

9)      ATOM MOLECULE AND NUCLUEI

1.     Planks law

2.     Rutherford model

3.     Disadvantage of Rutherford model

4.     Neil Bohr model

5.     1 Postulates  

6.     Relation between radius and principle quantum number

7.     Relation between velocity and principle quantum number

8.     Relation between energy and principle quantum number

9.     Energy spectrum

10. E = MC²

11. X-rays

12. Mass defects

13. Binding energy per nucleons

14. Nuclear radioactivity

15. De Broglie postulate

16. Proof of de Broglie postulate

17. De Broglie postulate for electron

18. Davisson germer experiment

10)  SEMICONDUCTORS

1.     Energy level

2.     Energy band

3.     Intrinsic semiconductor

4.     Extrinsic semiconductor

5.     P type

6.     N type

7.     P-N junction diode

8.     Half wave rectifiers

9.     Full wave rectifiers

10. Photo diode

11. Solar cell

12. Zener diode

13. Transistor

14. Transistor different mode

15. Transistor as an amplifier

16. Transistor as switch

17. Oscillators

18. Logic circuit

11)  COMMUNICATION