ASSO CET Syllabus

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ASSO CET ENTRANCE TEST PHYSICS SYLLABUS
Std. XII: Paper – I

Mechanics and Properties of Matter :

1. Circular Motion :

1.1 Angular Displacement

1.2 Angular Velocity and Angular Acceleration

1.3 Relation Between Linear Velocity and Angular Velocity

1.4 Uniform Circular Motion

1.5 Radial Acceleration

1.6 Centripetal and Centrifugal Forces

1.7 Banking of Roads

1.8 Vertical Circular Motion

1.9 Equation for Velocity and Energy at Different Positions of Vertical Circular

Motion

1.10 Kinematical Equations for Circular Motion in Analogy with Linear Motion.

2. Gravitation :

2.1 Newton’s Law of Gravitation

2.2 Projection of Satellite

2.3 Periodic Time

2.4 Statement of Kepler’s Law of Motion

2.5 Binding Energy and Escape Velocity of a satellite

2.6 Weightlessness condition in Orbit

2.7 Variation of ‘g’ Due to Altitude, Latitude and Depth

2.8 Communication Satellite and Uses of Satellite

3. Rotational Motion :

3.1 Definition of Moment Inertia

3.2 K.E. of Rotating Body

3.3 Physical Significance of M.I.

3.4 Radius of Gyration

3.5 Torque

3.6 Principle of Parallel and Perpendicular Axes

3.7 Application of the principles to M.I. of uniform Rod, Ring, Disc, Solid Cylinder,

Solid Sphere and solid sphere with proof

3.8 Angular Momentum and its Conservation

4. Oscillations :

4.1 Explanation of Periodic Motion

4.2 Simple Harmonic Motion

4.3 Differential Equation of Linear S.H.M.

4.4 Projection of U.C.M. on any Diameter

4.5 Phase of S.H.M.

4.6 K.E. and P.E. of a particle performing S.H.M.

4.7 Composition of two S.H.M. having same Period and along same Line

4.8 Simple Pendulum

4.9 Angular S.H.M. and its Differential Equation

4.10 Magnet Vibrating in Uniform Magnetic Induction

5. Elasticity :

5.1 Deformation

5.2 General Explanation of Elastic Property

5.3 Plasticity

5.4 Definition of Stress and Strain

5.5 Hooke’s Law

5.6 Elastic constants Y,K, h and Relation between them

5.7 Determination of Young’s modulus by Searle’s Method

5.8 Observation on a wire under applied increasing load

5.9 Work Done in Stretching a Wire

6. Surface Tension:

6.1 Surface Tension on the Basis of Molecular Theory

6.2 Surface Energy

6.3 Surface Tension

6.4 Angle of Contact

6.5 Capillarity and Capillary Action

6.6 Effect of Impurity and Temperature on S.T.

Sound :

7. Wave Motion :

7.1 Simple Harmonic Progressive Waves

7.2 Reflection of Transverse and Longitudinal Waves

7.3 Changes of Phase

7.4 Superposition of Waves

7.5 Formation of Beats

7.6 Doppler Effect in Sound,

8. Stationary Waves :

8.1 Study of Vibrations in a Finite Medium

8.2 Formation of Stationary Waves on String

8.3 Study of Vibrations of Air Columns

8.4 Free and Forced Vibrations

8.5 Resonance

8.6 ExperimentsSonometer, Resonance Tube, Melde’s Experiment,

Heat :

9. Kinetic Theory of Gases:

9.1 Concept of an Ideal Gas

9.2 Assumptions of Kinetic Theory

9.3 Mean Free Path

9.4 Derivation for Pressure of a Gas

9.5 Derivation of Boyle’s Law

9.6 Specific Heat at Constant Volume and Pressure

9.7 Internal and External Latent Heat,

10. Radiation :

10.1 Absorption, Emission, Reflection and Transmission of Heat Radiation

10.2 Perfect Black Body

10.3 Spectrum of Black Body Radiation in Terms of Wave Length

10.4 Emissive Power and Absorptive Power

10.5 Kirchhoff’s Law of Radiation and Theoretical Proof

10.6 Prevost’s Theoryof heat exchanges

10.7 Ritchie’s Experiment

10.8 Stefan’s Law

10.9 Newton’s Law of Cooling and Radiation Correction

10.10 Solar Constant and Surface Temperature of Sun

Std. XII: Paper – II
Light :

11. Wave Theory of Light :

11.1 Wave Theory of Light

11.2 Huygen’s Principle

11.3 Construction of Plane and Spherical Wave Front

11.4 Wave Front and Wave Normal

11.5 Reflection at Plane Surface (without derivation of i=r)

11.6 Polarisation

11.7 Plane Polarised Light

11.8 Brewster’s Law,

11.9 Nicol Prism

11.10 Polaroids.

12. Interference and Diffraction :

12.1 Interference of Light

12.2 Conditions for Producing Steady Interference Pattern

12.3 Young’s Experiment

12.4 Analytical Treatment of Interference Bands

12.5 Measurement of Wavelength by Biprism Experiment

12.6 Diffraction Due to Single Slit

12.7 Rayleigh’s Criterian

12.8 Resolving Power of a Microscope and Telescope

12.9 Difference Between Interference and Diffraction

Electricity and Magnetism :

13. Electrostatics :

13.1 Gauss’ Theorem, Proof and Applications

13.2 Mechanical Force on Unit Area of a Charged Conductor

13.3 Energy Density of a Medium

13.4 Concept of Condenser

13.5 Capacity of Parallel Plate Condenser

13.6 Effect of Dielectric on Capacity

13.7 Energy of Charged Condenser

13.8 Condensers in Series and Parallel

13.9 VandeGraaff Generator

14. Current Electricity:

14.1 Kirchhoff’s Law

14.2 Wheatstone’s Bridge

14.3 Meterbridge

14.4 Potentiometer

14.5 ThermoElectricity

14.6 Seeback Effect, Thomson effect and Peltier effect

14.7 Thermocouple

14.8 Neutral and Inversion Temperature.

15. Magnetic Effects of Electric Current :

15.1 Ampere’s Law and its Applications

15.2 Moving Coil Galvanometer

15.3 Ammeter

15.4 Voltmeter

15.5 Sensitivity of Moving Coil Galvanometer

15.6 Theory and Construction of Tangent Galvanometer

15.7 Sensitivity and Accuracy of T.G.

15.8 Cyclotron.

16. Magnetism :

16.1 Magnetic Induction at any Point Due to a Short Magnetic Dipole

16.2 Magnetic Potential at any point due to a Short Magnetic Dipole

16.3 Diamagnetism, Paramagnetism and ferromagnetism on the Basis of Domain

Theory

16.4 Curie Temperature

17. Electromagnetic Induction:

17.1 Laws of Electromagnetic Induction, proof of e = df/dt –

17.2 Eddy Currents

17.3 Self Induction and Mutual Induction

17.4 Transformer

17.5 Coil Rotating in uniform Magnetic Induction

17.6 Alternating Currents

17.7 Reactance and Impedance

17.8 Power in a a.c. Circuit with Resistance, Inductance and Capacitance

17.9 Resonant Circuit

Modern Physics :

18. Electrons and Photons :

18.1 Discovery of Electron

18.2 Charge and Mass of Electron

18.3 Photo Electric effect

18.4 Einstein’s Equation

18.5 Photoelectric cell and its Applications

19. Atoms, Molecules and Nuclei :

19.1 Bohr’s Model

19.2 Hydrogen Spectrum

19.3 Maser and Laser as light sources

19.4 deBroglie’s Hypothesis

19.5 Wavelength of an Electron

19.6 Davisson and Germer Experiment

19.7 Elementary idea of Electron Microscope

20. Semiconductors:

20.1 Energy Bands in Solids

20.2 Intrinsic and Extrinsic Semiconductors

20.3 Ptype and Ntype semiconductor

20.4 PN Junction diodes

20.5 Rectifiers

20.6 Zener Diode as a Voltage Regulator

20.7 Solar Cell

20.8 LED

20.9 Transistor as an Amplifier

20.10 Oscillators

20.11 Logic Gates

21. Communication :

21.1 Space Communication

21.2 Ground, Sky and space wave propagation

21.3 Satellite Communication

21.4 Application of Remote Sensing

21.5 Line Communication

21.6 Two Wire Lines

21.7 Cables

21.8 Optical Communication