CG PET 2015 Physics Syllabus

Category: Syllabus 20 0

CG PET 2015 Physics Syllabus:

The following given below is the CG PET 2015 Physics Syllabus, this article on the CG PET 2015 Physics Syllabus comprises the names of the topics /chapters and the sub topics.

Measurement:
Units and dimensions; Fundamental and derived units; Dimensional analysis, S.I. Units

Kinematics:
Linear Motion in one and two dimensions; Cases of uniform velocity and uniform acceleration; General relation among position and velocity; Uniform circulation motion.

Force and laws of Motion:
Force and inertia; Newton’s law of motion; Conservation of momentum and energy Static and Kinetic friction; Uniform Circular Motion

Work, Energy and Power:
Work done by force, energy; Elastic collision; Potential energy; Gravitational potential energy and its angular conversion to kinetic energy; Potential energy of a spring

Rotational Motion and Moment of Inertia:
Rigid body rotation; couple; torque; angular momentum conservation of its momentum; Moment of inertia; theorem of parallel and perpendicular axis; (Moment of inertia of uniform ring; disc thin rod and cylinder only)

Gravitation:
Acceleration due to gravity and its variation; Universal law of gravitation; motion of satellites; escape velocity. Synchronous satellite and polar satellite.

Properties of Solids and Fluids:
Elasticity; Hook’s law Young’s modulus; shear and bulk modulus; surface energy and surface tension; fluid pressure; atmosphere pressure; viscosity of fluids; kinetic theory of gases; gas laws; kinetic energy and temperature.

Heat and Thermodynamics:
Heat; Temperature; Thermometers; Specific heats at constant volume and constant pressure; Mechanical equivalent of heat isothermal and adiabatic processes. Heat conduction in one dimension. Convection and radiation; Stefan’s law and Newton’s law of cooling; Zeroth, First and Second law of thermodynamics

Oscillation:
Periodic motion; simple harmonic motion; Oscillations in spring, Law of simple pendulum

Waves:
Transverse and longitudinal wave motion; speed of sound; principle of super position; Progressive and stationary waves; beats and Doppler effect.

Light:
Wave nature of light; Interference; Young’s double slit experiment; velocity of light and Doppler’s effect in light; Reflection; Refraction; total internal reflection; curved mirrors, 80 Lenses; mirror and lens formulae, Dispersion in prism, absorption and emission spectra; Optical instruments. The human eye; defects of vision; magnification and resolving power of telescope and microscope.

Magnetism:
Bar Magnet; lines of force; torque on a bar due to magnetic field; earth’s magnetic field; tangent galvanometer; vibration magnetometer; Para magnetic; di magnetic and ferromagnetic substances.

Electrostatics:
Coulomb’s law of electrostatics; dielectric constant; electric field and potential due to a point charge; dipole; dipole field; Gauss’s law in simple geometric. Electrostatic potential; capacitance; parallel plate and spherical capacitors in series and parallel, energy of a capacitor.

Current Electricity:
Electric current; Ohm’s law; Kirchoff’s laws; resistance in series and parallel; temperature dependence of resistance; wheat stone bridge; and potentiometer. Measurement  of voltages and currents.

Effect of Electrical Current:
Magnetic thermal and chemical effect of current; Electric power heating effects of currents; chemical effects and law of electrolysis; thermoelectricity; Biot – Savart law; Magnetic fields due to a straight wire; circular loop and solenoid. Force on a moving charge in a magnetic field (Lorentz force); Magnetic moment of a current loop; effect of a uniform magnetic field of a current loop; forces between two currents; moving galvanometer; ammeter and voltmeter.

Electromagnetic Induction and Alternating Current:
Magnetic flux; Electromagnetic induction induced emf Faraday’s law; Lenz’s law; self and mutual inductance; Alternating currents impedance and reactance growth and decay of current in L-R circuit; elementary idea of dynamo and transformer.