CG PET 2015 Physics Syllabus

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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.

Electron; Photon and Radio activity:
‘e’ and ‘e/m’ for an electron; photon; Einstein’s photoelectric equation; photocells. Bohr model of the atom; Hydrogen spectrum; composition of nucleus; atomic masses and isotopes; radioactivity; Laws of ratio active decay; decay constant; half life and mean life; Mass energy relations; fission; X-Ray: properties and uses.

Semiconductor:
Elementary ideas of conductor; semi conductor and insulator; intrinsic and extrinsic semi-conductors; Diode; transistor; oscillator; digital circuit and logic gates.

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.

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