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Week - 1 |
Electric Charges and Coulomb’s Law: a) Properties of electric charges b) Insulators and conductors c) Coulomb’s Law |
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Week - 2 |
Electric Field and the Motion in Electric Field: a) Electric field b)Electric field lines c) Electric field of a continuous charge distribution d) Motion of charged particles in a uniform electric field. |
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Week - 3 |
Gauss Law: a) Electric axle b) Gauss law
c) Application of Gauss Law into charged insulators
d) Insulators in electrostatic balance |
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Week - 4 |
Electric Potential: a) Potential difference and electric potential b) Potential difference in a uniform electric field c) Electric potential and potential energy due to point charge d) Electric potential due to continuous charge distributions e) Obtaining electric field from the electric potential |
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Week - 5 |
Electric potential energy |
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Week - 6 |
Condansator and dilectrics |
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Week - 7 |
Current and Resistance: a) Electric Current and density of current
b) Resistance and Law of Ohm c) Self-resistance of various Insulators d) Electrical energy and power |
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Week - 8 |
Straight Current Circuits: a) Electromotor force
b) Direct and Parallel Resistance c) Rules of Kirchhoff |
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Week - 9 |
Magnetic Fields: a) Defination and properties of the magnetic field b) Magnetic force on a current- carrying conductor c) Motion of a charged particle in a magnetic field |
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Week - 10 |
Sources of Magnetic Fields: a) Biot-Savart Law
b) Magnetic Force between two parallel conductors
c) Amper law d) Magnetic field of Solenoid |
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Week - 11 |
Amper Law
Magnetic field of Selenoid |
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Week - 12 |
Faraday Law: a) Faraday's law of induction
b) Magnetic flow c) Movement and induction
d) Lenz law |
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Week - 13 |
Inductance: a) Self-inductance b) Energy in magnetic field c) Mutual inductance |
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Week - 14 |
Alternative Current Circuits, Semiconductors |
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