Utkal University, Odisha, Physics Semester 2, Electricity and Magnetism Syllabus

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Unit - 1 Electric Field And Electric Potential

Unit 1

Electric Field and Electric Potential

1.1 Electric field Electric field lines Electric flux

1.2 Gauss Law with applications to charge distributions with spherical cylindrical and planar symmetry

1.3 Conservative nature of Electrostatic Field. Electrostatic Potential

1.4 Potential and Electric Field of a dipole Force and Torque on a dipole placed in electric field

1.5 Potential calculation indifferent simple cases

1.6 Laplace and Poisson’s equations

1.7 The Uniqueness Theorem

1.8 Method of Images and its application to 1 Plane Infinite Sheet and 2 Sphere

1.9 Electrostatic energy of system of charges

1.10 Electrostatic energy of a charged sphere

1.11 Conductors in an electrostatic Field Surface charge and force on a conductor

Unit - 2 Magnetic Field

Unit 2

Magnetic Field

2.1 Magnetic Force Lorentz Force

2.2 Biot Savarts Law

2.3 Current Loop as a Magnetic Dipole and its Dipole Moment analogy with Electric Dipole

2.4 Amperes Circuital Law and its application to 1 Solenoid 2 Toroid 3 Helmhotz coil

2.5 Properties of B curl and divergence

2.6 Vector Potential

2.7 Ballistic Galvanometer

2.8 Torque on a current Loop

2.9 Current and Charge Sensitivity

2.10 Electromagnetic damping

2.10 Logarithmic damping CDR

Unit - 3 Dielectric Properties Of Matter

Unit 3

Dielectric Properties of Matter Electromagnetic Induction

3.1 Dielectric Properties of Matter Electric Field in matter Polarization Polarization Charges

3.2 Electrical Susceptibility and Dielectric Constant

3.3 Capacitor parallel plate spherical cylindrical filled with dielectric

3.4 Displacement vector D

3.5 Relations between E P and D

3.6 Gauss Law in dielectrics

3.7 Magnetic Properties of Matter Magnetization vector M Magnetic Intensity H Magnetic Susceptibility and permeability Relation between B H M

3.8 Ferromagnetism

3.9 BH curve and hysteresis

3.10 Electromagnetic Induction Faradays Law

3.11 Lenz’s Law

3.12 Self Inductance and Mutual Inductance

3.13 Reciprocity Theorem

3.14 Energy stored in a Magnetic Field

3.15 Introduction to Maxwell’s Equations

Unit - 4 Electrical Circuits

Unit 4

Electrical Circuits Network Theorems

4.1 Electrical Circuits AC Circuits Kirchhoff’s laws for AC circuits Complex Reactance and Impedance

4.2 Series LCR Circuit 1 Resonance 2 Power Dissipation 3 Quality Factor 4 Band Width Parallel LCR Circuit

4.3 Network theorems Ideal Constantvoltage and Constantcurrent Sources

4.4 Network Theorems Thevenin theorem Norton theorem Superposition theorem Reciprocity theorem Maximum Power Transfer theorem

4.5 Applications to DC and AC circuits

4.6 Transient Currents Growth and decay of current in RC and LR circuits

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