Electricity, Magnetism and Electromagnetic TheoryKrishna Prakashan Media |
Contents
Descriptive Part 1 31 28 | 2-1 |
Varying and Alternating Currents 2 412 152 | 2-41 |
Kirchoffs law 2 | 2-49 |
Analysis of multiloop circuit 2 | 2-52 |
Charging of a capacitor through resistance 2 | 2-57 |
Measurement of high resistance by Leakage method 2 | 2-59 |
Charging of a capacitor through LR circuit 2 | 2-62 |
Discharging of a capacitor through LR circuit 2 | 2-66 |
Theory of Paramagnetism 3 | 2-198 |
Theory of Ferromagnetism 3 | 2-199 |
Short Part 3 2013 | 2-201 |
Very Short Part 3 2093 | 2-209 |
Miscellaneous Problems 3 2123 227 | 2-212 |
Some Probable Questions 3 2283 | 2-228 |
Electromagnetic Induction 4 2294 292 | 2-229 |
Descriptive Part 4 2314 253 | 2-231 |
Alternating current 2 | 2-70 |
Short Part 2 1122 | 2-112 |
Very Short Part 2 1182 | 2-118 |
Some Probable Questions 2 1512 | 2-151 |
Amperes law and its applications 3 | 2-172 |
Motion of a charged particle in a magnetic field 3 | 2-175 |
Cyclotron 3 | 2-178 |
Torque on a current carrying loop in a magnetic field 3 | 2-182 |
Moving coil galvanometer 3 | 2-183 |
Theory of Ballistic galvanometer 3 | 2-185 |
Conditions under which a galvanometer is ballistic or dead beat 3 | 2-188 |
Critical damping 3 | 2-190 |
Current and charge sensitivity 3 | 2-191 |
Magnetisation and magnetic field intensity 3 | 2-194 |
Magnetic permeability and magnetic susceptibility and relation between them 3 | 2-195 |
Hysteresis 3 | 2-196 |
Theory of Diamagnetism 3 | 2-197 |
Lenzs law 4 | 2-233 |
Electromotive force 4 | 2-235 |
Conducting rod moving in a magnetic field 4 | 2-236 |
Quantitative study of electromagnetic induction 4 | 2-237 |
Electromagnetic induction and relative motion 4 | 2-239 |
Self inductance and coefficient of self induction of a coil 4 | 2-240 |
Energy stored in a inductor 4 | 2-243 |
Energy stored in a magnetic field 4 | 2-244 |
Transformer 4 | 2-247 |
Maxwells displacement current 4 | 2-250 |
Statement of Maxwells equations and their significance 4 | 2-252 |
Short Part 4 2544 | 2-254 |
Very Short Part 4 2674 | 2-267 |
Miscellaneous Problems 4 2704 291 | 2-270 |
Some Probable Questions 4 2924 | 2-292 |
Common terms and phrases
a.c. circuit containing alternating current Ampere's Law applied e.m.f. atom ballistic galvanometer Biot-Savart law c/sec Calculate capacitance capacitor carrying a current charge density charge q cm² coil conductor constant current sensitivity deflection dipole direction discharge displacement vector e.m.f. induced E₁ E₂ electric field electromagnetic induction electromagnetic wave electron energy stored equation Erms force free space frequency galvanometer Gauss's Gauss's Law given Hence henry I₁ impedance induced e.m.f. Irms L-R circuit long solenoid loop magnetic flux magnetic induction magnetisation magnitude Meerut molecule mutual inductance number of turns oscillatory parallel particle perpendicular phase plane polarisation potential difference Problem proton putting the values radius reactance resistance resonance shown in Fig solenoid Solution uniform magnetic field vector velocity volt volts web/m² wire zero δι μο