Publisher |
Mtg Learning Media (P) Ltd |
ISBN-13 |
9789389167108 |
ISBN-10 |
9789389167108 |
Binding |
Paperback |
Number of Pages |
506 Pages |
Language |
(English) |
Rank Up Physics JEE Main and Advanced is a recently launched series of 5 books which covers each and every sphere of physics syllabus of JEE Main and Advanced. This is an excellent resource for aspiring engineers who wish to learn the concepts of Physics from zero level. The theoretical part of this series is presented in a simple manner to develop the core understanding of the subject. To grasp the concepts strongly, each unit of the series is supplemented with self-explanatory diagram, table, flow charts, graphs, examples etc.
The Five Books of Rank Up Physics series are:
Mechanics Volume 1
Mechanics Volume 2
Waves And Thermodynamics
Electricity And Magnetism
Optics And Modern physics
The uniqueness of this series lies in the following fact:
Complete coverage of syllabus.
Simplified presentation of complex Physics concept.
Numerous solved examples, questions and numerical for each chapter.
Variety of questions like - single correct answer type, multiple correct answer type, passage based, matrix match, integer type etc. to prepare you for both JEE Main and Advanced.
Previous 2 years’ questions of JEE Main and JEE Advanced with detailed solutions.
Electricity and Magnetism, the fourth book of Rank up Physics series aims at rendering the topic of Electricity and Magnetism easy for the student. The book has been divided into six units. The theory of each unit has been dealt in great depth with solved examples (depicting various cases possible in numerical problems) and fundamental questions after each topic so as to provide 100 percent conceptual clarity to the students.
Content:
Unit 1 : Electrostatics
Electrostatics
Electric Charge
Coulomb’s Law
Principle of Superposition
Force between Two Point Charges in Vector Form
Equilibrium of System of Charges
Electric Field
Electric Field Lines
Electrostatic Potential Energy
Electrostatic Potential
Relation Between E and V
Equipotential Surface
Continuous Charge Distribution
Electric Dipole
Electric Field Due to a Dipole
Potential Due to a Dipole
Dipole Kept in Uniform External Electric Field
Electric Flux
Gauss’s Theorem
Concept of Solid Angle
Application of Gauss’s Theorem
Self Energy
Properties of Conductor
Corona Discharge
Electrostatic Pressure on the Surface of the Charged Conductor
Energy Density
Metal Plates : Charge on All the Surfaces
Separation of Hemispherical Shell
Electric Field and Potential Due to Induced Charges
Earthing
Exercise
Answers
Unit 2 : Capacitors
Capacitors
Parallel Plate Capacitor
Other Types of Capacitors
Energy Stored in a Capacitor
System of Capacitors
Simplifying Circuits
Parallel Plate Capacitor with Dielectric
RC Circuits
Exercise
Answers
Unit 3 : Electric Current
Electric Current
Flow of Current in Conductors
Ohm’s Law
Resistance
Emf and Its Sources
Combination of Resistors
Kirchhoff’s Law
Superposition Principle
Short-circuit
Wheatstone’s Bridge
Equipotential Points
Symmetry of Path
Electrical Bulb
Electrical Instruments
Exercise
Answers
Unit 4 : Magnetic Force and Magnetic Field
Introduction
Motion of Charged Particle in a Uniform Magnetic Field
Path of a Charged Particle in Combined Electric and Magnetic Field
Magnetic Force on a Current Carrying Conductor
Torque on a Current Loop
Magnetic Dipole
Potential Energy of a Magnetic Dipole in a Magnetic Field
Ratio of Magnetic Moment to the Angular Momentum of the Electron
Applications of Moving Charged Particle in a Magnetic Field
Magnetic Field Due to Moving Charges
Force between Two Infinite Parallel Current Carrying Wire
Magnetic Field on the Axis of the Circular Current Carrying Ring
Magnetic Field Due to Solenoid
Ampere’s Law
Bar Magnets
Force, Torque and Potential Energy of a Bar Magnet Kept in a Uniform Magnetic Field
Moving Coil Galvanometer
Magnetic Materials
Magnetic Hysteresis
Terrestrial Magnetism
Exercise
Answers
Unit 5 : Electromagnetic Induction
Faraday’s Law
Magnetic Flux
Lenz’s Law
Motional Emf
Potential Difference Across the Ends of Rotating Rod
Velocity of a Rod (Slider) as a Function of Time
Self Induction
Energy Stored in an Inductor
LR Circuits
Mutual Inductance
Relation between Self and Mutual Induction
Combination of Inductors
Induced Electric Field
LC Oscillations
Transformers
Exercise
Answers
Unit 6 : Alternating Current
Alternating Current
AC Voltage Generation
Hot Wire Instruments
Types of AC Circuit
Rejector Circuit
Power in AC Circuits
Choke Coil
Exercise
Answers
Previous Years’ Section
JEE Main
JEE Advanced
Answers.
Akhil Tewari
Mtg Learning Media (P) Ltd