Moving Charges and Magnetism
Description: Explore the transition from static to dynamic charges, understanding how moving charges generate magnetic fields, and the basics of charge interactions in everyday materials.
Description: Explore three rules—Ampere's Swimming, Right Hand Grip, and Maxwell's Screw—to determine the magnetic field direction around current-carrying conductors.
Description: Explore how velocity selectors use electric and magnetic fields to isolate charged particles moving at specific velocities, ensuring precise control in experimental setups.
Description: Explore the Biot-Savart Law, detailing the magnetic field produced by a current element, with formula derivation and practical applications like the velocity selector and cyclotron.
Description: Explore solenoids: helical wires creating magnetic fields. Learn how current flows through loops, forming magnetic fields, using MTA law for practical understanding.
Description: Explore solenoids: helical wires creating magnetic fields. Learn how current flows through loops, forming magnetic fields, using MTA law for practical understanding.
Description: Explore how torque affects a current loop in a magnetic field, understanding magnetic dipoles, Lorentz force, and calculating torque using formulas like IAB sin theta.
Description: Explore the magnetic dipole moment of revolving electrons, understand their current production, and learn the formula for calculating this magnetic phenomenon.
Description: Explore the magnetic dipole moment of revolving electrons, understand their current production, and learn the formula for calculating this magnetic phenomenon.
Description: Learn to convert a garammeter into a voltmeter by adding high resistance in series, ensuring accurate voltage measurement without damaging the device.
Board: CBSE
Stream: Science
Standard: XII
Course: Physics
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Board: State Board
Stream: Science
Standard: XII
Course: Physics
Know More
Board: State Board
Stream: Science
Standard: XII
Course: Physics
Know More
