Moving Charges and Magnetism
Haryana Board · Class 12 · Physics
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What is the SI unit of magnetic field?
The magnetic force on a charged particle is zero when:
Who discovered the relationship between electricity and magnetism in 1820?
The direction of magnetic field around a current-carrying straight wire is given by:
Sample Questions
The Lorentz force on a charged particle includes contributions from:
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Electric field, Magnetic field
The Lorentz force F = q(E + v × B) includes contributions from both electric field E and magnetic field B. The electric force qE can do work on the particle, while the magnetic force q(v × B) is always perpendicular to velocity and does no work.
The magnetic field at the center of a circular current loop is:
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μ₀I/2R
At the center of a circular loop carrying current I with radius R, the magnetic field is B = μ₀I/2R. This formula comes from integrating the Biot-Savart law around the circular loop, where all current elements contribute in the same direction at the center.
In a uniform magnetic field, a charged particle moves in a circular path. Which quantities remain constant during this motion?
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Speed of the particle, Kinetic energy of the particle, Angular frequency, Radius of circular path
Since magnetic force does no work (being perpendicular to velocity), the speed and kinetic energy remain constant. The radius r = mv/qB and angular frequency ω = qB/m also remain constant for uniform B. Only the direction of velocity changes continuously.
The cyclotron frequency depends on:
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Charge and mass of particle, and magnetic field strength
The cyclotron frequency ν = qB/2πm depends only on the charge q, mass m of the particle, and magnetic field strength B. It is independent of the particle's speed and radius, which is the key principle used in cyclotron accelerators.
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