Problem 2 Find the torque about the left hand segment on the loop as a function of θ, the angle the plane makes with the horizontal plane.

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Presentation transcript:

Problem 2 Find the torque about the left hand segment on the loop as a function of θ, the angle the plane makes with the horizontal plane.

Motion in magnetic field 1) Uniform, 2) Uniform, 3) Nonuniform

The angular velocity

Uniform magnetic field,

Uniform, When a charged particle has velocity components both perpendicular and parallel to a uniform magnetic field, the particle moves in a helical path. The magnetic field does no work on the particle, so its speed and kinetic energy remain constant.

Example: A proton ( ) is placed in the uniform magnetic field directed along the x-axis with magnitude T. Only the magnetic force acts on the proton. At t=0 the proton has velocity components Find the radius of the helical path, the angular speed of the proton, and the pitch of the helix (the distance traveled along the helix axis per revolution).

Nonuniform.A magnetic bottle.

The Magnetic Field

Current carrying wires 1820 Hans Christian Oersted Hans Christian Ørsted

Biot-Savart Law Infinitesimally small element of a current carrying wire produces an infinitesimally small magnetic field (Also called Ampere’s principle) is called permeability of free space

The Field Produced by a Straight Wire