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Magnetic Forces and Torques

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Presentation on theme: "Magnetic Forces and Torques"— Presentation transcript:

1 Magnetic Forces and Torques

2 Review: Charged Particle in an external field:
Straight wire of length L with current I in a uniform external field B: Note: L points in direction of positive current flow

3 Force on a current-carrying wire (general case)
If B not uniform, and/or wire not straight: the force dF on a short segment of vector length dL is dF = IdL x B The total force on the wire is: dF B I Segment of length dL dL I

4 Example 1 Find the force on: The straight wire The semicircular wire
The whole circuit y x x x I R x B (uniform) For (b): start with force dF due to an infinitesimal piece, and do the integral.

5 Solution

6 Theorem: For any closed current loop in a uniform magnetic field,
Total magnetic force on the loop = 0 Proof: (if B is a constant vector) But: for a closed loop, so F = 0

7 Torque: Although there is no net force on a circuit in a uniform field, there may be a net torque. The torques due to equal and opposite forces applied at different locations do not necessarily cancel. We can calculate the torque directly for a rectangular loop. There is also a simple rule, which actually applies to a plane loop of any shape. First we need to define the “magnetic dipole moment” (a vector) for a current loop.

8 Magnetic Dipole Moment
(or “magnetic moment”) Define the magnetic moment of a small current loop by current Area of loop Note the right-hand rule! – fingers follow I, thumb points in μ m

9 Torque on a Current Loop (Uniform B)
Example: a rectangular loop B A h C D w Forces: FAB= I w B sinθ FAD= I h B FBC= I h B x FCD= I w B sinθ

10 Top view: FBC= I h B x I into the page I w w•sinθ FAD = I h B
Torque (about any pivot; e.g., at A)

11 The torque on a current loop with magnetic dipole moment  in a uniform external field is:
Where μ = IA

12 Quiz 50o north I Which direction does the torque vector point in for a flat horizontal coil on the surface of earth ? A) North B) East C) West D) Up E) Down

13 Example 2 Find the torque on a flat, horizontal, circular coil due to the magnetic field of the Earth. 50o north 0.5 x 10-4 T Circular loop, 2 turns, R = 1 m, I = 20 A, CCW (from above) Find: Torque (magnitude and direction)

14 Solution

15 Summary Charged Particle: Wire: Straight wire, Uniform B: Torque:

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