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Transcript
Magnetic Force Moving Charge A charge in an electric field is E + subject to a force. • Charge at rest or in motion • In the direction of field A charge in a magnetic field is also subject to a force. B + v • Only charges in motion • Perpendicular to force and velocity Direction of Force force points into the page Magnetic force is another kind F v of vector multiplication. q + More force = increasing deflection B • Vector cross product yields a vector FM qv B The magnitude is qvBsinq. The direction points according to the right-hand rule. Vector Cross Product The vector cross product applies to any two vectors. C A B C The cross product is perpendicular to the plane holding the two vectors. B A The cross product is not commutative. • Reversing the order gives an anti-parallel result B A A B Uniform Field An electromagnet produces a 3.0 T uniform magnetic field pointing horizontally north in the gap between its poles. A proton enters the field heading north at a downward 30° angle with a speed of 5.0 x 106 m/s. Find the magnitude and direction of the force. The magnitude is qvBsinq. • q = 1.6 x 10-19 C • v = 5.0 x 106 m/s • B = 3.0 T • Angle between v and B is 30° • F = 1.2 x 10-12 N The direction is based on a positive charge going down. • Down cross north is east • Force vector points east Particle Tracks Particles like electrons and protons turn in a magnetic field. Tracks are captured on film. Curvature is related to the velocity. Fermilab photo from the 15’ bubble chamber Circular Path A charge that moves Field into page perpendicular to a uniform field stays perpendicular to the field. r F • Uniform circular motion a v mv 2 F qvB r r mv qB The magnetic force is a centripetal force. Cyclotron The proton in the earlier example moves in a circular path. Find the radius of the circle. The size of the circle assumes uniform circular motion. • • • • • r = mv/qB q = 1.6 x 10-19 C v = 5.0 x 106 m/s B = 3.0 T m = 1.6 x 10-27 kg • r = 1.7 x 10-2 m next
