Problem 2: As shown in the figure, a rod completes a circuit as it slides with constant velocity, v, across parallel conducting rails that are a distance L apart. The velocity vector is in the same plane as the rails and makes an angle with them. A uniform magnetic field, B, is perpendicular to the plane that includes the rails and the velocity vector. e= Part (a) Enter an expression for the magnitude of the induced emf, e, in the rod. -The area between the rails, the previous position of the rod, and the newest position of the rod forms a parallelogram. How might you obtain the area of that parallelogram? Part (b) What is the value, in volts, of the induced emf when L = 2.15 m, v = 1.75 m/s,
Problem 2: As shown in the figure, a rod completes a circuit as it slides with constant velocity, v, across parallel conducting rails that are a distance L apart. The velocity vector is in the same plane as the rails and makes an angle with them. A uniform magnetic field, B, is perpendicular to the plane that includes the rails and the velocity vector. e= Part (a) Enter an expression for the magnitude of the induced emf, e, in the rod. -The area between the rails, the previous position of the rod, and the newest position of the rod forms a parallelogram. How might you obtain the area of that parallelogram? Part (b) What is the value, in volts, of the induced emf when L = 2.15 m, v = 1.75 m/s,
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter32: Faraday’s Law Of Induction
Section: Chapter Questions
Problem 71PQ: Two frictionless conducting rails separated by l = 55.0 cm are connected through a 2.00- resistor,...
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