A conducting bar of mass m = 1kg and length l = 1m is in contact with a thin conducting circular ring as shown in the figure. The bar rotates about the pivot %3D point o which is also the center of the ring. The ring and the bar are connected by a resistor R = 10. A uniform magnetic field B = to the rotating plane of the bar and the ring. The bar is released to rotate at t = 0 after reaching ini tial angular speed w, = of the rod at t = 4s. (Assume that there is a good electrical contact between bar and the ring and ignore friction forces). 17 is applied perpendicular %3D 100rad/s. Find the angular speed w

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Chapter1: Units, Trigonometry. And Vectors
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m
В
A conducting bar of mass m =
conducting circular ring as shown in the figure. The bar rotates about the pivot
point o which is also the center of the ring. The ring and the bar are connected
by a resistor R = 10. A uniform magnetic field B = 1T is applied perpendicular
to the rotating plane of the bar and the ring. The bar is released to rotate at t =
0 after reaching initial angular speed w, = 100rad/s. Find the angular speed w
of the rod at t = 4s. (Assume that there is a good electrical contact between bar
and the ring and ignore friction forces).
1kg and length l = 1m is in contact with a thin
a) 47,23rad/s
b) 22,31rad/s
c) 10,54rad/s
d) 4,98rad/s
e) 2,35rad/s
RI
Transcribed Image Text:m В A conducting bar of mass m = conducting circular ring as shown in the figure. The bar rotates about the pivot point o which is also the center of the ring. The ring and the bar are connected by a resistor R = 10. A uniform magnetic field B = 1T is applied perpendicular to the rotating plane of the bar and the ring. The bar is released to rotate at t = 0 after reaching initial angular speed w, = 100rad/s. Find the angular speed w of the rod at t = 4s. (Assume that there is a good electrical contact between bar and the ring and ignore friction forces). 1kg and length l = 1m is in contact with a thin a) 47,23rad/s b) 22,31rad/s c) 10,54rad/s d) 4,98rad/s e) 2,35rad/s RI
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