In the given diagram, a conducting bar lies on two smooth rails that are linked through a 1.50 resistor. A 0.750 T magnetic field is applied in a vertically upward direction, perpendicular to the plane of the rails. The bar is compelled to move at a constant pace of 60.0 cm/s in the direction of the resistor. Assuming that the resistance of the bar and rails is negligible, find out: BOUT 5.0cm a. the direction and value of the induced current. b. The magnitude of the applied force c. the amount of power dissipated in the resistor. →60.0cm/s 1.50

College Physics
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Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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Q9.3
In the given diagram, a conducting
bar lies on two smooth rails that
are linked through a 1.50
resistor. A 0.750 T magnetic field is
applied in a vertically upward
direction, perpendicular to the
plane of the rails. The bar is
compelled to move at a constant
pace of 60.0 cm/s in the direction of
the resistor. Assuming that the
resistance of the bar and rails is
negligible, find out:
BOUT
5.0cm
a. the direction and value of the induced current.
b. The magnitude of the applied force
c. the amount of power dissipated in the resistor.
→→→→60.0cm/s
1.50
2
Transcribed Image Text:Q9.3 In the given diagram, a conducting bar lies on two smooth rails that are linked through a 1.50 resistor. A 0.750 T magnetic field is applied in a vertically upward direction, perpendicular to the plane of the rails. The bar is compelled to move at a constant pace of 60.0 cm/s in the direction of the resistor. Assuming that the resistance of the bar and rails is negligible, find out: BOUT 5.0cm a. the direction and value of the induced current. b. The magnitude of the applied force c. the amount of power dissipated in the resistor. →→→→60.0cm/s 1.50 2
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