A counterclockwise current I is induced in the loop. The magnetic force FR on the bar carrying this current opposes the motion. Figure 30.8 (a) A conducting bar sliding with a velocity v along two conducting rails under the action of an applied force F Because of the current in the bar, there is a magnetic force F,on the bar in the direction opposite to the applied force. (b) The equivalent circuit diagram for the setup shown in (a). R F, app R |El = Blv app a I * * x x x B,n a 'in R Figure P30.18

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Q: 15.0cm 15.0cm 15.0cm 15.0cm

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