IP The figure shows a zero-resistance rod sliding to the right on two zero-resistance rails separated...
IP The figure shows a zero-resistance rod sliding to the right on two zero-resistance rails separated by the distance L = 0.520 m (Figure 1). The rails are connected by a 12 3-22 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.775 T Figure 1 of 1 B . - • . O . . . OL . . Find the speed at which the bar must be moved to produce a current...
Problem 2 IP The figure shows a zero-resistance rod sliding to the right on two zero-resistance rails separated by the distance L = 0.520 m (Figure 1). The rails are connected by a 12.3-12 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.775 T Figure 1 of 1 . . V raILM Find the speed at which the bar must be moved to produce a current of 0.150 A in the resistor. Express...
Review The figure(Figure 1) shows a zero resistance rod sliding to the right on two zero-resistance rails separated by the distance L = 0.515 m. The rails are connected by a 13.522 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.822 T Part A Find the force that must be exerted on the rod to maintain a constant current of 0.149 A in the resistor Figure 1 of 1 19 | A20 ?...
Problem 23.38 Part A The figure(Figure 1) shows a zero-resistance rod sliding to the night on two zero-resistance rails separated by the distance L 0.359 m. The rails are connected by a 116 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.733 T Find the force that must be exerted on the rod to maintain a constant current of 0 164 A in the resistor | ΑΣΦ και ? mN Submit Request Answer...
please help. thank you right on two zero-resistance rails separated by the distance L 0.360 m (Figure 1). The rails are connected by a 11.1-2 resistor, and the entire system is in a uniform magnetic field with a magnitude of 0.735 T. Find the speed at which the bar must be moved to produce a current of 0.125 A in the resistor. Express your answer using two significant figures. 150 AED O ? UE Figure m/s 1 of 1 Submit...
A zero-resistance rod slides to the right on two zero-resistance rail separated by the distance L = 0.350 m. The rails are connected to a light bulb with a resistance of 12.5 Ohm, and the entire system is in a uniform magnetic field with a magnitude of 0.760 T. (a) Find the speed at which the bar must be moved to produce a current of 0.135 A in the resistor. (b) What is the direction of the induced current? Explain....
A zero resistance rod is sliding west along two zero resistance rails that are 2.3 m apart, on the ground where the earth’s magnetic field is nearly vertical with a magnitude of 0.60 mT. the bar is moving with a velocity 60 m/s. As it moves through the earth’s magnetic field an EMF is generated that creates a current flowing through the rails. a far away western resistance completes the circuit with a 5 Ω. What is voltage difference across...
Example Variation Problem 27.30 Two parallel conducting rails with negligible resistance are 50.0 cm apart and are connected together at one end by an 16.8-2 resistor. A conducting bar, also with negligible resistance, is free to slide along the rails. The system is in a region where a 325-mT magnetic field points perpendicular to the plane of the rails, as shown in (Figure 1). Part A How fast should the bar be pulled in order to produce a current of...
The figure shows a 11-cm-long metal rod pulled along two frictionless, conducting rails at a constant speed of 3.9 m/s. The rails have negligible resistance, but the rod has a resistance of 0.65 Ω . (Figure 1)FigureThe figure shows a vertical rod sliding along a pair of horizontal rails to the left at speed v. The rails are connected at their left ends. Magnetic field B of 1.4 teslas is directed into the page in the whole region.Part AWhat is...
the rod shown moves to the right on zero resistance rails at a speed of v=8.0m/s. if B=1.4T everywhere. what is the current through the 5 ohm resistor? (positive means clockwise current and negative means counterclockwise current) B ο • 5.0 Ω V 4.0 cm