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9 Nov 2019
A conducting rod can slide on a pair parallel conduction rails without friction as shown below. The two rails are connected to a 10 V voltage supply and a 5 ohm resistor. A uniform B filed of 5 T is directed into the page, Find the direction and magnitude of the magnetic force on the rod at the moment you close the switch, Discuss where or not the voltage is induced, and if induced, describe its direction along with other conditions, Derive differential equations that describe the current under condition (b). Assume the rod is at rest when the switch is closed.
A conducting rod can slide on a pair parallel conduction rails without friction as shown below. The two rails are connected to a 10 V voltage supply and a 5 ohm resistor. A uniform B filed of 5 T is directed into the page, Find the direction and magnitude of the magnetic force on the rod at the moment you close the switch, Discuss where or not the voltage is induced, and if induced, describe its direction along with other conditions, Derive differential equations that describe the current under condition (b). Assume the rod is at rest when the switch is closed.
Irving HeathcoteLv2
30 Jan 2019