a) A conducting metal bar moving in a magnetic field "completes the circuit" as shown below, and acts as an emf source for the circuit. If the resistive element is a 25-W household light bulb with an electrical resistance of 575 N, how fast would the bar have to move to make the bulb shine at its full brightness if l=20cm and the magnetic field strength is 0.50 T? M R F. m х х х х х b) Is this an effective way to light a light bulb? c) If the velocity was 1/10 that calculated in part A, how much power would be dissipated by the bulb? d) What direction will the current travel, clockwise or counter-clockwise and why? P.
a) A conducting metal bar moving in a magnetic field "completes the circuit" as shown below, and acts as an emf source for the circuit. If the resistive element is a 25-W household light bulb with an electrical resistance of 575 N, how fast would the bar have to move to make the bulb shine at its full brightness if l=20cm and the magnetic field strength is 0.50 T? M R F. m х х х х х b) Is this an effective way to light a light bulb? c) If the velocity was 1/10 that calculated in part A, how much power would be dissipated by the bulb? d) What direction will the current travel, clockwise or counter-clockwise and why? P.
Chapter13: Electromagnetic Induction
Section: Chapter Questions
Problem 76CP: A 0.50-kg copper sheet drops through a uniform horizontal magnetic field of 1.5 T, and it reaches a...
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