PRACTICE EXERCISE 9.1 = Consider the loop of Figure 9.5. If B = 0.5a₂ Wb/m², R = 20 N, ¤ rod is moving with a constant velocity of 8a, m/s, find (a) The induced emf in the rod (b) The current through the resistor (c) The motional force on the rod (d) The power dissipated by the resistor. Answer: (a) 0.4 V, (b) 20 mA, (c) —a¸ mN, (d) 8 mW. 10 cm, and the
PRACTICE EXERCISE 9.1 = Consider the loop of Figure 9.5. If B = 0.5a₂ Wb/m², R = 20 N, ¤ rod is moving with a constant velocity of 8a, m/s, find (a) The induced emf in the rod (b) The current through the resistor (c) The motional force on the rod (d) The power dissipated by the resistor. Answer: (a) 0.4 V, (b) 20 mA, (c) —a¸ mN, (d) 8 mW. 10 cm, and the
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:PRACTICE EXERCISE 9.1
=
Consider the loop of Figure 9.5. If B = 0.5a₂ Wb/m², R = 20 N, € l
rod is moving with a constant velocity of 8a, m/s, find
(a) The induced emf in the rod
(b) The current through the resistor
(c) The motional force on the rod
(d) The power dissipated by the resistor.
Answer: (a) 0.4 V, (b) 20 mA, (c) —a¸ mN, (d) 8 mW.
10 cm, and the
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