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Chapter 30, Problem 073 Two coils are at fixed locations. When coil 1 has no current...
Coil 1 has L1 = 50 mH and M, = 104 turns. Coil 2 has L2...
Coil 1 has L1 = 50 mH and M, = 104 turns. Coil 2 has L2 = 68 mH and M2 = 227 turns. The coils are fixed in place; their mutual inductance M is 3.6 mH. A 8.0 mA current in coil 1 is changing at the rate of 4.8 A/s. (a) What magnetic flux D12 links coil 1, and (b) what self-induced emf appears in that coil? (c) What magnetic flux D21 links coil 2, and (d) what...
Coil 1 has L1 = 40 mH and N1 = 101 turns. Coil 2 has L2...
Coil 1 has L1 = 40 mH and N1 = 101 turns. Coil 2 has L2 = 41 mH and N2 = 234 turns. The coils are fixed in place; their mutual inductance M is 5.6 mH. A 6.1 mA current in coil 1 is changing at the rate of 4.4 A/s. (a) What magnetic flux Φ12 links coil 1, and (b) what self-induced emf appears in that coil? (c) What magnetic flux Φ21 links coil 2, and (d) what...
Chapter 30, Problem 072 has L1 = 26 mH and N1 = 122 tums. Coll 2...
Chapter 30, Problem 072 has L1 = 26 mH and N1 = 122 tums. Coll 2 has L2 = 68 mH and N2 = 234 turns. The colls are fixed in place; their mutual inductance M is 5.2 mH. A 6.8 A current in coil 1 is changing at the rate of 6.0 A/s a w at magnetic flux Φ12 lin 1, and (b) what self-induced emf appears in that col? (c) Wh t magnetic flux Φ21 links coil 2,...
Please show the derivation of the formulas! Coil 1 has L1 = 25 mH and N1...
Please show the derivation of the formulas!
Coil 1 has L1 = 25 mH and N1 = 100 turns. Coil 2 has L2 = 40mH and N2 = 200 turns. The coils are fixed in place; their mutual inductance M is 3.0 mH. A 6.0 mA current in coil 1 is changing at the rate of 4.0 A/s. (a) What magnetic flux 012 links coil 1, and (b) what self-induced emf appears in that coil? (c) What magnetic flux 021...
Two coils are close to each other. The first coil carries a current given by i(t)...
Two coils are close to each other. The first coil carries a current given by i(t) = 5.90e−0.0250t sin 120πt, where i is in amperes and t is in seconds. At t = 0.815 s, the emf measured across the second coil is −3.15 V. What is the mutual inductance of the coils?
Two coils have mutual inductance of M = 3.20×10−4 H . The current I1 in the...
Two coils have mutual inductance of M = 3.20×10−4 H . The current I1 in the first coil increases at a uniform rate of 860 A/s . A) What is the magnitude of the induced emf in the second coil? (answer in V) B) Suppose that the current described is in the second coil rather than the first. What is the magnitude of the induced emf in the first coil? (answer in V)
Two coils are close to each other. The first coil carries a current given by i(t)...
Two coils are close to each other. The first coil carries a current given by i(t) = 5.20e-0.0250t sin 120nt, where i is in amperes and t is in seconds. At t = 0.805 s, the emf measured across the second coil is -2.35 V. What is the mutual inductance of the coils? mH
Two coils are close to each other. The first coil carries a current given by i(t)...
Two coils are close to each other. The first coil carries a current given by i(t) = 5.60e−0.0250t sin 120πt, where i is in amperes and t is in seconds. At t = 0.775 s, the emf measured across the second coil is −2.50 V. What is the mutual inductance of the coils? mH
Chapter 30, Problem 041 A circular coil has a 11.1 cm radius and consists of 33.0...
Chapter 30, Problem 041 A circular coil has a 11.1 cm radius and consists of 33.0 closely wound turns of wire. An externally produced magnetic field of magnitude 3.26 mT is perpendicular to the coil. (a) If no current is in the coil, what magnetic flux links its turns? (b) When the current in the coil is 3.34 A in a certain direction, the net flux through the coil is found to vanish. What is the inductance of the coil?...
Your answer is partially correct. Two coils of wire are placed close together. Initially, a current...
Your answer is partially correct. Two coils of wire are placed close together. Initially, a current of 2.19 A exists in one of the coils, but there is no current in the other. The current is then switched off in a time of 2.12 x 102 s. During this time, the average emf induced in the other coil is 1.49 V. What is the mutual inductance of the two-coil system? Switch l! Primary Secondary Number i 153.9 Units Н.
Coil 1 has L1 = 50 mH and M, = 104 turns. Coil 2 has L2 = 68 mH and M2 = 227 turns. The coils are fixed in place; their mutual inductance M is 3.6 mH. A 8.0 mA current in coil 1 is changing at the rate of 4.8 A/s. (a) What magnetic flux D12 links coil 1, and (b) what self-induced emf appears in that coil? (c) What magnetic flux D21 links coil 2, and (d) what...
Chapter 30, Problem 072 has L1 = 26 mH and N1 = 122 tums. Coll 2 has L2 = 68 mH and N2 = 234 turns. The colls are fixed in place; their mutual inductance M is 5.2 mH. A 6.8 A current in coil 1 is changing at the rate of 6.0 A/s a w at magnetic flux Φ12 lin 1, and (b) what self-induced emf appears in that col? (c) Wh t magnetic flux Φ21 links coil 2,...
Please show the derivation of the formulas!
Coil 1 has L1 = 25 mH and N1 = 100 turns. Coil 2 has L2 = 40mH and N2 = 200 turns. The coils are fixed in place; their mutual inductance M is 3.0 mH. A 6.0 mA current in coil 1 is changing at the rate of 4.0 A/s. (a) What magnetic flux 012 links coil 1, and (b) what self-induced emf appears in that coil? (c) What magnetic flux 021...
Two coils are close to each other. The first coil carries a current given by i(t) = 5.20e-0.0250t sin 120nt, where i is in amperes and t is in seconds. At t = 0.805 s, the emf measured across the second coil is -2.35 V. What is the mutual inductance of the coils? mH
Chapter 30, Problem 041 A circular coil has a 11.1 cm radius and consists of 33.0 closely wound turns of wire. An externally produced magnetic field of magnitude 3.26 mT is perpendicular to the coil. (a) If no current is in the coil, what magnetic flux links its turns? (b) When the current in the coil is 3.34 A in a certain direction, the net flux through the coil is found to vanish. What is the inductance of the coil?...
Your answer is partially correct. Two coils of wire are placed close together. Initially, a current of 2.19 A exists in one of the coils, but there is no current in the other. The current is then switched off in a time of 2.12 x 102 s. During this time, the average emf induced in the other coil is 1.49 V. What is the mutual inductance of the two-coil system? Switch l! Primary Secondary Number i 153.9 Units Н.
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