Chapter 32 Two solenoids (1) and (2), spaced close to each other and sharing the same cylindrical axis, have 100 and 200 turns, respectively. A current of 2 A in solenoid (1) produces an average flux of 300 µWb through each turn of (1) and a flux of 90.0 µWb through each turn of (2). (b) What is the inductance of solenoid (1)? (c) What emf is induced in solenoid (2) when the current in solenoid (1) changes at the rate of 0.500 A/s? (a) Calculate the mutual inductance of the two solenoids.
Chapter 32 Two solenoids (1) and (2), spaced close to each other and sharing the same cylindrical axis, have 100 and 200 turns, respectively. A current of 2 A in solenoid (1) produces an average flux of 300 µWb through each turn of (1) and a flux of 90.0 µWb through each turn of (2). (b) What is the inductance of solenoid (1)? (c) What emf is induced in solenoid (2) when the current in solenoid (1) changes at the rate of 0.500 A/s? (a) Calculate the mutual inductance of the two solenoids.
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Transcribed Image Text:Chapter 32
Two solenoids (1) and (2), spaced close to each other and sharing the same cylindrical axis, have 100 and 200
turns, respectively. A current of 2 A in solenoid (1) produces an average flux of 300 µWb through each turn of
(1) and a flux of 90.0 µWb through each turn of (2).
(b) What is the inductance of solenoid (1)?
(c) What emf is induced in solenoid (2) when the current in solenoid (1) changes at the rate of 0.500 A/s?
(a) Calculate the mutual inductance of the two solenoids.
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