) A 400-turn solenoid has a cross-sectional area 1.81 x 10-3 m² and length 20 cm carrying a current of 3.4 A. Calculate the i) inductance of the solenoid. ii) energy stored in the solenoid. iii) induced emf in the solenoid if the current drops uniformly to zero in 55 ms.

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Chapter1: Units, Trigonometry. And Vectors
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1) a)
movement of solenoid
magnet
solenoid
resistor
Figure 1
The solenoid in Figure 1 is moved at constant velocity towards a fixed bar magnet.
Using Lenz's law, determine the direction of the induced current through the resistor.
Explain your answer.
b) A solenoid of radius 5 cm has 200 turns and length of 15 cm. Calculate the
i) inductance
ii) rate at which current must change for it to produce an induced emf of 50 mV.
c) A 400-turn solenoid has a cross-sectional area 1.81 x 10-3 m² and length 20 cm
carrying a current of 3.4 A. Calculate the
i) inductance of the solenoid.
ii) energy stored in the solenoid.
iii) induced emf in the solenoid if the current drops uniformly to zero in 55 ms.
Transcribed Image Text:1) a) movement of solenoid magnet solenoid resistor Figure 1 The solenoid in Figure 1 is moved at constant velocity towards a fixed bar magnet. Using Lenz's law, determine the direction of the induced current through the resistor. Explain your answer. b) A solenoid of radius 5 cm has 200 turns and length of 15 cm. Calculate the i) inductance ii) rate at which current must change for it to produce an induced emf of 50 mV. c) A 400-turn solenoid has a cross-sectional area 1.81 x 10-3 m² and length 20 cm carrying a current of 3.4 A. Calculate the i) inductance of the solenoid. ii) energy stored in the solenoid. iii) induced emf in the solenoid if the current drops uniformly to zero in 55 ms.
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