9. An inductance of 15mH has a current drawing 1= 15sin(650t-30%) A. Determine the equation of voltage in the circuit.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
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Chapter1: Introduction
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5. A conductor 800 mm long moves across a uniform magnetic field with its axis making 35° with the direction of the magnetic
field. The flux density is 10,000 lines/in² and a voltage of 45 V appears across the conductor. Determine the velocity of the
conductor in m/sec.
6. A periodic voltage has the following voltages: 15 V at 0.02 sec. 9 V at another 0.05 sec and 0 V for another 0.02 sec, the
cycle is then repeated. What will be the RMS value?
7. A conductor 10 in long moves across a uniform magnetic field at a velocity of 120 cm/sec with its axis making 65° with the
direction of the magnetic field. If a voltage of 120 V appears across the conductor. Determine the magnetic induction of the
conductor.
8. A resistance of 120 ohms is supplied by a 220 V, 60 Hz source. Determine the equation of voltage and current in the circuit.
9. An inductance of 15mH has a current drawing 1 = 15sin(650t-30%) A. Determine the equation of voltage in the circuit
10. A 250 pico-farad capacitance has a current drawing i = -12.75 cos(250t+40) A. Determine the equation of voltage in the
circuit
CS
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Transcribed Image Text:5. A conductor 800 mm long moves across a uniform magnetic field with its axis making 35° with the direction of the magnetic field. The flux density is 10,000 lines/in² and a voltage of 45 V appears across the conductor. Determine the velocity of the conductor in m/sec. 6. A periodic voltage has the following voltages: 15 V at 0.02 sec. 9 V at another 0.05 sec and 0 V for another 0.02 sec, the cycle is then repeated. What will be the RMS value? 7. A conductor 10 in long moves across a uniform magnetic field at a velocity of 120 cm/sec with its axis making 65° with the direction of the magnetic field. If a voltage of 120 V appears across the conductor. Determine the magnetic induction of the conductor. 8. A resistance of 120 ohms is supplied by a 220 V, 60 Hz source. Determine the equation of voltage and current in the circuit. 9. An inductance of 15mH has a current drawing 1 = 15sin(650t-30%) A. Determine the equation of voltage in the circuit 10. A 250 pico-farad capacitance has a current drawing i = -12.75 cos(250t+40) A. Determine the equation of voltage in the circuit CS Scanned with CamScanner
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