S magnet retort stand coil voltmeter 17. Which of the following statements is TRUE when the magnet is dropped inside the solenoid? * A. The induced voltage is zero when the magnet is halfway through the solenoid. B. The voltage reading increases with time until the magnet leaves the solenoid. C. The voltage reading decreases with time until the magnet leaves the solenoid. D. Maximum induced voltage occurs just before the magnet enters the solenoid. E. The magnetic flux inside the solenoid is constant as the magnet is dropped from rest.
S magnet retort stand coil voltmeter 17. Which of the following statements is TRUE when the magnet is dropped inside the solenoid? * A. The induced voltage is zero when the magnet is halfway through the solenoid. B. The voltage reading increases with time until the magnet leaves the solenoid. C. The voltage reading decreases with time until the magnet leaves the solenoid. D. Maximum induced voltage occurs just before the magnet enters the solenoid. E. The magnetic flux inside the solenoid is constant as the magnet is dropped from rest.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:S
magnet
retort
stand
coil
voltmeter
17. Which of the following statements is TRUE when the magnet is dropped inside
the solenoid? *
A. The induced voltage is zero when the magnet is halfway through the solenoid.
B. The voltage reading increases with time until the magnet leaves the solenoid.
C. The voltage reading decreases with time until the magnet leaves the solenoid.
D. Maximum induced voltage occurs just before the magnet enters the solenoid.
E. The magnetic flux inside the solenoid is constant as the magnet is dropped from
rest.
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