IP A solenoid has N turns of area A distributed uniformly along its length, When the current in this solenoid increases at the rate of 1.8 A/s, an induced emf of 83 mV is observed. What is the inductance of this solenoid? Express your answer using two significant figures. L= Submit ▾ Part B IVE ΑΣΦ O greater than 83 mV less than 83 mV O equal to 83 mV Request Answer Part C 3 Submit Previous Answers ✓ Correct ✓ Suppose the spacing between coils is doubled. The result is a solenoid that is twice as long but with the same area and number of turns. Will the induced emf in this new solenoid be greater than, less than, or equal to 83 mV when the current changes at the rate of 1.8 A/s? Submit C ? Request Answer mH Explain. Essay answers are limited to about 500 words (3800 characters maximum, including spaces). 3800 Character(s) remaining

IP A solenoid has N turns of area A distributed uniformly along its length, When the current in this solenoid increases at the rate of 1.8 A/s, an induced emf of 83 mV is observed. What is the inductance of this solenoid? Express your answer using two significant figures. L= Submit ▾ Part B IVE ΑΣΦ O greater than 83 mV less than 83 mV O equal to 83 mV Request Answer Part C 3 Submit Previous Answers ✓ Correct ✓ Suppose the spacing between coils is doubled. The result is a solenoid that is twice as long but with the same area and number of turns. Will the induced emf in this new solenoid be greater than, less than, or equal to 83 mV when the current changes at the rate of 1.8 A/s? Submit C ? Request Answer mH Explain. Essay answers are limited to about 500 words (3800 characters maximum, including spaces). 3800 Character(s) remaining

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

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Concept explainers

Voltage Across Inductor

An actor is a passive electrical component that consists of a coil bent in the form of wire which uses electromagnetism to produce electric current through the coil. When the electric current flows through a conductor that is the coil, a magnetic flux is developed around the conductor. This flow of current through the coil creates a magnetic field based on Fleming's Right-hand thumb rule. If there is any decrease in the current passing through the inductor, then the magnetic field will also decrease and energy is released through the generation of electric current. There is also a secondary voltage inducing in the same coil due to the magnetic flux, since it opposes any changes in the electric current flowing through the circuit. An inductor is also called choke, coil, or solenoid. A choke is designed to block certain frequencies when the DC current passes. A winding coil is coated with insulation to give extra insulation and protect the circuit. They are usually tightly wrapped around a central core which is cylindrical in nature so that the magnetic flux can be induced. The solenoid is a three-dimension coil that is used to exhibit electromagnetism when the magnetic field is developed due to the current flowing through the coil. The sign convention of the inductor is the same as the power dissipating device. When the current flows into the positive side of the voltage across the inductor, the value is positive and the inductor dissipates power whereas when the inductor releases the power back to the circuit, the current has a negative sign convention. 

Question

IP A solenoid has N turns of area A distributed uniformly along its length, l.
When the current in this solenoid increases at the rate of 1.8 A/s, an induced
emf of 83 mV is observed.
What is the inductance of this solenoid?
Express your answer using two significant figures.
L=
Submit
Part B
IVE ΑΣΦ
Request Answer
Ogreater than 83 m V
less than 83 m V
O equal to 83 mV
Submit Previous Answers
Part C
Suppose the spacing between coils is doubled. The result is a solenoid that is twice as long but with the same area and number of turns. Will the induced emf in this new solenoid be greater
than, less than, or equal to 83 mV when the current changes at the rate of 1.8 A/s ?
✓ Correct
Submit
B ?
mH
Explain.
Essay answers are limited to about 500 words (3800 characters maximum, including spaces).
3800 Character(s) remaining
Request Answer
✓

Part D
Calculate the induced emf for part B.
Express your answer using two significant figures.
ε =
Submit
15. ΑΣΦ
Request Answer
?
mV

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Step 1: Introduce the formula of induced emf in inductor

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Step 2: Determine the given variables

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Step 3: Calculate the inductance of solenoid

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Step 4: Determine the change of emf by changing solenoid length

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Step 5: Calculate the emf induced when length is doubled

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