Calculate the work done when a conductor moves through a mag

AI Thread Summary
A conductor 7.5m long moves through a magnetic field of 0.64T, generating an emf of 36V in a closed circuit with a resistance of 4.3 ohms. The velocity of the conductor is calculated to be 7.5 m/s. To find the work done as the conductor moves 92.3 cm, the current in the circuit is determined to be approximately 8.37 A. The electrical power is calculated as 301.40 W, leading to a work done of 37.092 J. This calculation confirms the energy dissipated by the circuit as the conductor moves through the magnetic field.
DevonZA
Messages
181
Reaction score
6

Homework Statement


A conductor 7.5m long, is moved at a uniform speed at right angle to its length and to a uniform magnetic field. The density of the magnetic field is 0.64T. The emf generated in the conductor is 36V and the conductor is part of the closed circuit that has a resistance of 4.3ohms. Calculate the velocity at which the conductor moves through the magnetic field? Calculate the work done when the conductor has moved 92.3cm through the magnetic field.

Homework Equations


V=-d(BA)/dt
V=-Bls

The Attempt at a Solution


s=-V/Bl
s=-36/0.64x7.5
=7.5m/s

I am not sure how to calculate the work done but the answer is one of the following :
1. 36.001J
2. 35.333J
3. 36.444J
4. 37.092J
 
Physics news on Phys.org
The work done will be the energy dissipated by the closed circuit loop.
This loop carries a current = I = 36/4.3 = 8.3721 a. The electrical power in this circuit = VI.
Power = VI = 36(8.3721) = 301.3953
Work = Energy used = Power • time
Where the time for loop to move a distance = 0.932 m at a speed = 7.5 m/s or t = 0.923/7.5 = 0.12307 s
Work = (301.3953)(0.12307) = 37.092 J ANS 4.
 
  • Like
Likes DevonZA
Hi Jim

Thank you so much, makes perfect sense.
 
Thread 'Voltmeter readings for this circuit with switches'

Thread 'Voltmeter readings for this circuit with switches'

TL;DR Summary: I would like to know the voltmeter readings on the two resistors separately in the picture in the following cases , When one of the keys is closed When both of them are opened (Knowing that the battery has negligible internal resistance) My thoughts for the first case , one of them must be 12 volt while the other is 0 The second case we'll I think both voltmeter readings should be 12 volt since they are both parallel to the battery and they involve the key within what the...
View full post »
Thread 'Correct statement about a reservoir with an outlet pipe'

Thread 'Correct statement about a reservoir with an outlet pipe'

The answer to this question is statements (ii) and (iv) are correct. (i) This is FALSE because the speed of water in the tap is greater than speed at the water surface (ii) I don't even understand this statement. What does the "seal" part have to do with water flowing out? Won't the water still flow out through the tap until the tank is empty whether the reservoir is sealed or not? (iii) In my opinion, this statement would be correct. Increasing the gravitational potential energy of the...
View full post »

Similar threads

Why Is Work Positive When Done Against the Electric Field?
Replies
22
Views
3K
EMF shielding using a conductor
Replies
6
Views
2K
Making sense of sequence of ideas in MIT OCW's 8.02 notes on Faraday
Replies
1
Views
1K
Electromagnetic effects and Magnetic Fields Questions
Replies
2
Views
2K
Which wingtip will be positive when airplane flies?
Replies
7
Views
4K
Understanding work in translation and rotation of a magnetic dipole
Replies
1
Views
2K
Magnetic energy of a conductor with a hole
Replies
1
Views
1K
Induced EMF in a moving Loop Conductor
Replies
3
Views
2K
What is the induced magnetic force on this closed current loop?
Replies
12
Views
2K
Motional EMF in the presence of a time-varying magnetic field
Replies
11
Views
3K

Hot Threads

Recent Insights

Back
Top