- #1
ellieee
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why does the current reverse when the coil is at this position in A.C generator ?
A.C. generator -> why does the current reverse?
AI Thread Summary
In an A.C. generator, the current reverses due to changes in magnetic flux as the coil rotates, which alters the time derivative of the magnetic field. The Lorentz force explains this reversal, as the velocity of conductors moving through the magnetic field changes direction. Lenz's law further clarifies that induced current opposes changes in magnetic flux, dictating the current's direction. As the coil rotates, the current must reverse to maintain compliance with Lenz's law, ensuring that the current in the conductors aligns with the changing magnetic field. This interplay of magnetic flux and current direction is fundamental to the operation of A.C. generators.
why does the current reverse when the coil is at this position in A.C generator ?
- #2
BvU
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Because the number of field lines (the magnetic flux) moves away from a maximum (or towards it, depending on which way it's rotating).
So the time derivative changed sign (or will change, depending on which way it's rotating) .
A better way to look at this is to use the Lorentz force: The velocity with which the pink and blue conductors move through the B field changes sign.
##\ ##
So the time derivative changed sign (or will change, depending on which way it's rotating) .
A better way to look at this is to use the Lorentz force: The velocity with which the pink and blue conductors move through the B field changes sign.
##\ ##
- #3
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Here is an alternate explanation in terms of Lenz's law.
According to Lenz's law, the induced current will run in a direction that will oppose the proposed change in magnetic flux. Look at the picture. The direction of the current is such that it tends to reduce the flux lines through the loop. This means that the proposed change is to increase the field lines through the loop. For that to happen, the loop must be turning counterclockwise.
Having established the sense of rotation, note that the current in the top (pink) wire is into the screen. After the loop has rotated by 180o, the current in the top wire must be into the screen for the same reasons as before. But the top wire now is the blue wire. If the current in the blue wire did not reverse direction somewhere in between (specifically when the field lines are in the plane of the loop), the current in the top wire would be out of the loop and that would violate Lenz's law.
According to Lenz's law, the induced current will run in a direction that will oppose the proposed change in magnetic flux. Look at the picture. The direction of the current is such that it tends to reduce the flux lines through the loop. This means that the proposed change is to increase the field lines through the loop. For that to happen, the loop must be turning counterclockwise.
Having established the sense of rotation, note that the current in the top (pink) wire is into the screen. After the loop has rotated by 180o, the current in the top wire must be into the screen for the same reasons as before. But the top wire now is the blue wire. If the current in the blue wire did not reverse direction somewhere in between (specifically when the field lines are in the plane of the loop), the current in the top wire would be out of the loop and that would violate Lenz's law.
Kindly see the attached pdf. My attempt to solve it, is in it.
I'm wondering if my solution is right. My idea is this: At any point of time, the ball may be assumed to be at an incline which is at an angle of θ(kindly see both the pics in the pdf file). The value of θ will continuously change and so will the value of friction.
I'm not able to figure out, why my solution is wrong, if it is wrong .
Neglect gravity other than that of water; neglect friction.
F1=ρgsh=1000*10*1*(1+4)=50000 N;
F1=ρgsh=1000*10*0.1*4=4000 N;
F3=50000-4000=46000 N?
TL;DR Summary: I came across this question from a Sri Lankan A-level textbook.
Question - An ice cube with a length of 10 cm is immersed in water at 0 °C. An observer observes the ice cube from the water, and it seems to be 7.75 cm long. If the refractive index of water is 4/3, find the height of the ice cube immersed in the water.
I could not understand how the apparent height of the ice cube in the water depends on the height of the ice cube immersed in the water. Does anyone have an...
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