Motional Emf
Motional emf
Faraday’s law tells us that we can induce an emf if we change the magnetic flux in some way. Here, we’re going to look at another way to induce an emf with a different kind of change. Imaging we have a metal (conducting) rod that we are going to move through a magnetic field.
In this picture, the magnetic field is pointing out of the page (the dots) and the metal rod is going to move to the right with a speed v. To make the rod move, I’m going to literally grab it and pull it to the right. Nothing fancy here.
As the bar moves to the right, all the atoms in the bar move to the right, because they are stuck in the bar. This means all the electrons move to the right, all the positive charges move to the right. Everything moves to the right at speed v. Using the RHR, figure out what will happen to the charges in the rod due to the magnetic force on them as they all move to the right through this B-field.
| Practice 11.3.1 |
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As the bar moves to the right, all the atoms in the bar move to the right, because they are stuck in the bar. This means all the electrons move to the right, all the positive charges move to the right. Everything moves to the right at speed v. Using the RHR, figure out… What will happen to the charges in the rod due to the magnetic force on them as they all move to the right through this B-field? |
| Practice 11.3.2 |
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A conducting rod slides on a conducting track in a constant B field directed into the page. What is the direction of the induced (conventional) current? |
Physics Education Research at UNG 