What Happens When a Proton is Released in a Changing Magnetic Field?

AI Thread Summary
When a proton is released in a changing magnetic field, it initially remains stationary until influenced by the induced electric field created by the changing magnetic field. This induced electric field exerts a force on the proton, causing it to accelerate. As the proton begins to move, it experiences a magnetic force due to its velocity and the existing magnetic field, which is determined by the right-hand rule. The net force acting on the proton is the vector sum of the electric and magnetic forces. Ultimately, the proton's motion will be dictated by the combined effects of these forces.
oh.rry21
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Homework Statement



I have a circular magnetic field and a proton (A) a distance Ra from the center of the circle. The magnetic field is traveling into the page and is decreasing at some rate B(t). I have the radius of the circle Rb.

The question is that when the proton is released, what happens to the proton?

Homework Equations



F = qv x b
Right Hand Rule

The Attempt at a Solution



I'm pretty sure that with a changing magnetic field, it will create an induced current/magnetic field that will exert a force on it. Its not a mathematical problem necessarily i just need to know what happens to the proton. in the midst of a changing magnetic field.
 
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is the proton moving?
 
well i assume it starts as stationary because the problems says "when the proton is released". so no i don't think there's a velocity vector to it.
 
The changing magnetic field will create an electric field (induced EMF).
 
so the induced EMF (E) will exert a force on the proton F=qE then?

So... i use faraday's law to determine the E and just multiply it by q?
 
oh.rry21 said:
so the induced EMF (E) will exert a force on the proton F=qE then?

So... i use faraday's law to determine the E and just multiply it by q?
Right. But as soon as it starts moving there will be a magnetic force on the proton as well.
 
so at the end of the day.

the induced emf (the E field) will exert a force on the proton, but as the proton moves, there will be a magnetic force on the proton (cross product of its velocity and the magnetic field)?

in terms of vectors then...can i expect it to move wherever the resultant of the summed E and B field vector?
 
oh.rry21 said:
so at the end of the day.

the induced emf (the E field) will exert a force on the proton, but as the proton moves, there will be a magnetic force on the proton (cross product of its velocity and the magnetic field)?
Sounds good.

in terms of vectors then...can i expect it to move wherever the resultant of the summed E and B field vector?
You can expect that the net force on it will be the vector sum of the electric and magnetic forces.
 

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