ETS extra, Q#29
Posted: Thu Oct 22, 2009 5:10 am
A long, thin, vertical wire has a net positive charge L per unit length. In addition, there is a current I in the wire. A charged particle moves with speed u in a straight line trajectory, parallel to the wire and at a distance r from the wire. Assume that the only forces on the particle are those that result from the charge on and the current in the wire and that u is much less than c, the speed of light.
Q:
The particle is later observed to move in a straight line trajectory, parallel to the wire but at a distance 2r from the wire. If the wire carries a current I and the charge per unit length is still L, the speed of the particle is:
A) 4u
B) 2u
C) u
D) u/2
E) u/4
Correct answer is (C).
Actually this is related to previous problem (Q28) in which the current was reduced to I/2, then doubling the speed of the particle is necessary to keep it in the same trajectory at distance r. So in this problem the magnetic force is towards the wire direction and electric force is away from the wire -- if both forces are of the same strength then the particle will keep moving straight.
What I don't understand is why it is still moving at speed u at distance 2r, while the other parameters are still the same value. The factor 2 increase of distance to the wire will decrease magnetic force by 2 (B ~ 1/r), while it will decrease electric force by 4 (F ~ 1/r^2). So how come the speed is still the same?? I expect it to be u/2. What did I miss here?
Q:
The particle is later observed to move in a straight line trajectory, parallel to the wire but at a distance 2r from the wire. If the wire carries a current I and the charge per unit length is still L, the speed of the particle is:
A) 4u
B) 2u
C) u
D) u/2
E) u/4
Correct answer is (C).
Actually this is related to previous problem (Q28) in which the current was reduced to I/2, then doubling the speed of the particle is necessary to keep it in the same trajectory at distance r. So in this problem the magnetic force is towards the wire direction and electric force is away from the wire -- if both forces are of the same strength then the particle will keep moving straight.
What I don't understand is why it is still moving at speed u at distance 2r, while the other parameters are still the same value. The factor 2 increase of distance to the wire will decrease magnetic force by 2 (B ~ 1/r), while it will decrease electric force by 4 (F ~ 1/r^2). So how come the speed is still the same?? I expect it to be u/2. What did I miss here?