smahapatra3
Apr14-11, 10:15 PM
1. The problem statement, all variables and given/known data
A coil of wire is connected to a power supply, and a current runs in the coil. A single loop of wire is located near the coil, with its axis on the same line as the axis of the coil. The radius of the loop is 3 cm.
http://www.webassign.net/mi3/23.P.028.alt01-coil_loop.jpg
At a later time t2, the current in the coil begins to decrease.
(g) What is the magnitude of the electric field at location P, which is inside the wire?
(h) Now the wire loop is removed. Everything else remains as it was at time t2; the magnetic field is still changing at the same rate. What is the magnitude of the electric field at location P?
2. Relevant equations
emf = -d(phimag)/d(t)
3. The attempt at a solution
I found the emf to be 6.504e-4. I have no idea how to do g, but I thought h should be 0 since the loop is removed, but that was wrong.
A coil of wire is connected to a power supply, and a current runs in the coil. A single loop of wire is located near the coil, with its axis on the same line as the axis of the coil. The radius of the loop is 3 cm.
http://www.webassign.net/mi3/23.P.028.alt01-coil_loop.jpg
At a later time t2, the current in the coil begins to decrease.
(g) What is the magnitude of the electric field at location P, which is inside the wire?
(h) Now the wire loop is removed. Everything else remains as it was at time t2; the magnetic field is still changing at the same rate. What is the magnitude of the electric field at location P?
2. Relevant equations
emf = -d(phimag)/d(t)
3. The attempt at a solution
I found the emf to be 6.504e-4. I have no idea how to do g, but I thought h should be 0 since the loop is removed, but that was wrong.