The magnetic field inside of a very long solenoid is B = 0.024 T when the current = 2.3 A. The radius of the cross-sectional area of the solenoid is R = 0.025 m. a. Determine the energy density due to magnetic field inside of the solenoid and the energy stored in the solenoid per 1.0 m of length of the solenoid.? b. What is the inductance of the solenoid per 1.0 m of length? c. If the magnetic field in the solenoid starts to decrease at the rate of 0.100 T/s, what is the magnitude of the induced electric field at the radial distance r= 0.010 m from the axis of the solenoid?

The magnetic field inside of a very long solenoid is B = 0.024 T when the current = 2.3 A. The radius of the cross-sectional area of the solenoid is R = 0.025 m. a. Determine the energy density due to magnetic field inside of the solenoid and the energy stored in the solenoid per 1.0 m of length of the solenoid.? b. What is the inductance of the solenoid per 1.0 m of length? c. If the magnetic field in the solenoid starts to decrease at the rate of 0.100 T/s, what is the magnitude of the induced electric field at the radial distance r= 0.010 m from the axis of the solenoid?

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Question

The magnetic field inside of a very long solenoid is B = 0.024 T when the current į
= 2.3 A. The radius of the cross-sectional area of the solenoid is R= 0.025 m.
a. Determine the energy density due to magnetic field inside of the solenoid and
the energy stored in the solenoid per 1.0 m of length of the solenoid.?
b. What is the inductance of the solenoid per 1.0 m of length?
c. If the magnetic field in the solenoid starts to decrease at the rate of 0.100 T/s,
what is the magnitude of the induced electric field at the radial distance r= 0.010
m from the axis of the solenoid?

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