- -1.60t), where I is in amperes A long solenoid has n = 410 turns per meter and carries a current given by I = 28.0(1 e and t is in seconds. Inside the solenoid and coaxial with it is a coil that has a radius of R = 6.00 cm and consists of a total of N = 250 turns of fine wire (see figure below). What emf is induced in the coil by the changing current? (Use the following as necessary: t. Assume Ɛ is in mV and t is in seconds.) E= 65.26e -1.60t × n turns/m N turns R oooooooooooo
- -1.60t), where I is in amperes A long solenoid has n = 410 turns per meter and carries a current given by I = 28.0(1 e and t is in seconds. Inside the solenoid and coaxial with it is a coil that has a radius of R = 6.00 cm and consists of a total of N = 250 turns of fine wire (see figure below). What emf is induced in the coil by the changing current? (Use the following as necessary: t. Assume Ɛ is in mV and t is in seconds.) E= 65.26e -1.60t × n turns/m N turns R oooooooooooo
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-1.60t), where I is in amperes
A long solenoid has n = 410 turns per meter and carries a current given by I = 28.0(1 e
and t is in seconds. Inside the solenoid and coaxial with it is a coil that has a radius of R = 6.00 cm and consists of a total
of N = 250 turns of fine wire (see figure below). What emf is induced in the coil by the changing current? (Use the following
as necessary: t. Assume Ɛ is in mV and t is in seconds.)
E= 65.26e
-1.60t
×
n turns/m
N turns
R
oooooooooooo
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