Two ideal wires are connected to a 1.6 ft resistor in a region of space where th
ID: 1617791 • Letter: T
Question
Two ideal wires are connected to a 1.6 ft resistor in a region of space where there is a uniform magnetic field (beta vector_ext) of unknown magnitude and direction. A zero-resistance 10.0 cm bar is placed across the wires and moved away from the resistor at a speed of 400 m/s (see figure). The bars movement induces an emf in the circuit which results in a 20 A counter-clockwise current. a) What direction does beta vector_ext point? (circle one) INTO THE PACE UP THE PAGE OUT OF THE PAGE DOWN THE PAGE b) What is the magnitude of beta vector_ext?Explanation / Answer
Given that
velocity V=400 m/s
current i=20 A
resistance R=1.6 ohm
length L=0.1 m
basing on the concept of Motion emf
now we find the magnetic field
magnetic field B=iR/vL=20*1.6/400*0.1
=0.8 T
the magnetic field is out of the page
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