Part 1 A) When a bar magnet is moved through a stationary wire coil, an electric
ID: 1323951 • Letter: P
Question
Part 1
A) When a bar magnet is moved through a stationary wire coil, an electric current flows through the wire. What kind of force is most directly responsible for making current flow around the coil?
B)
When a wire coil is moved over a stationary bar magnet, an electric current flows through the wire. In this case, what kind of force is most directly responsible for making current flow around the coil?
Part 2
Which reactance will increase when the angular frequency in the circuit increases?
a) both capacitive and resistive
b) resistive
c) both capacitive and inductive
d) capavitive
e) inductive
Part 3
In an LRC Circuit, when the inductive and capacitive ractance is 0
a) the phase is pi/2
b) the phase angle is zero
c) the resistance is zero
d) the voltage is zero
e) the current is zero
Explanation / Answer
I just did this on my sapling. For the first question there is an electric force. For the second question, there is a magnetic force.