Shown below is a coil of a wire and a nearby solenoid, For each of the scnearios below, state whether a current is induced in the coil and why using Faraday's Law. The coil is rotating about a horizontal axis like a steering wheel, as indicated by the “a” arrows. (Note: the coil is a circle) The coil is rotating about a vertical axis like a coin spinning on a tabletop, as indicated by the “b” arrows. The coil is stationary while the solenoid rotates axially, as indicated by the “c” arrows. Both coil and solenoid are stationary, and the current in the solenoid is decreasing.

Shown below is a coil of a wire and a nearby solenoid, For each of the scnearios below, state whether a current is induced in the coil and why using Faraday's Law. The coil is rotating about a horizontal axis like a steering wheel, as indicated by the “a” arrows. (Note: the coil is a circle) The coil is rotating about a vertical axis like a coin spinning on a tabletop, as indicated by the “b” arrows. The coil is stationary while the solenoid rotates axially, as indicated by the “c” arrows. Both coil and solenoid are stationary, and the current in the solenoid is decreasing.