** 18. The following questions refer to the circuit represented by the diagram at right. Think of R, as the internal resistance of the inductor. R, = 50 N a) Immediately after the switch is closed, find the magnitude and direction of the conventional current (if any) through the battery, and find the potential Switch difference across the inductor. b) A long time after the switch is closed, find the magnitude and direction of the conventional current (if any) through the battery, and find the potential R, = 50 N V = 200 L = 20 H difference across the inductor. c) After the switch has been closed for a long time it is suddenly opened. Immediately after the switch is opened, find the magnitude and direction of the conventional current (if any) through the resistor R, and the potential difference across the inductor. ww.

 

The following questions refer to the circuit represented by the diagram at

right. Think of R2 as the internal resistance of the inductor.

a) Immediately after the switch is closed, find the magnitude and direction of the conventional current (if any) through the battery, and find the potential difference across the inductor.

b) A long time after the switch is closed, find the magnitude and direction of the conventional current (if any) through the battery, and find the potential difference across the inductor.

c) After the switch has been closed for a long time it is suddenly opened. Immediately after the switch is opened, find the magnitude and direction of the conventional current (if any) through the resistor R1 and the potential difference across the inductor.

Transcribed Image Text:

** 18. The following questions refer to the circuit represented by the diagram at right. Think of R, as the internal resistance of the inductor. R2 = 50 N a) Immediately after the switch is closed, find the magnitude and direction of the conventional current (if any) through the battery, and find the potential Switch difference across the inductor. b) A long time after the switch is closed, find the magnitude and direction of the conventional current (if any) through the battery, and find the potential R = 50 N V = 200 L = 20 H %3D difference across the inductor. c) After the switch has been closed for a long time it is suddenly opened. Immediately after the switch is opened, find the magnitude and direction of the conventional current (if any) through the resistor R, and the potential difference across the inductor.