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12 Nov 2019
The circuit shown has the following component values: E = 11 V,R1 = 68 kΩ, R2 = 1.5 kΩ, and L = 15 mH.
a. Determine the time constant (Ï) of the circuit after the switchcloses. ms
b. After the switch closes, determine the steady-state currentthrough the inductor. mA
c. Assume the switch has been closed for a long period of time,determine the energy stored in the inductor. μJ
d. Assume the switch has been closed for a long period of time.Determine the amount of voltage that appears across the inductor atthe instant the switch opens (pay careful attention to thepolarity). v
The circuit shown has the following component values: E = 11 V,R1 = 68 kΩ, R2 = 1.5 kΩ, and L = 15 mH.
a. Determine the time constant (Ï) of the circuit after the switchcloses. ms
b. After the switch closes, determine the steady-state currentthrough the inductor. mA
c. Assume the switch has been closed for a long period of time,determine the energy stored in the inductor. μJ
d. Assume the switch has been closed for a long period of time.Determine the amount of voltage that appears across the inductor atthe instant the switch opens (pay careful attention to thepolarity). v