About the circuit below: a) Assume zero initial voltage and zero initial current in the inductor. The switch is closed at t=0. Find the current and voltage in the inductor. b) Find the current and voltage across R2, after the switch is closed in t>0. c) Find the current and voltage across R3, after the switch is closed in t>0. R1 = R5 = 55k Ω R2 = R4 = 20k Ω R3 = R6 = 25k Ω V = 2500 v L1 = 50 mH
Sinusoids And Phasors
Sinusoids are defined as the mathematical waveforms that are used to describe the nature of periodic oscillations.
Circuit Theory
Electric circuits are a network that comprises of a closed-loop, which helps in providing a return path for the current through a switch. When the switch is activated, the load operates, and the current accepts a path to finish the circuit at a low potential level from the opposing high potential level. Electric circuits theory is a linear analysis that helps in establishing a linear relation of voltage and current for R (resistance), L (inductance), and C (capacitance).
About the circuit below:
a) Assume zero initial voltage and zero initial current in the inductor. The switch is closed at t=0. Find the current and voltage in the inductor.
b) Find the current and voltage across R2, after the switch is closed in t>0.
c) Find the current and voltage across R3, after the switch is closed in t>0.
R1 = R5 = 55k Ω
R2 = R4 = 20k Ω
R3 = R6 = 25k Ω
V = 2500 v
L1 = 50 mH
Step by step
Solved in 2 steps with 5 images
