The answer for above problem is explained below.
-/1 points 31 OSUniPhys1 31.4. P.053. My For the circuit shown below, E = 14 V,...
For the circuit shown below, E = 14 V, L = 3.6 mh, and R = 7.0 N. After steady state is reached with S, closed and S, open, s, is closed and immediately thereafter (at t = 0) s, is opened. S2 W Lecce (a) Determine the current through L in A) at t = 0. (b) Determine the current through L (in A) at t = 4.0 x 10-4 s. A (c) Determine the voltages across L and...
For the circuit shown below, E = 28 V, L = 5.2 mh, and R = 6.0 0. After steady state is reached with S, closed and S, open, s, is closed and immediately thereafter (at t = 0) S, is opened. R N (a) Determine the current through L (in A) at t = 0. (b) Determine the current through L (in A) at t = 4.0 x 10-4 s. (c) Determine the voltages across L and R (in...
For the circuit shown below, € = 16 V, L = 5.5 mH, and R= 6.512. After steady state is reached with S. closed and Sopen, at t = 0, S2 is closed and Sy is opened. Determine (a) the current through L att = 0, (b) the current through L at t = 3 x 10-4 s, (c) the voltage across R on the right at t = 3 x 10-4 s, and (d) the rate at which current...
My Notes oSUniPhys1 31.4. P.057. 0/1 points Previous Answers The current in the RL circuit shown below reaches four-fifths its maximum value in 1.50 ms after the switch S, is thrown. L R S1 (a) Determine the time constant of the circuit (in ms) 67.22213 Xms (b) Determine the resistance of the circuit (in Q) if L = 200 mH. 29.7525
In the adjoining circuit, the switch, which had been closed for a sufficiently long time for steady state to be reached, is opened at time t = 0. Determine the following, as a function of time: (a) The current I L(t) through the inductor, and (b) The voltage v R(t) across the 1k Ohm resistor. I=0 Rs=5.12 [26) Vs= + Ro= 1 k 2 20 V 1 H 0000 vr(t)
The switch S of the circuit shown below is closed at t 0 4.0 Q 4.5 H 0000 12 V 4.0 Q 9.0 H S (a) Determine the initial current through the battery (in A) 0 A (b) Determine the steady-state current through the battery (in A) A 0000
Rs=50 Wh. Problem 2. (8 Points) In the adjoining circuit, the switch, which had been closed for a sufficiently long time for steady state to be reached, is opened at time t = 0. Determine the following, as a function of time: (a) The current il(t) through the inductor, and (b) The voltage vr(t) across the 1k2 resistor. Vs fico) R. i kny (1) 20 V 1 H 3
4. -/1 points OSUniPhys1 32.3.P.029. For the circuit shown below, what are the following? (200 V)sin(1207) 8.00 + 430 pF 0000 40 mH (a) the total impedance (in ) (b) the phase angle between the current and the emf in rad) rad (c) Write an expression for it). (Use the following as necessary: t. Assume (t) is in amps and t is in seconds. Do not include units in your answer.) (0) -
= 0 Rs=50 In the adjoining circuit, the switch, which had been closed for a sufficiently long time for steady state to be reached, is opened at time t = 0. Determine the following, as a function of time: (a) The current iz(t) through the inductor, and (6) The voltage vr(t) across the 1k12 resistor. Vs= 20 V ficco Ro 1 knull 1 H elle
In the circuit below, R=10.0 ohms, L=30.0 h, and E=20v. switch s1 is closed and switch s2 is left open. After the circuit has reached its final value switch s1 is opened and switch s2 is closed. what is the magnitude of the potential difference between points a and b three seconds after s2 is closed (inV). 7. In the circuit below, R = 10.0 12, L = 30.0 H, and ε = 20.0 V. Switch S1 is closed and...