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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, o...
For the circuit shown below, E = 14 V, L = 3.6 mh, and R =...
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...
-/1 points 31 OSUniPhys1 31.4. P.053. My For the circuit shown below, E = 14 V,...
-/1 points 31 OSUniPhys1 31.4. P.053. My For the circuit shown below, E = 14 V, L 4.4 mH, and R = 4.5 . After steady state is reached with S, closed and S2 open, S2 is closed and immediately thereafter (at t 0) S, is opened. R Determine the current through L (in A) att 0. (a) A (b) Determine the current through L (in A) at t 4.0 x 10s. A s Determine the voltages across L and...
For the circuit shown below, € = 16 V, L = 5.5 mH, and R= 6.512....
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...
After being closed for a long time, the switch S in the circuit shown in the...
After being closed for a long time, the switch S in the circuit shown in the figure below is thrown open at t 0. In the circuit, ε 24.0 V, RA 4.10 ko, RB 6.80 ko, and L-532 mH. RA RB (a) What is the emf across the inductor immediately after the switch is opened? 9.027522936 X Your response differs from the correct answer by more than 10%. Double check your calculations. V (b) When does the current in the...
In the adjoining circuit, the switch, which had been closed for a sufficiently long time for...
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)
1. The switch S is closed at t = 0 (assume that the battery voltage remains...
1. The switch S is closed at t = 0 (assume that the battery
voltage remains constant at 10V and the resistance of the inductor
is negligible). Calculate the voltage across each resistor a very
long time after the switch has been closed and all currents and
voltages reached steady values. (5 points)1. The switch S is closed
at t = 0 (assume that the battery voltage remains constant at 10V
and the resistance of the inductor is negligible). Calculate...
= 0 Rs=50 In the adjoining circuit, the switch, which had been closed for a sufficiently...
= 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
10 2 M 1. The switch S is closed at t = 0 (assume that the...
10 2 M 1. The switch S is closed at t = 0 (assume that the battery voltage remains constant at 10V and the resistance of the inductor is negligible). Calculate the voltage across each resistor a very long time after the switch has been closed and all currents and voltages reached steady values. (5 points) 10 V 1002 000 2 H 2. A very long time after t = 0, when all currents and voltages in the circuit have...
The switch S of the circuit shown below is closed at t 0 4.0 Q 4.5...
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...
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
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...
-/1 points 31 OSUniPhys1 31.4. P.053. My For the circuit shown below, E = 14 V, L 4.4 mH, and R = 4.5 . After steady state is reached with S, closed and S2 open, S2 is closed and immediately thereafter (at t 0) S, is opened. R Determine the current through L (in A) att 0. (a) A (b) Determine the current through L (in A) at t 4.0 x 10s. A s Determine the voltages across L and...
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...
After being closed for a long time, the switch S in the circuit shown in the figure below is thrown open at t 0. In the circuit, ε 24.0 V, RA 4.10 ko, RB 6.80 ko, and L-532 mH. RA RB (a) What is the emf across the inductor immediately after the switch is opened? 9.027522936 X Your response differs from the correct answer by more than 10%. Double check your calculations. V (b) When does the current in the...
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)
1. The switch S is closed at t = 0 (assume that the battery
voltage remains constant at 10V and the resistance of the inductor
is negligible). Calculate the voltage across each resistor a very
long time after the switch has been closed and all currents and
voltages reached steady values. (5 points)1. The switch S is closed
at t = 0 (assume that the battery voltage remains constant at 10V
and the resistance of the inductor is negligible). Calculate...
= 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
10 2 M 1. The switch S is closed at t = 0 (assume that the battery voltage remains constant at 10V and the resistance of the inductor is negligible). Calculate the voltage across each resistor a very long time after the switch has been closed and all currents and voltages reached steady values. (5 points) 10 V 1002 000 2 H 2. A very long time after t = 0, when all currents and voltages in the circuit have...
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
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