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Consider the circuit shown in thye figure above. Take Let 3 -...
Question 22 Consider the circuit shown in thye figure above. Take Let g = 6 V,...
Question 22 Consider the circuit shown in thye figure above. Take Let g = 6 V, L = 6 mH, and R = 4 Ohms. S 000 R (a) Calculate the inductive time constant (4 Pts) (b) Calculate the current in the circuit 250 ms after the switch is closed. (6 Pts) (c) Assumed the switched is closed for a long time. What is the current in the circuit? (4 Pts) (d) How long does it take the current to...
Consider the circuit shown in thye figure above. Take Let g = 6 V, L =...
Consider the circuit shown in thye figure above. Take Let g = 6 V, L = 6 mH, and R = 4 Ohms. s E E 000 1. R (a) Calculate the inductive time constant (b) Calculate the current in the circuit 250 ms after the switch is closed. (c) Assumed the switched is closed for a long time. What is the current in the circuit? (d) How long does it take the current to reach 80% of its maximum...
Need help answering this question. I dont understand it! Question 22 Consider the circuit shown in...
Need help answering this question. I dont understand it!
Question 22 Consider the circuit shown in thye figure above. Take Let g = 6 V, L - 6 mH, and R - 4 Ohms. S 000 R (a) Calculate the inductive time constant (4 pts) (b) Calculate the current in the circuit 250 ms after the switch is closed. (6 Pts) (c) Assumed the switched is closed for a long time. What is the current in the circuit? (4 pts)...
Please show ALL work for the multiple parts. Please show ALL equations and math too, thank...
Please show ALL work for the multiple parts. Please show ALL
equations and math too, thank you!
Consider the circuit shown in thye figure above. Take Let ε = 6 V, L = 6 mH, and R = 4 Ohms. S + E 000 L R w (a) Calculate the inductive time constant (4 Pts) (b) Calculate the current in the circuit 250 ms after the switch is closed. (6 Pts) (c) Assumed the switched is closed for a long...
u. -14 points serCP1 20.6.P.046. Consider the circuit shown in the figure below. Take E =...
u. -14 points serCP1 20.6.P.046. Consider the circuit shown in the figure below. Take E = 6.00 V, L = 7.20 mb, and R = 3.96 n. (a) What is the inductive time constant of the circuit? ms (b) Calculate the current in the circuit 250 ps after the switch is closed. (c) What is the value of the final steady-state current? (d) How long does it take the current to reach 81.0% of its maximum value? ms Need Help?...
Consider the circuit in the figure below, taking a = 6.00 V, L = 6.40 mh,...
Consider the circuit in the figure below, taking a = 6.00 V, L = 6.40 mh, and R = 8.20 1. 100 (a) What is the inductive time constant of the circuit? .85 x You can check your equation for the time constant by looking at the units of the quantities involved. ms (b) Calculate the current in the circuit 250 us after the switch is closed. 2 (c) What is the value of the final steady-state current? .80 What...
please show step by step . The circuit shown in Fig. 6 is switched on at...
please show step by step
. The circuit shown in Fig. 6 is switched on at time t-0. How long does it take for the capacitor to attain 70% of its final value? Assume the initial voltage across the capacitor to be zero. Also find the time constant of the circuit after the switch is closed. R,-100Ω 200Ω 0.01F Fig. 6
8. -/10 points My Notes Ask Your Teacher An electrical engineer designed an RL circuit similar to the one shown in...
8. -/10 points My Notes Ask Your Teacher An electrical engineer designed an RL circuit similar to the one shown in the figure, with € -6.00 V, L - 3.40 m, and R - 5.60 0. R (a) What is the inductive time constant of the circuit (in ms)? cms (b) Calculate the current in the circuit (in A) 250 us after the switch is closed. СА (c) What is the value of the final steady-state current (in A)? ГА...
In the circuit shown in the figure R = 5.0 2, L = 2.0 mH, C...
In the circuit shown in the figure R = 5.0 2, L = 2.0 mH, C = 5.0 uF and switch Si has been closed for a long enough time so that the current reads a steady value of I1 = 50 mA . Suddenly, switch S2 is closed and Si is opened at the same instant. A 2.0 mH 1000 5.0 uF Ini Part A - What is the current on the capacitor immediately after the switch S2 is...
An RL circuit is assembled with a 24.0 V ideal battery connected by a switch to...
An RL circuit is assembled with a 24.0 V ideal battery connected by a switch to a 37.5 mH inductor and 50.0 Ω resistor. a) How long, in ms, after the switch is closed does the current in the resistor reach 63.2% of its final value? BLANK-1 b) What is the maximum current, in Amperes, coming out of the voltage source after a very long time? BLANK-2 c) What is the current, in Amperes, through the resistor, 0.95 ms after...
Question 22 Consider the circuit shown in thye figure above. Take Let g = 6 V, L = 6 mH, and R = 4 Ohms. S 000 R (a) Calculate the inductive time constant (4 Pts) (b) Calculate the current in the circuit 250 ms after the switch is closed. (6 Pts) (c) Assumed the switched is closed for a long time. What is the current in the circuit? (4 Pts) (d) How long does it take the current to...
Consider the circuit shown in thye figure above. Take Let g = 6 V, L = 6 mH, and R = 4 Ohms. s E E 000 1. R (a) Calculate the inductive time constant (b) Calculate the current in the circuit 250 ms after the switch is closed. (c) Assumed the switched is closed for a long time. What is the current in the circuit? (d) How long does it take the current to reach 80% of its maximum...
Need help answering this question. I dont understand it!
Question 22 Consider the circuit shown in thye figure above. Take Let g = 6 V, L - 6 mH, and R - 4 Ohms. S 000 R (a) Calculate the inductive time constant (4 pts) (b) Calculate the current in the circuit 250 ms after the switch is closed. (6 Pts) (c) Assumed the switched is closed for a long time. What is the current in the circuit? (4 pts)...
Please show ALL work for the multiple parts. Please show ALL
equations and math too, thank you!
Consider the circuit shown in thye figure above. Take Let ε = 6 V, L = 6 mH, and R = 4 Ohms. S + E 000 L R w (a) Calculate the inductive time constant (4 Pts) (b) Calculate the current in the circuit 250 ms after the switch is closed. (6 Pts) (c) Assumed the switched is closed for a long...
u. -14 points serCP1 20.6.P.046. Consider the circuit shown in the figure below. Take E = 6.00 V, L = 7.20 mb, and R = 3.96 n. (a) What is the inductive time constant of the circuit? ms (b) Calculate the current in the circuit 250 ps after the switch is closed. (c) What is the value of the final steady-state current? (d) How long does it take the current to reach 81.0% of its maximum value? ms Need Help?...
Consider the circuit in the figure below, taking a = 6.00 V, L = 6.40 mh, and R = 8.20 1. 100 (a) What is the inductive time constant of the circuit? .85 x You can check your equation for the time constant by looking at the units of the quantities involved. ms (b) Calculate the current in the circuit 250 us after the switch is closed. 2 (c) What is the value of the final steady-state current? .80 What...
please show step by step
. The circuit shown in Fig. 6 is switched on at time t-0. How long does it take for the capacitor to attain 70% of its final value? Assume the initial voltage across the capacitor to be zero. Also find the time constant of the circuit after the switch is closed. R,-100Ω 200Ω 0.01F Fig. 6
8. -/10 points My Notes Ask Your Teacher An electrical engineer designed an RL circuit similar to the one shown in the figure, with € -6.00 V, L - 3.40 m, and R - 5.60 0. R (a) What is the inductive time constant of the circuit (in ms)? cms (b) Calculate the current in the circuit (in A) 250 us after the switch is closed. СА (c) What is the value of the final steady-state current (in A)? ГА...
In the circuit shown in the figure R = 5.0 2, L = 2.0 mH, C = 5.0 uF and switch Si has been closed for a long enough time so that the current reads a steady value of I1 = 50 mA . Suddenly, switch S2 is closed and Si is opened at the same instant. A 2.0 mH 1000 5.0 uF Ini Part A - What is the current on the capacitor immediately after the switch S2 is...
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