4. The switch in the circuit below has been in the left positiorn for a long...
The switch in the circuit in (Figure 1) has been in the left position for a long time. At t = 0, it moves to the right position and stays there. Part A Select the correct expression for the capacitor voltage, v(t), fort t ≥ 0Part B Select the correct expression for the current through the 24 kΩ resistor i(t) ≥ 0+.
The switch in the circuit in (Figure 1) has been in the left position for a long time Att 0, it moves to the right position and stays there 2.4 kΩ Part A Select the correct expression for the capacitor voltage, v(t), for t 0 (t) 240e-500t y (t) 240e-1000 v O r(t)-59.4e-1000e V v(t)59.4e-00 V (t) 80e-50 V (t)-80e-1000t V Part B: Select the correct expression for the current through the 2.4 kΩ resistor, i (t), for t >...
At a time the switch is closed in the circuit At a time the switch is closed in the circuit, the voltage across the paralleled capacitors is 50V and the voltage on the C3 capacitor is 40V (Figure 1) Take that C1 = 210 nF, C2-760 nF and C3 360 nF. 400 Ω +40 V- 0 Part A What percentage of the initial energy stored in the three capacitors is dissipated in the 24 kS2 resistor? Express your answer using...
The switch in the circuit has been closed for a long time and is opened at t = 0. a. Calculate the initial value of I b. Calculate the initial energy stored in the inductor. c. What is the time constant of the circuit for t ≥ 0? d. What is the numerical expression for i() for t20? e. What percentage of the initial energy stored has been dissipated in the 4 Ω resistor 5ms after the switch has been opened?
Question 3: For the following circuit, the switch was in the left position for long time before moving to the right position at t-0, find (a) ia(t) for t2 0. (b) The energy stored in the capacitors after a long time has elapsed. t-0 10Ω 4Ω 90 v( 0.5 F 10Ω 40 V
Capctr05 20Ω Given: The capacitors have initial voltages as shown in the above circuit. Att-0, the switch is closed. equ e Calculate the final voltage, Vi has reached equilibrium the final voltage, V across the capacitor, on the right, and the energy dissipated in the resis or ie, wR by the t me the system across the capacitor on the le Solution Submit these values Capctr05 20Ω Given: The capacitors have initial voltages as shown in the above circuit. Att-0,...
4. a. For the circuit to the left, switch 1000 2 assume the switch has been closed for a very long time; calculate the voltage across the capacitor. Show your work. 10.0 μF 24.0 2000 Ω b. Att- 0s, the switch is opened. At t 0.022 s, what is the voltage across the capacitor? Show your work 1000 Ω
The switch in the circuit has been closed for a long time before it is opened at t = 0a) io(t) for t ≥ 0+b) vo(t) for t ≥ 0+, where vo is the voltage drop across the 54 Ω resistor.c) The total energy stored in the 0.5 H inductor that is dissipated in the 26 Ω resistor
The switch A in the circuit has been open for a long time. Calculate the voltage u_2(t) after the switch is closed at t=0. The capacitor C_1 has a initial voltage of u_1=100 V at t<0. Capacitor C_2 lacks initial energy. Rz = 200 kN2 R2 = 120 k12 + + C
Consider the RC circuit in the figure below. The switch was at position a for a long period of time and it is suddenly switched to position b at time t = 0.For each statement select True or False.1. The current through the resistor equals the current across the capacitor at all times.2. In the instant after the switch is thrown the current across the capacitor is zero.3. In the instant after the switch is thrown the voltage across the...