Homework Answers
in this we find initial and final Voltage
across capacitor and find capacitor Voltage equation. Also find
current equation.
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both are the same question but different value for the
voltage
the circuit below has võ...
An RLC circuit has an initial voltage across the capacitor and polarity as marked on the...
An RLC circuit has an initial voltage across the capacitor and
polarity as marked on the circuit shown below. The switch is closed
at t = 0 and a current i(t) is assumed to flow clockwise in the
circuit. Determine which expression correctly represents the
Laplace-transformed value of current, i(s). Note that the
coefficient of the highest power of s in the denominator may have
to be made unity.
(TCO 2) An RLC circuit has an initial voltage across the...
(1) Consider the RC circuit shown in Figure 1. For t<0 the switch is open, and...
(1) Consider the RC circuit shown in Figure 1. For t<0 the switch is open, and the charge stored on the capacitor is 0. At t-0 the switch is closed, and the voltage source begins charging the capacitor. Let R1-R2-220 Ω , C-0.47 μ F , Vs-5 V. (a) Write the differential equation as an expression for the capacitor voltage fort> 0 (i.e. write the differential equation) and calculate the time constant (b) Calculate the steady-state capacitor voltage R2 R1...
Learning Goal: To analyze an RC circuit to determine the initial voltage across a capacitor, the...
Learning Goal: To analyze an RC circuit to determine the initial voltage across a capacitor, the time constant, and the expression for the natural response of the capacitor voltage, and then to find other circuit quantities such as current,voltage, power, or energy. The natural response of an RC circuit is the response of the capacitor voltage to the sudden removal of a DC source. When this occurs, the capacitor releases its stored energy Figure < 10121〉 t 0 V. Figure...
The switch A in the circuit has been open for a long time. Calculate the voltage...
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
For the circuit shown, find the following: a) v(0+), the voltage across the capacitor right after...
For the circuit shown, find the following: a) v(0+), the voltage across the capacitor right after the switch closes. b) v), the voltage across the capacitor after the switch has been closed for a long time. c) v(T), the voltage across the capacitor after one time constant. 2. 3 S2 I(t) 12 V+ 6 Ω 0.5 F u(t) 3. For the circuit above, write the differential equation for t > 0.
1.(20 pts) The switch in the circuit shown below has been closed for a long time...
1.(20 pts) The switch in the circuit shown below has been closed for a long time before it is opened at -0. (a) Is this RL or RC switching circuit. (b) Is this Natural or Step Response for t0? (c) Find veo'). (d) What is the time constant t of the circuit for t0? (e) Find Vco). (1) Write the expression for vct) fort >0. (g) Write the expression for ict) fort >0. (h) Write the expression for i(t) fort...
a.) Consider the circuit below. Assume that the capacitor is fully discharged prior to t=0. The switch is closed at t=0...
a.) Consider the circuit below. Assume that the capacitor is
fully discharged prior to t=0. The switch is closed at t=0
connecting the voltage source to the rest of the circuit. What is
the steady-state value of the voltage across the capacitor, VC(t),
after the switch is closed for a long time? Put your answer in the
box below, without the units (Volts).
b.) What is the time constant, ?, in ?s of the circuit in this
question.
c.) What...
Problem 5 An RC circuit, hooked up to a battery as shown in the figure below,...
Problem 5 An RC circuit, hooked up to a battery as shown in the figure below, starts with an uncharged capacitor. The resistance in the circuit is R= 702. Ω the capacitor has capacitance C-58.0 μF and the battery maintains the emfofE-21.0 V. The switch is closed at time t 0.00s and the capacitor begins to charge. a) What is the time constant for this circuit? Submit AnswerTries 0/6 b) What is the charge on the capacitor after the switch...
An RC circuit is connected across a DC voltage source through an open switch. The switch...
An RC circuit is connected across a DC voltage source through an open switch. The switch is closed at t = 0 s. Which of the following is a correct statement regarding the circuit? The capacitor charges to its maximum value in one time constant. The resistor and the capacitor share the applied voltage equally as a function of time. The current flows through the circuit even after the capacitor is fully charged. Once the capacitor is fully charged, there...
A series RC circuit with C=40uF and R=6.0 Ohms has a 24 V source in it....
A series RC circuit with C=40uF and R=6.0 Ohms has a 24 V source in it. With the capacitor initially uncharged, an open switch in the circuit is closed. At what time will the voltage across the capacitor be 18V?
An RLC circuit has an initial voltage across the capacitor and
polarity as marked on the circuit shown below. The switch is closed
at t = 0 and a current i(t) is assumed to flow clockwise in the
circuit. Determine which expression correctly represents the
Laplace-transformed value of current, i(s). Note that the
coefficient of the highest power of s in the denominator may have
to be made unity.
(TCO 2) An RLC circuit has an initial voltage across the...
(1) Consider the RC circuit shown in Figure 1. For t<0 the switch is open, and the charge stored on the capacitor is 0. At t-0 the switch is closed, and the voltage source begins charging the capacitor. Let R1-R2-220 Ω , C-0.47 μ F , Vs-5 V. (a) Write the differential equation as an expression for the capacitor voltage fort> 0 (i.e. write the differential equation) and calculate the time constant (b) Calculate the steady-state capacitor voltage R2 R1...
Learning Goal: To analyze an RC circuit to determine the initial voltage across a capacitor, the time constant, and the expression for the natural response of the capacitor voltage, and then to find other circuit quantities such as current,voltage, power, or energy. The natural response of an RC circuit is the response of the capacitor voltage to the sudden removal of a DC source. When this occurs, the capacitor releases its stored energy Figure < 10121〉 t 0 V. Figure...
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
For the circuit shown, find the following: a) v(0+), the voltage across the capacitor right after the switch closes. b) v), the voltage across the capacitor after the switch has been closed for a long time. c) v(T), the voltage across the capacitor after one time constant. 2. 3 S2 I(t) 12 V+ 6 Ω 0.5 F u(t) 3. For the circuit above, write the differential equation for t > 0.
1.(20 pts) The switch in the circuit shown below has been closed for a long time before it is opened at -0. (a) Is this RL or RC switching circuit. (b) Is this Natural or Step Response for t0? (c) Find veo'). (d) What is the time constant t of the circuit for t0? (e) Find Vco). (1) Write the expression for vct) fort >0. (g) Write the expression for ict) fort >0. (h) Write the expression for i(t) fort...
a.) Consider the circuit below. Assume that the capacitor is
fully discharged prior to t=0. The switch is closed at t=0
connecting the voltage source to the rest of the circuit. What is
the steady-state value of the voltage across the capacitor, VC(t),
after the switch is closed for a long time? Put your answer in the
box below, without the units (Volts).
b.) What is the time constant, ?, in ?s of the circuit in this
question.
c.) What...
Problem 5 An RC circuit, hooked up to a battery as shown in the figure below, starts with an uncharged capacitor. The resistance in the circuit is R= 702. Ω the capacitor has capacitance C-58.0 μF and the battery maintains the emfofE-21.0 V. The switch is closed at time t 0.00s and the capacitor begins to charge. a) What is the time constant for this circuit? Submit AnswerTries 0/6 b) What is the charge on the capacitor after the switch...
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