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Find formulas for the current in and the voltage vc for the circuit described by the...
The circuit in the figure to the right is represented by the equation below, where I...
The circuit in the figure to the right is represented by the equation below, where I is the current through the inductor Land Ve is the voltage drop across the capacitor C. Find formulas for I, and Vc when R=0.5 ohms, C = 12.5 farads, L= 2.5 henry, the initial current is o amperes, and the initial voltage is 12 volts. R Het с 1 RC Vc 000 L Choose the correct answer below. 4.(t) Vc(t) 0.100 OA 30 sin(-0.08t)...
Find the Steady State Voltage and Current Values. Develop the equation for i(t) , the current thr...
Find the Steady State Voltage and Current
Values.
Develop the equation for i(t) , the current through
the inductor and Vout(t).
I need help, I don't know if my calculations are correct, I
found the neper frequency to be: a=439.109 rad/sec and resonant
frequency to be Wo=14586.5 rad/sec.
This is a parallel step response RLC circuit
The circuit is underdamped.
Please show all work clearly so that I can understand the
process.
Vout(t) is the voltage across R2 (which is...
R t = i(t) C 2011P E e p gP a P9.09 10ed The voltage applied...
R t = i(t) C 2011P E e p gP a P9.09 10ed The voltage applied to this circuit at t 0 (when the switch closes) is v (t) = 75 cos (4,000t - 60°) Volts Also given that R = 400 2 (0hm) and L=75 mH (milli Henry) The initial inductor current is zero for t< 0 The textbook gives you the total response equation as: )_ ?(0-¢)so R2+(w L) Cos(wt+¢-e) -V V m i(t)=itransient(t)+isteady.state(t)=R2 +(wL m - ㅎCOS...
A series RC circuit has ω = 2041 rad/s and R= 323 ohms. The voltage VC...
A series RC circuit has ω = 2041 rad/s and R= 323 ohms. The voltage VC is measured to be 6 volts, and VR is measured to be 11 volts. What is the value of capacitance, C, in μ F? Please round your answer to one decimal place.
Question 6. (3 marks) Consider the relaxation oscillator circuit shown in Figure 4. Find the time...
Question 6. (3 marks) Consider the relaxation oscillator circuit shown in Figure 4. Find the time period of the output (which is the output of the op-amp). Assume that the voltage drop across a forward biased diode is negligible. R ? R C = 6 micro-Farad + R= 2 k-Ohm V = 7 volt R1 = 2 k-Ohm R2 = 6 k-Ohm Selected Answer: Correct Answer: 52.7 + 0.5% 52.7 + 0.5% > R2 HHwwKG Figure 4: Circuit for Question...
PI : For circuit below v-20 V and R,-8 Ohm and R2-2 Ohm. Calculate voltage and...
PI : For circuit below v-20 V and R,-8 Ohm and R2-2 Ohm. Calculate voltage and power loss in each resistor in the circuit. (Use voltage division and P = (voltage*voltage) resistance)- You cannot use KVL, KCL or Ohms law) Ri R2 P2: For circuit below i = 50 A and R1 = 15 Ohm and R2 = 10 Ohm. Calculate current and power loss in each resistor in the circuit. (Use current division and P - (current*current) resistance) You...
A circuit comprises a 2 henry inductor, a 1/32 farad capacitor, no resistor, and a voltage...
A circuit comprises a 2 henry inductor, a 1/32 farad capacitor, no resistor, and a voltage source of 128 sin 4t volts. NOTE: initial conditions are not needed to do this problem. (a) Write the governing equation (ODE) for q(t). Do NOT solve the ODE. (b) Without solving the ODE for q(t), determine the natural frequency of the circuit (with units). (c) Will the circuit undergo pure resonance? Clearly explain why or why not.
The following circuit consists of linear time invariant components where R1 = 2, R2 = 3,...
The following circuit consists of linear time invariant
components where R1 = 2,
R2 = 3,
C = 0.25F, and L = 1H. Let vs be the input voltage.
(a) Solve the differential equation that describes
vc(t). Hint: First, find the current
going through the parallel branch of R1–C. Then, write
the Kirchoff's Voltage Law for the main loop.
(b) Find vc(t) given that vs(t) = 2.5 V at
t = 0. Assume that vc(0-) = 1V and
iL(0-) =...
A circuit consists of a 6 ohm resistor, a 0.3 farad capacitor, and an AC voltage...
A circuit consists of a 6 ohm resistor, a 0.3 farad capacitor, and an AC voltage source supplying V(t) = 120 cos(10 t) volts. 1. Write the differential equation for the charge on the capaciton q'+0.55 0.56 q=20 cos(10t) X 2. Write a formula for the solution, assuming q(0) 0 q(f) =
The circuit in the figure to the right is represented by the equation below, where I is the current through the inductor Land Ve is the voltage drop across the capacitor C. Find formulas for I, and Vc when R=0.5 ohms, C = 12.5 farads, L= 2.5 henry, the initial current is o amperes, and the initial voltage is 12 volts. R Het с 1 RC Vc 000 L Choose the correct answer below. 4.(t) Vc(t) 0.100 OA 30 sin(-0.08t)...
Find the Steady State Voltage and Current
Values.
Develop the equation for i(t) , the current through
the inductor and Vout(t).
I need help, I don't know if my calculations are correct, I
found the neper frequency to be: a=439.109 rad/sec and resonant
frequency to be Wo=14586.5 rad/sec.
This is a parallel step response RLC circuit
The circuit is underdamped.
Please show all work clearly so that I can understand the
process.
Vout(t) is the voltage across R2 (which is...
R t = i(t) C 2011P E e p gP a P9.09 10ed The voltage applied to this circuit at t 0 (when the switch closes) is v (t) = 75 cos (4,000t - 60°) Volts Also given that R = 400 2 (0hm) and L=75 mH (milli Henry) The initial inductor current is zero for t< 0 The textbook gives you the total response equation as: )_ ?(0-¢)so R2+(w L) Cos(wt+¢-e) -V V m i(t)=itransient(t)+isteady.state(t)=R2 +(wL m - ㅎCOS...
Question 6. (3 marks) Consider the relaxation oscillator circuit shown in Figure 4. Find the time period of the output (which is the output of the op-amp). Assume that the voltage drop across a forward biased diode is negligible. R ? R C = 6 micro-Farad + R= 2 k-Ohm V = 7 volt R1 = 2 k-Ohm R2 = 6 k-Ohm Selected Answer: Correct Answer: 52.7 + 0.5% 52.7 + 0.5% > R2 HHwwKG Figure 4: Circuit for Question...
PI : For circuit below v-20 V and R,-8 Ohm and R2-2 Ohm. Calculate voltage and power loss in each resistor in the circuit. (Use voltage division and P = (voltage*voltage) resistance)- You cannot use KVL, KCL or Ohms law) Ri R2 P2: For circuit below i = 50 A and R1 = 15 Ohm and R2 = 10 Ohm. Calculate current and power loss in each resistor in the circuit. (Use current division and P - (current*current) resistance) You...
The following circuit consists of linear time invariant
components where R1 = 2,
R2 = 3,
C = 0.25F, and L = 1H. Let vs be the input voltage.
(a) Solve the differential equation that describes
vc(t). Hint: First, find the current
going through the parallel branch of R1–C. Then, write
the Kirchoff's Voltage Law for the main loop.
(b) Find vc(t) given that vs(t) = 2.5 V at
t = 0. Assume that vc(0-) = 1V and
iL(0-) =...
A circuit consists of a 6 ohm resistor, a 0.3 farad capacitor, and an AC voltage source supplying V(t) = 120 cos(10 t) volts. 1. Write the differential equation for the charge on the capaciton q'+0.55 0.56 q=20 cos(10t) X 2. Write a formula for the solution, assuming q(0) 0 q(f) =
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