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Problem 1. For the circuit below, given a value foris 2.5Au(-t) solve for R1 so that...
Hi can some one do the following problems I have an assignment not out of a...
Hi can some one do the following problems I have an assignment
not out of a text book so no way to verify my solutions and its
weighted alot for the class thanks.
Problem I. For the circuit below, given a value for R1= 500 Ω solve for R2 so that the initial capacitor voltage v(0) is 150V R2 0.5u(-t) A 4 H Ri R2 Problem 2. Circle one: The type of response for v() for t> 0 would be...
1. A paralll RLC circuit consists of a A series RLC circuit consists of the same...
1. A paralll RLC circuit consists of a A series RLC circuit consists of the same 5000 Ω resistor, 1.25 H inductor, and 8 nF capacitor. a) Find the roots of the characteristic 2. 5000 Ω resistor, a 1.25 H inductor, and an 8 nF capacitor. a) Find the roots of the characteristic equation equation b) Is the response over-damped or b) Is the response over-damped or under-damped? under-damped? c) How would you need to change the resistance to get...
You are given the circuit shown below. The switch has been at the position shown for...
You are given the circuit shown below. The switch has been at the position shown for a long time before being moved at t = 0. You are told that C = 0.25F, L = 2H, R1 = 100. LR + VL -+ VR. =O Use the same sort of methodical approach as before: a) Determine i, (0+), vc(0+) and ic(0+) b) Determine di 2007 and doc0* c) Determine the steady-state value for the voltage Vc.final d) Use circuit analysis...
Problem 5: Consider the circuit shown in the figure below in which the initial inductor current...
Problem 5: Consider the circuit shown in the figure below in which the initial inductor current and capacitor voltage are both zero. (a) Write the differential equation for vc(t). (b) Find the particular solution. (c) Is this circuit overdamped, critically damped, or underdamped? 4 0 i(t) vc()
Problem 2 You are given the circuit shown below and you are told that the switch...
Problem 2 You are given the circuit shown below and you are told that the switch was closed for a long time prior tot0. Att0 the switchopens. IH 402 a) Find vc(0), i(0) dt c) Find the steady-state voltage Vess across the capacitor. d) Write the differential equation in terms of vc() indicated above. c) Is the transient response over, under or critically damped? Find v(t)t>0
1. For the circuit shown below, we wish to find v(t) for t>0. 1 1 a....
1. For the circuit shown below, we wish to find v(t) for t>0. 1 1 a. Find the governing equation for the voltage v using KCL at the top node using the following definitions: a = 0,W, = dr. This will get you a governing equation in the same form as that derived for the case we did in class where the R, L, and C were in series. b. What is the particular solution in this case? c. If...
Figure 1 shows a circuit after some switch-flipping and is now at time t = 0....
Figure 1 shows a circuit after some switch-flipping and is now at time t = 0. It contains a capacitor that was charged to v.(0") = 75 V and an inductor that was charged to i (0°) = 3 A. 10) Is this circuit overdamped, underdamped, or critically damped [2 points A) Is this circuit displaying a natural or step response? (2 points) Solve for y(t) fort > 0 [8 points) +35w 13.230.išao Ous. "
find response of the parallel RLC circuit on Figure 3. Sketch iL(t) for tE( 0, 50us)...
find response of the parallel RLC circuit on Figure 3. Sketch iL(t)
for tE( 0, 50us)
initial voltage on the capacitor Vo = 10v.
initial current in the inductor is 100mA.
current source is 100mA.
(Please order all steps so I know how to approach a problem
like this)
Find response of the Parallel RLC circuit on Figure 3. Sketch iz(t) fort € (0, 50uS) Initial Voltage on the capacitor Vo=10V Initial curent in the inductor is 100mA Current Source...
Derive the ODE for the RLC circuit provided using Kirchoff's voltage and current laws. Indicate the...
Derive the ODE for the RLC circuit provided using Kirchoff's
voltage and current laws. Indicate the order of the equation and
what conditions are required for a unique and completely defined
solution to existing. You should solve for the voltage across the
capacitor as the output, y(t), due to the excitation of the input
voltage, x(t), and the initial conditions, y(0) = c0 and
y'(0)=c1.
Compute the homogeneous solution to the ordinary differential
equation for unknown values of R, L...
just do question 26 and 30 and show all your work (a) Select R so that 26. For the cincuit of Fig. 943,.40 30u-) m v...
just do question 26 and 30 and show all your work
(a) Select R so that 26. For the cincuit of Fig. 943,.40 30u-) m v(0+) 6 V. (b) Compute (2 ms). (c) Determine the settling time of the capacitor voltage. (d) Is the inductor current settling time the same as your answer to part (c)? 27. The current source in Fig. 9.43 is id) = 101(1-1) μ A. (a) Select Ri such that iLO")-2 μΑ. Compute L at t-500...
Hi can some one do the following problems I have an assignment
not out of a text book so no way to verify my solutions and its
weighted alot for the class thanks.
Problem I. For the circuit below, given a value for R1= 500 Ω solve for R2 so that the initial capacitor voltage v(0) is 150V R2 0.5u(-t) A 4 H Ri R2 Problem 2. Circle one: The type of response for v() for t> 0 would be...
1. A paralll RLC circuit consists of a A series RLC circuit consists of the same 5000 Ω resistor, 1.25 H inductor, and 8 nF capacitor. a) Find the roots of the characteristic 2. 5000 Ω resistor, a 1.25 H inductor, and an 8 nF capacitor. a) Find the roots of the characteristic equation equation b) Is the response over-damped or b) Is the response over-damped or under-damped? under-damped? c) How would you need to change the resistance to get...
You are given the circuit shown below. The switch has been at the position shown for a long time before being moved at t = 0. You are told that C = 0.25F, L = 2H, R1 = 100. LR + VL -+ VR. =O Use the same sort of methodical approach as before: a) Determine i, (0+), vc(0+) and ic(0+) b) Determine di 2007 and doc0* c) Determine the steady-state value for the voltage Vc.final d) Use circuit analysis...
Problem 5: Consider the circuit shown in the figure below in which the initial inductor current and capacitor voltage are both zero. (a) Write the differential equation for vc(t). (b) Find the particular solution. (c) Is this circuit overdamped, critically damped, or underdamped? 4 0 i(t) vc()
Problem 2 You are given the circuit shown below and you are told that the switch was closed for a long time prior tot0. Att0 the switchopens. IH 402 a) Find vc(0), i(0) dt c) Find the steady-state voltage Vess across the capacitor. d) Write the differential equation in terms of vc() indicated above. c) Is the transient response over, under or critically damped? Find v(t)t>0
1. For the circuit shown below, we wish to find v(t) for t>0. 1 1 a. Find the governing equation for the voltage v using KCL at the top node using the following definitions: a = 0,W, = dr. This will get you a governing equation in the same form as that derived for the case we did in class where the R, L, and C were in series. b. What is the particular solution in this case? c. If...
Figure 1 shows a circuit after some switch-flipping and is now at time t = 0. It contains a capacitor that was charged to v.(0") = 75 V and an inductor that was charged to i (0°) = 3 A. 10) Is this circuit overdamped, underdamped, or critically damped [2 points A) Is this circuit displaying a natural or step response? (2 points) Solve for y(t) fort > 0 [8 points) +35w 13.230.išao Ous. "
find response of the parallel RLC circuit on Figure 3. Sketch iL(t)
for tE( 0, 50us)
initial voltage on the capacitor Vo = 10v.
initial current in the inductor is 100mA.
current source is 100mA.
(Please order all steps so I know how to approach a problem
like this)
Find response of the Parallel RLC circuit on Figure 3. Sketch iz(t) fort € (0, 50uS) Initial Voltage on the capacitor Vo=10V Initial curent in the inductor is 100mA Current Source...
Derive the ODE for the RLC circuit provided using Kirchoff's
voltage and current laws. Indicate the order of the equation and
what conditions are required for a unique and completely defined
solution to existing. You should solve for the voltage across the
capacitor as the output, y(t), due to the excitation of the input
voltage, x(t), and the initial conditions, y(0) = c0 and
y'(0)=c1.
Compute the homogeneous solution to the ordinary differential
equation for unknown values of R, L...
just do question 26 and 30 and show all your work
(a) Select R so that 26. For the cincuit of Fig. 943,.40 30u-) m v(0+) 6 V. (b) Compute (2 ms). (c) Determine the settling time of the capacitor voltage. (d) Is the inductor current settling time the same as your answer to part (c)? 27. The current source in Fig. 9.43 is id) = 101(1-1) μ A. (a) Select Ri such that iLO")-2 μΑ. Compute L at t-500...
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