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(b) Find maximum energy stored in the capacitor of Figure 6 and energy dissipated over the...
P3. In the circuit shown, let DUO 0, -00<t<0 v(t) = { 1, Ost<10s at (10,...
P3. In the circuit shown, let DUO 0, -00<t<0 v(t) = { 1, Ost<10s at (10, 1055t<00 (a) Find the energy stored in the capacitor as a function of t, for 0 st 50. (b) Find the energy delivered by the source as a function of t, for 0 stsoo. va) 0.1F 322 Figure P4.7
Question 4) In the circuit in (Figure 1) the voltage and current expressions are v=36e-25 V,...
Question 4) In the circuit in (Figure 1) the voltage and current expressions are v=36e-25 V, t>0; i= 12e-25 mA, +0+ Part A Find R Express your answer to three significant figures and include the appropriate units. μΑ ? R= Value Units Submit Request Answer Figure < 1 of 1 > Part B Find C + Express your answer to three significant figures and include the appropriate units. uA ? v RS C= Value Units Submit Request Answer Question 4)...
3.(20 points) The voltage across a capacitor with capacitance C 100 F is given by 20t,...
3.(20 points) The voltage across a capacitor with capacitance C 100 F is given by 20t, 0si<1 20, 1st<2 -401 +100, 2st<3 1 を(1) 20r-100, 4st<5 0, otherwise This voltage is shown in Figure 3. (a) Find the current ic(t) through the capacitor and plot ic(t) for 0 st35s. (b) Find the instantaneous power pc(t) on the capacitor and plot pc(t) for 0st5s (c) Find the instantaneous energy wc(t) on the capacitor and plot we(t) for 0 Sts5s. (d) Specify...
Consider the following linear circuit. The capacitor voltage is +) 1, t<0 vc(t) = let, t...
Consider the following linear circuit. The capacitor voltage is +) 1, t<0 vc(t) = let, t > 0 Determine the total energy dissipated in the resistor for 0 <t<. Tu Circuit + Eu(t)
please answer both questions Problem 3 (20 Points) There is no energy stored in the circuit...
please answer both
questions
Problem 3 (20 Points) There is no energy stored in the circuit fort <0. Use the Laplace transform to find the time domain expression for vo(t). 2002 2002 200u(t) V 10 MF 3400 mH Problem 4 (20 Points) For each circuit, calculate the transfer function, the poles of the transfer function 1204F and the zeros of the transfer function. 2 k2 20 MF 2k9 (b) 250 kA 125 mH 1) 125 mHg 250 0} (c) 800...
Power and Energy , of the circuit eleinent in Figure 1(a) are shown in Figures 1(b)...
Power and Energy , of the circuit eleinent in Figure 1(a) are shown in Figures 1(b) and I(c), respectively. (1) Determine the instantaneous power p(t) supplied by the circuit element for 0 < t < 6 s. Indicate the equations and their corresponding intervals for the piecewise function p(t) (2) Calculate the energy supplied by the circuit element in the tine interval 2 t < 5 s (t) [V i(t) 34 it) A) 6/78 Figure 1. (a) Circuit element. (b)...
The voltage of the capacitor vo(t) for t> 0 is known to be vo(t) = 9e-20...
The voltage of the capacitor vo(t) for t> 0 is known to be vo(t) = 9e-20 V. i1(0) = 5mA. (a) Find i(t) for t 20. (b) How much energy was initially stored in the inductor and capacitor? (c) How much energy was stored at t= in the inductor and capacitor? it) (0) i20 1110 H V.0) 10 kΩ Black box -T gmF
Question 1.3. Solve the circuit and find the current lo and the power PRo dissipated by...
Question 1.3. Solve the circuit and find the current lo and the power PRo dissipated by Rc 12Ω 10 >Re=262 4Ω 12 V Figure 3: Voltage Sources Circuit Answer. Io= PR Question 1.4. Solve the circuit and find the voltages VA and VB 10Ω 3 A 22 VA 2Ω VB
4. Let X have p.d.f. fx(1),-1 < 2. Find the p.d.f. of Y-X2
4. Let X have p.d.f. fx(1),-1 < 2. Find the p.d.f. of Y-X2
(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...
P3. In the circuit shown, let DUO 0, -00<t<0 v(t) = { 1, Ost<10s at (10, 1055t<00 (a) Find the energy stored in the capacitor as a function of t, for 0 st 50. (b) Find the energy delivered by the source as a function of t, for 0 stsoo. va) 0.1F 322 Figure P4.7
Question 4) In the circuit in (Figure 1) the voltage and current expressions are v=36e-25 V, t>0; i= 12e-25 mA, +0+ Part A Find R Express your answer to three significant figures and include the appropriate units. μΑ ? R= Value Units Submit Request Answer Figure < 1 of 1 > Part B Find C + Express your answer to three significant figures and include the appropriate units. uA ? v RS C= Value Units Submit Request Answer Question 4)...
3.(20 points) The voltage across a capacitor with capacitance C 100 F is given by 20t, 0si<1 20, 1st<2 -401 +100, 2st<3 1 を(1) 20r-100, 4st<5 0, otherwise This voltage is shown in Figure 3. (a) Find the current ic(t) through the capacitor and plot ic(t) for 0 st35s. (b) Find the instantaneous power pc(t) on the capacitor and plot pc(t) for 0st5s (c) Find the instantaneous energy wc(t) on the capacitor and plot we(t) for 0 Sts5s. (d) Specify...
Consider the following linear circuit. The capacitor voltage is +) 1, t<0 vc(t) = let, t > 0 Determine the total energy dissipated in the resistor for 0 <t<. Tu Circuit + Eu(t)
please answer both
questions
Problem 3 (20 Points) There is no energy stored in the circuit fort <0. Use the Laplace transform to find the time domain expression for vo(t). 2002 2002 200u(t) V 10 MF 3400 mH Problem 4 (20 Points) For each circuit, calculate the transfer function, the poles of the transfer function 1204F and the zeros of the transfer function. 2 k2 20 MF 2k9 (b) 250 kA 125 mH 1) 125 mHg 250 0} (c) 800...
Power and Energy , of the circuit eleinent in Figure 1(a) are shown in Figures 1(b) and I(c), respectively. (1) Determine the instantaneous power p(t) supplied by the circuit element for 0 < t < 6 s. Indicate the equations and their corresponding intervals for the piecewise function p(t) (2) Calculate the energy supplied by the circuit element in the tine interval 2 t < 5 s (t) [V i(t) 34 it) A) 6/78 Figure 1. (a) Circuit element. (b)...
The voltage of the capacitor vo(t) for t> 0 is known to be vo(t) = 9e-20 V. i1(0) = 5mA. (a) Find i(t) for t 20. (b) How much energy was initially stored in the inductor and capacitor? (c) How much energy was stored at t= in the inductor and capacitor? it) (0) i20 1110 H V.0) 10 kΩ Black box -T gmF
Question 1.3. Solve the circuit and find the current lo and the power PRo dissipated by Rc 12Ω 10 >Re=262 4Ω 12 V Figure 3: Voltage Sources Circuit Answer. Io= PR Question 1.4. Solve the circuit and find the voltages VA and VB 10Ω 3 A 22 VA 2Ω VB
4. Let X have p.d.f. fx(1),-1 < 2. Find the p.d.f. of Y-X2
(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...
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