Homework Answers
![when sro -> A= 50 SE 250 S=-500 01-500) = 250-590 250 :: 563) = 20 [ (sooj] 5168) = - (S7580) : faites = (10-year you 115) =](http://img.homeworklib.com/questions/902c8400-5133-11eb-8ed8-9df1212efe76.png?x-oss-process=image/resize,w_560)
Here V'(s) is the output voltage. Please
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For the circuit shown in fig 2, Apply Laplace transform to find i) i1(t) and iz(t)...
1. Determine the Laplace transform of the following signals e* .11(t) ; (b) g(t)=Icos(2) + sin(2t)j.u(1-3)...
1. Determine the Laplace transform of the following signals e* .11(t) ; (b) g(t)=Icos(2) + sin(2t)j.u(1-3) ; (c) h(t)-t-e-21. cos(30.11(1) 2. Determine the Laplace transform of the non-periodic signal shown below: h(t) 0 1 2 3 4 t 3. Determine the Laplace transform of the periodic waveforms shown below: fa) f(t) 0 2T 4T 6T 8T 4. Determine the inverse Laplace transform of the following signals 2s (b) G)6s+12 H(s) =s.(14%) (a) F(s)-De (c) (2s +1)(s1 +5s +6 5. Using...
PAST FINAL SIGNA... BENT 3373 Signals Tutorial 4 LAPLACE... 3 / 4 © 9. Assuming there...
PAST FINAL SIGNA... BENT 3373 Signals Tutorial 4 LAPLACE... 3 / 4 © 9. Assuming there is no initial energy stored in the circuit, find i, and iz using Laplace transform technique for t > 0. 8.4 H 10 H 1 = 0 + 1 336 V 34212 48 12 10. For the circuit shown in figure below, find the transfer function of the system V/V:(s). 2 Ω 0.2 F
Find i1(t) and iz(t) for t> 0 in the given circuit. Assume L4 = 3.0 H...
Find i1(t) and iz(t) for t> 0 in the given circuit. Assume L4 = 3.0 H and L2 = 4.4 H. 5A 60 2012 t=0 / 5n Lş Leo The current i1(t) = The current iz(t) = A for t> 0. A for t> 0. e-t1
no laplace transformation!!!! 2. Find v. (() in the circuit shown in Figure 2. 102 C...
no
laplace transformation!!!!
2. Find v. (() in the circuit shown in Figure 2. 102 C 350 H 10 mFt volt) Fig. 2
Section 3: Laplace transform for RLC circuit analysis (10 marks) A second-order RLC circuit with a...
Section 3: Laplace transform for RLC circuit analysis (10 marks) A second-order RLC circuit with a dependent source is shown in Fig. 3. 22 + VO - 132 1F + 15e-2 u(t) V ) 9[1-u(t)] V Y 0.50 » Fig. 3 A second-order RLC circuit with a dependent source Take the Laplace transform of the circuit and hence find the response io(t) for t > 0. Specify whether it is an underdamped, critically damped or overdamped case. Sketch the response.
Before t = 0 the circuit shown has been operating. At t = 0, the switch...
Before t = 0 the circuit shown has been operating. At t = 0,
the switch closes. We wish to determine the current i(t) for all t
>= 0.
a) By the circuits physics, determine the initial conditions
needed for analyzing the circuit for all t >=0. Determine and
draw the equivalent circuit for all t <= 0, ilustrate any
current or voltage used in the analysis, and the initial conditions
being determined.
b) Determine and draw the equivalent circuit...
Q3. (1) Initial energy stored in the circuit is zero. Use Laplace transform to find Thevenin...
Q3. (1) Initial energy stored in the circuit is zero. Use Laplace transform to find Thevenin equivalent voltage (Vth) and Thevenin equivalent impedance (Zth) in the s domain with respect to terminals 'a' and 'b'. (12 points) 22 M 20u(t) (2) Find the time-domain solution for current iz(t). (8 points)
1.2 kW 0.8 kVAR (cap) (a) In the circuit shown in Fig. Qla, find: Construct the...
1.2 kW 0.8 kVAR (cap) (a) In the circuit shown in Fig. Qla, find: Construct the power triangles for the loads. (ii) Find the overall complex power consumed in the loads. (iii) Find the current lo. 100/90° v (rms) 2 kVA 0.707 pf leading 4 kW 0.9 pf lagging Fig. Qla (b) [This part has no connection to part (a)] Find the value of the parallel capacitance needed to correct a load of 140 kVAR at 0.85 lagging pf to...
2. For the circuit in problem 1 above: a) Transform the circuit into the s-domain b)...
2. For the circuit in problem 1 above: a) Transform the circuit into the s-domain b) Using Laplace transform techniques applied directly to the circuit (not applied to the differential equation found in problem 1), find iz(t), t > 0. No credit for time- domain techniques. IX V 40 + - 5+10u(t) 10 H 1/4 F 2. For the circuit in problem 1 above: a) Transform the circuit into the s-domain b) Using Laplace transform techniques applied directly to the...
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using t...
Please help with this dynamics circuit
analysis.
Please show work and explain.
Thank you!!
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using time-domain and impedance methods. (a) Determine the differential equation for the relationship between eo(1) and e(1) (b) Find the transfer function E, (s)/E,(s) and determine the system time constant in terms of the circuit element values C, C, and R 17 2 (c) Find the transfer function E, (s)/E,...
1. Determine the Laplace transform of the following signals e* .11(t) ; (b) g(t)=Icos(2) + sin(2t)j.u(1-3) ; (c) h(t)-t-e-21. cos(30.11(1) 2. Determine the Laplace transform of the non-periodic signal shown below: h(t) 0 1 2 3 4 t 3. Determine the Laplace transform of the periodic waveforms shown below: fa) f(t) 0 2T 4T 6T 8T 4. Determine the inverse Laplace transform of the following signals 2s (b) G)6s+12 H(s) =s.(14%) (a) F(s)-De (c) (2s +1)(s1 +5s +6 5. Using...
PAST FINAL SIGNA... BENT 3373 Signals Tutorial 4 LAPLACE... 3 / 4 © 9. Assuming there is no initial energy stored in the circuit, find i, and iz using Laplace transform technique for t > 0. 8.4 H 10 H 1 = 0 + 1 336 V 34212 48 12 10. For the circuit shown in figure below, find the transfer function of the system V/V:(s). 2 Ω 0.2 F
Find i1(t) and iz(t) for t> 0 in the given circuit. Assume L4 = 3.0 H and L2 = 4.4 H. 5A 60 2012 t=0 / 5n Lş Leo The current i1(t) = The current iz(t) = A for t> 0. A for t> 0. e-t1
no
laplace transformation!!!!
2. Find v. (() in the circuit shown in Figure 2. 102 C 350 H 10 mFt volt) Fig. 2
Section 3: Laplace transform for RLC circuit analysis (10 marks) A second-order RLC circuit with a dependent source is shown in Fig. 3. 22 + VO - 132 1F + 15e-2 u(t) V ) 9[1-u(t)] V Y 0.50 » Fig. 3 A second-order RLC circuit with a dependent source Take the Laplace transform of the circuit and hence find the response io(t) for t > 0. Specify whether it is an underdamped, critically damped or overdamped case. Sketch the response.
Before t = 0 the circuit shown has been operating. At t = 0,
the switch closes. We wish to determine the current i(t) for all t
>= 0.
a) By the circuits physics, determine the initial conditions
needed for analyzing the circuit for all t >=0. Determine and
draw the equivalent circuit for all t <= 0, ilustrate any
current or voltage used in the analysis, and the initial conditions
being determined.
b) Determine and draw the equivalent circuit...
Q3. (1) Initial energy stored in the circuit is zero. Use Laplace transform to find Thevenin equivalent voltage (Vth) and Thevenin equivalent impedance (Zth) in the s domain with respect to terminals 'a' and 'b'. (12 points) 22 M 20u(t) (2) Find the time-domain solution for current iz(t). (8 points)
1.2 kW 0.8 kVAR (cap) (a) In the circuit shown in Fig. Qla, find: Construct the power triangles for the loads. (ii) Find the overall complex power consumed in the loads. (iii) Find the current lo. 100/90° v (rms) 2 kVA 0.707 pf leading 4 kW 0.9 pf lagging Fig. Qla (b) [This part has no connection to part (a)] Find the value of the parallel capacitance needed to correct a load of 140 kVAR at 0.85 lagging pf to...
2. For the circuit in problem 1 above: a) Transform the circuit into the s-domain b) Using Laplace transform techniques applied directly to the circuit (not applied to the differential equation found in problem 1), find iz(t), t > 0. No credit for time- domain techniques. IX V 40 + - 5+10u(t) 10 H 1/4 F 2. For the circuit in problem 1 above: a) Transform the circuit into the s-domain b) Using Laplace transform techniques applied directly to the...
Please help with this dynamics circuit
analysis.
Please show work and explain.
Thank you!!
1. Consider the circuit shown below. Cl e, (0) c, e。(t) Find the transfer function below using time-domain and impedance methods. (a) Determine the differential equation for the relationship between eo(1) and e(1) (b) Find the transfer function E, (s)/E,(s) and determine the system time constant in terms of the circuit element values C, C, and R 17 2 (c) Find the transfer function E, (s)/E,...
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