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14.01. Find H(s) = I(s)/Vs(s), and the forced response i(t) for us =sin 2t V. For...
h(t) V(t) 5sin(2t 75°) +8 V V2) 10cos(2t30°) V Kt 2sin(5t-20) A i(t) Vx(t) AV(t) MW- R 100 R L 2H C1 0.1F V2(t) C2= 0.0...
h(t) V(t) 5sin(2t 75°) +8 V V2) 10cos(2t30°) V Kt 2sin(5t-20) A i(t) Vx(t) AV(t) MW- R 100 R L 2H C1 0.1F V2(t) C2= 0.05F A 4 VAt) The circuit above is in steady state. Solve for i (t). (Hint: There are 3 different frequencies present in this network, so you must use superposition to find each source's contribution to i,(t) since the reactive elements will present different impedances based on which frequency you are considering. DO NOT add...
Name PROBLEM 2: (18%) Given the following differential equation (a) Find the forced response y(t) to a unit ramp input of u(t). (9%) (Medium) (b) Find the steady-state response yo) subject to u(t...
Name PROBLEM 2: (18%) Given the following differential equation (a) Find the forced response y(t) to a unit ramp input of u(t). (9%) (Medium) (b) Find the steady-state response yo) subject to u(t) frequency response formula.) (9%) (Easy) 3cos (0.5t-0.5). (Hint: use the
Name PROBLEM 2: (18%) Given the following differential equation (a) Find the forced response y(t) to a unit ramp input of u(t). (9%) (Medium) (b) Find the steady-state response yo) subject to u(t) frequency response formula.) (9%)...
Question 3 A filter has a unit-impulse response h(t)=0.5e-2'u(t). an (i) Find the frequency response H(jo)....
Question 3 A filter has a unit-impulse response h(t)=0.5e-2'u(t). an (i) Find the frequency response H(jo). (ii) Determine an expression for the steady-state response of the filter to v> 02 sáng)
Question 1 Determine the steady-state response (t) for the network in the figure below 8 F...
Question 1 Determine the steady-state response (t) for the network in the figure below 8 F 2 H 1? 7cos 2t V i1(tl) io(t) If the steady-state response is given by io (t) = 1° cos (21+ ?), find the values of 1, and q. Express qin the range [-180°, 180°). Click if you would like to Show Work for this question: Open Show Work
for_final.pdf Example 9.8-1: Find the complete response v(t) for t>0, assuming the circuit is at steady...
for_final.pdf Example 9.8-1: Find the complete response v(t) for t>0, assuming the circuit is at steady state at t=0 t=0 4 92 NNN 1H Vs = 6 e-3'u(t) v www (.* v(t)=44/3e2t+1/3e-5t_9e-3t (V) M. Cheng
Wis) R(s u(s) 14 Gl(s) H(s) Given a system as in the diagram above, where K is an adjustable pa...
Wis) R(s u(s) 14 Gl(s) H(s) Given a system as in the diagram above, where K is an adjustable parameter pl(s) Dal(sKp+ g) Assuming W-0, find the transfer function Y(s)/R(s) h) Assuming R-0, find the transfer function Y(s)/W(s) i) What is the type of the system (with respect to steady-state error)? j) What is the steady-state error when rt)u(t) (unit-step) and w(t)-0 k) What is the s.s. error when r(t) t u(t) and w(t)-0 ) Assume r(t)-0, what is the...
0.5 F 20 u(t) v 1H Network for Problem 2 e. Find the s-domain current lab(s),...
0.5 F 20 u(t) v 1H Network for Problem 2 e. Find the s-domain current lab(s), delivered by the network to the RL load connected between terminals ab. f. Find the Transfer Function H(s) considering that the Input is the network voltage source Vs(s), and that the Output is the current lad() of item , immediately above. & Use H(s) to derive the Impulse Response h(t) of the network h. Write an expression for the Output Current lab() exclusively in...
Problem # 1: Consider the circuit of Fig. 1: a) If vc(0) 8 V and i,(t)...
Problem # 1: Consider the circuit of Fig. 1: a) If vc(0) 8 V and i,(t) 40 S(t) mA, find Vc(s) and vc(t) fort>0 b) If ve(0) 1 V and ) 0.2 e u(t) A, find Vc(s) and v(t) fort>0 Problem #2: The circuit in Fig. 2 is at steady-state before t-0. a) Find V(s) and v(t) for t>0 b) Find I(s) and i(t) for t>0 5 S2 10 - 10u(t) V 6 H v(t) i(t). 130 F Figure 1...
8. 3 Q Find steady-state response for vo(t), if i,()-3cos(5) A. i,(t) 4 2 0.05FVolt) 0.4...
8. 3 Q Find steady-state response for vo(t), if i,()-3cos(5) A. i,(t) 4 2 0.05FVolt) 0.4 H
120 Problem 1, Use the node-voltage method to find the steady state expression for v () in the circuit shown. The sinusoidal sources are v,-35cos 50 t V'and i 20 sin 50 1 A 20 Ω 0 Problem 2 1...
120 Problem 1, Use the node-voltage method to find the steady state expression for v () in the circuit shown. The sinusoidal sources are v,-35cos 50 t V'and i 20 sin 50 1 A 20 Ω 0 Problem 2 120) Use the mesh-current method to find the steady state expression for velt) in the circuit shown. Answer must be in time domain. Below excitation voltage v is given in time domain v(t) 0.75 V,<t 2 Ω ) 5osin(40140°) Problem 3...
h(t) V(t) 5sin(2t 75°) +8 V V2) 10cos(2t30°) V Kt 2sin(5t-20) A i(t) Vx(t) AV(t) MW- R 100 R L 2H C1 0.1F V2(t) C2= 0.05F A 4 VAt) The circuit above is in steady state. Solve for i (t). (Hint: There are 3 different frequencies present in this network, so you must use superposition to find each source's contribution to i,(t) since the reactive elements will present different impedances based on which frequency you are considering. DO NOT add...
Name PROBLEM 2: (18%) Given the following differential equation (a) Find the forced response y(t) to a unit ramp input of u(t). (9%) (Medium) (b) Find the steady-state response yo) subject to u(t) frequency response formula.) (9%) (Easy) 3cos (0.5t-0.5). (Hint: use the
Name PROBLEM 2: (18%) Given the following differential equation (a) Find the forced response y(t) to a unit ramp input of u(t). (9%) (Medium) (b) Find the steady-state response yo) subject to u(t) frequency response formula.) (9%)...
Question 3 A filter has a unit-impulse response h(t)=0.5e-2'u(t). an (i) Find the frequency response H(jo). (ii) Determine an expression for the steady-state response of the filter to v> 02 sáng)
Question 1 Determine the steady-state response (t) for the network in the figure below 8 F 2 H 1? 7cos 2t V i1(tl) io(t) If the steady-state response is given by io (t) = 1° cos (21+ ?), find the values of 1, and q. Express qin the range [-180°, 180°). Click if you would like to Show Work for this question: Open Show Work
for_final.pdf Example 9.8-1: Find the complete response v(t) for t>0, assuming the circuit is at steady state at t=0 t=0 4 92 NNN 1H Vs = 6 e-3'u(t) v www (.* v(t)=44/3e2t+1/3e-5t_9e-3t (V) M. Cheng
Wis) R(s u(s) 14 Gl(s) H(s) Given a system as in the diagram above, where K is an adjustable parameter pl(s) Dal(sKp+ g) Assuming W-0, find the transfer function Y(s)/R(s) h) Assuming R-0, find the transfer function Y(s)/W(s) i) What is the type of the system (with respect to steady-state error)? j) What is the steady-state error when rt)u(t) (unit-step) and w(t)-0 k) What is the s.s. error when r(t) t u(t) and w(t)-0 ) Assume r(t)-0, what is the...
0.5 F 20 u(t) v 1H Network for Problem 2 e. Find the s-domain current lab(s), delivered by the network to the RL load connected between terminals ab. f. Find the Transfer Function H(s) considering that the Input is the network voltage source Vs(s), and that the Output is the current lad() of item , immediately above. & Use H(s) to derive the Impulse Response h(t) of the network h. Write an expression for the Output Current lab() exclusively in...
Problem # 1: Consider the circuit of Fig. 1: a) If vc(0) 8 V and i,(t) 40 S(t) mA, find Vc(s) and vc(t) fort>0 b) If ve(0) 1 V and ) 0.2 e u(t) A, find Vc(s) and v(t) fort>0 Problem #2: The circuit in Fig. 2 is at steady-state before t-0. a) Find V(s) and v(t) for t>0 b) Find I(s) and i(t) for t>0 5 S2 10 - 10u(t) V 6 H v(t) i(t). 130 F Figure 1...
8. 3 Q Find steady-state response for vo(t), if i,()-3cos(5) A. i,(t) 4 2 0.05FVolt) 0.4 H
120 Problem 1, Use the node-voltage method to find the steady state expression for v () in the circuit shown. The sinusoidal sources are v,-35cos 50 t V'and i 20 sin 50 1 A 20 Ω 0 Problem 2 120) Use the mesh-current method to find the steady state expression for velt) in the circuit shown. Answer must be in time domain. Below excitation voltage v is given in time domain v(t) 0.75 V,<t 2 Ω ) 5osin(40140°) Problem 3...
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