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V.(5) V (5 Using the figure given below, realize the transfer function C2 S + 1000...
A system is formed by cascading two systems as shown in the figure given below. Given...
A system is formed by cascading two systems as shown in the figure given below. Given that the impulse responses of the systems are, h1(0) = 22e-* u(1), h₂( = e ult) -40 hi(t) h2(t) Vo References eBook & Resources Section Break Difficulty: Medium Learning Objective: Un into the time domain. value: 10.00 points Determine the impulse response of the overall system. The impulse response of the overall system is h(t) = (Click to select) v (Click to select) v...
A transfer function is given by H(s) 2(s +1) (s+2)(s + 10) where s= jw. References...
A transfer function is given by H(s) 2(s +1) (s+2)(s + 10) where s= jw. References eBook & Resources Section Break Difficulty: M value: 10.00 points Identify the phase o. p = -tan-'(W) – tan-|(w/2) – tan-|(w/10) O p = tan-1W) – tan-1(w/2) – tan-1(w/10) O p = tan-'w/2) – tan-'(w/10) O 0 = = 90° + tan-'(W) – tan-'w/2) – tan-'(w/10)
A transfer function is given by T(s) 80(+ 1) s(s + 10) where s= jw. References...
A transfer function is given by T(s) 80(+ 1) s(s + 10) where s= jw. References eBook & Resources Section Break value: 10.00 points Identify the phase o. O p = 90° – tan-1(w/10) 0 = = tan-'(W) – 90° – tan-/w/10) O p = tan-1W) – tan-"W/10) 5 = tan-/w/10) – 90° – tan-'(W)
Consider the liquid shown in figure to be kerosene at 20°C. Given h1 -5 ft and...
Consider the liquid shown in figure to be kerosene at 20°C. Given h1 -5 ft and y 50.3 lbf/ft3 Air p 20 lbfin2 abs Pa 14.7 lbfin2 abs h1 D-1 in References eBook&Resources Section Break Difficulty: Medium value 10.00 points Determine the flow rate from the tank for no losses. Round the final answer to three decimal places ft3/s
The A-4 circuit is given below, where V, - 191 20" V. V. = 191 2–120...
The A-4 circuit is given below, where V, - 191 20" V. V. = 191 2–120 V, and V = 191 2120° V. a A 30 ΩΣ (+) V. j10 ΩΕ 30 Ω b GV B 30 Ω Ej102 V. j10ΩΕ C с References eBook & Resources Section Break Difficulty: Medium Problem 12.019-DEPENDENT MULTI-PART PROBLEM - ASSIGN ALL PARTS Learning Objective: Understanding and analyzing balanced delta-delta circuits. 2. value: 10.00 points Problem 12.019.a - Phase currents in a balanced delta-delta...
A transfer function is given by H(s) = 40s (s + 10) (s +20) (s +40)...
A transfer function is given by H(s) = 40s (s + 10) (s +20) (s +40) where s= jw. References eBook & Resources Section Break Difficulty: Medium value: 10.00 points Identify the gain HdB. HdB = 20log oljwl – 2010g10/1 + jw/101 – 2010g10/1 + jw/201 – 2010g1011 + jw/40|| HdB = 2010g1|0.0051 + 20log10jwl – 2010g1011 + jw/101 – 2010910/1 + jw/201 – 2010g10|1 + jw/401 HdB = 201091010.0051 – 2010g1oljwl – 2010g1011 + jw/101 – 2010g1011 + jw/201...
Consider the wheatstone Bridge shown in the given figure. Assume R-9 ㏀ 15 kQ -a References...
Consider the wheatstone Bridge shown in the given figure. Assume R-9 ㏀ 15 kQ -a References eBook & Resources Section Break Difficulty: Medium Le value: 0.30 points Calculate Va, Vb, and Vab. V. The value of va is The value of Vb is The value of Vab is V.
A 110-V rms,60-Hz source is applied to a load impedance Z The apparent power entering the...
A 110-V rms,60-Hz source is applied to a load impedance Z The apparent power entering the load is 120 VA at a power factor of 0.507 lagging References eBook& Resources Learning Objective: Understand apparent power power and power factor Section Break Difficulty Medium value 10.00 points Calculate the complex The complex power is VA. Hints References eBook & Resources
The circuit shown below has the impedance Z(s) = 800(s +1) (s+ 1 +j50) (s +1...
The circuit shown below has the impedance Z(s) = 800(s +1) (s+ 1 +j50) (s +1 -j50) , S = - jo. R с L Z(s) References eBook & Resources Section Break Difficulty: Medium value: 10.00 points Find the values of R, L, C, and G. The value of R in the circuit is 12. The value of L in the circuit is H. The value of C in the circuit is mF. The value of G in the circuit...
Derive the transfer function, vo/vi(s), in terms of G1, G2, G3, G4, G5 where Gį =...
Derive the transfer function, vo/vi(s), in terms of G1, G2, G3, G4, G5 where Gį = 1/Zį. Z2 N Via Z1 Z3 ο νο a. Derive the transfer function, vo/vi(s), if Z1 = R1, Z2 = R2,23 = R3 (i.e., resistors) and 24 = 1/sC1,25 = 1/sC2 (i.e., capacitors). b. Using Excel/Matlab/Python, etc., to draw the Bode plot of the magnitude using the following design values: R1=180k22, R2=180k12, R3=100522, C1=100nF, C2=25nF. c. What are the values of w, and Q?
A system is formed by cascading two systems as shown in the figure given below. Given that the impulse responses of the systems are, h1(0) = 22e-* u(1), h₂( = e ult) -40 hi(t) h2(t) Vo References eBook & Resources Section Break Difficulty: Medium Learning Objective: Un into the time domain. value: 10.00 points Determine the impulse response of the overall system. The impulse response of the overall system is h(t) = (Click to select) v (Click to select) v...
A transfer function is given by H(s) 2(s +1) (s+2)(s + 10) where s= jw. References eBook & Resources Section Break Difficulty: M value: 10.00 points Identify the phase o. p = -tan-'(W) – tan-|(w/2) – tan-|(w/10) O p = tan-1W) – tan-1(w/2) – tan-1(w/10) O p = tan-'w/2) – tan-'(w/10) O 0 = = 90° + tan-'(W) – tan-'w/2) – tan-'(w/10)
A transfer function is given by T(s) 80(+ 1) s(s + 10) where s= jw. References eBook & Resources Section Break value: 10.00 points Identify the phase o. O p = 90° – tan-1(w/10) 0 = = tan-'(W) – 90° – tan-/w/10) O p = tan-1W) – tan-"W/10) 5 = tan-/w/10) – 90° – tan-'(W)
Consider the liquid shown in figure to be kerosene at 20°C. Given h1 -5 ft and y 50.3 lbf/ft3 Air p 20 lbfin2 abs Pa 14.7 lbfin2 abs h1 D-1 in References eBook&Resources Section Break Difficulty: Medium value 10.00 points Determine the flow rate from the tank for no losses. Round the final answer to three decimal places ft3/s
The A-4 circuit is given below, where V, - 191 20" V. V. = 191 2–120 V, and V = 191 2120° V. a A 30 ΩΣ (+) V. j10 ΩΕ 30 Ω b GV B 30 Ω Ej102 V. j10ΩΕ C с References eBook & Resources Section Break Difficulty: Medium Problem 12.019-DEPENDENT MULTI-PART PROBLEM - ASSIGN ALL PARTS Learning Objective: Understanding and analyzing balanced delta-delta circuits. 2. value: 10.00 points Problem 12.019.a - Phase currents in a balanced delta-delta...
A transfer function is given by H(s) = 40s (s + 10) (s +20) (s +40) where s= jw. References eBook & Resources Section Break Difficulty: Medium value: 10.00 points Identify the gain HdB. HdB = 20log oljwl – 2010g10/1 + jw/101 – 2010g10/1 + jw/201 – 2010g1011 + jw/40|| HdB = 2010g1|0.0051 + 20log10jwl – 2010g1011 + jw/101 – 2010910/1 + jw/201 – 2010g10|1 + jw/401 HdB = 201091010.0051 – 2010g1oljwl – 2010g1011 + jw/101 – 2010g1011 + jw/201...
Consider the wheatstone Bridge shown in the given figure. Assume R-9 ㏀ 15 kQ -a References eBook & Resources Section Break Difficulty: Medium Le value: 0.30 points Calculate Va, Vb, and Vab. V. The value of va is The value of Vb is The value of Vab is V.
A 110-V rms,60-Hz source is applied to a load impedance Z The apparent power entering the load is 120 VA at a power factor of 0.507 lagging References eBook& Resources Learning Objective: Understand apparent power power and power factor Section Break Difficulty Medium value 10.00 points Calculate the complex The complex power is VA. Hints References eBook & Resources
The circuit shown below has the impedance Z(s) = 800(s +1) (s+ 1 +j50) (s +1 -j50) , S = - jo. R с L Z(s) References eBook & Resources Section Break Difficulty: Medium value: 10.00 points Find the values of R, L, C, and G. The value of R in the circuit is 12. The value of L in the circuit is H. The value of C in the circuit is mF. The value of G in the circuit...
Derive the transfer function, vo/vi(s), in terms of G1, G2, G3, G4, G5 where Gį = 1/Zį. Z2 N Via Z1 Z3 ο νο a. Derive the transfer function, vo/vi(s), if Z1 = R1, Z2 = R2,23 = R3 (i.e., resistors) and 24 = 1/sC1,25 = 1/sC2 (i.e., capacitors). b. Using Excel/Matlab/Python, etc., to draw the Bode plot of the magnitude using the following design values: R1=180k22, R2=180k12, R3=100522, C1=100nF, C2=25nF. c. What are the values of w, and Q?
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