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ECE 320 - Fundamentals of Electrical Engineering, Test 2 3. (20) Find the phasor form of...
find the current i and the voltages vr and vl in flphaser form Electrical Engineering Dpt....
find the current i and the voltages vr and vl in
flphaser form
Electrical Engineering Dpt. UQU Circuit Analysis - (8021010) Chapter#15 R = 80 X = 60 000 1# Find the current I and the voltages VRand Vlin phasor form. E = 100 V ZO
1. Find the phasor form of the following functions. a. v(t)-1 55 cos(3771-25?)I, b. dt) =...
1. Find the phasor form of the following functions. a. v(t)-1 55 cos(3771-25?)I, b. dt) = 5 sin(1 0001-400)V c. it) 10cos 10r6315 cos 10r-42° )A d. )-460 cos(500-25)-220sin00s°)
Electrical Systems a) In the circuit below calculate the power absorbed for each element V=IQ 50 Pr vI=GS ISAaw PVI...
Electrical Systems
a) In the circuit below calculate the power absorbed for each element V=IQ 50 Pr vI=GS ISAaw PVI I2A 10 V Pvoltage Source PCurrent Source PResistance b) Find the equivalent resistance between the circuit input terminals R-80 R 100 S-30 60 REquivalent c) Find ij and iz by current division Rs 200 R i,-2 A R R, 100 iz= i= d) Write the Phasor for the following signals: a) v(t)-20 cos (10t +45°) V V- 5 sin (20t-20)...
4.15. Use phasor techniques in the following. (a) Find 2 cos(100t - 459) – 3 cos...
4.15. Use phasor techniques in the following. (a) Find 2 cos(100t - 459) – 3 cos (100t + 60°) (b) Find 50 sin(100t) + (d/dt) cos (100t - 30). Hint: Do not take the derivative in the time domain; replace it by jo in the frequency domain. (c) Use phasor techniques to evaluate the derivative the formula in the time domain and transform of i(t) = 20 sin(500t) at t = 2 ms. Hint: Write into the frequency domain, using...
circuits Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI function of o. ) as a 250 kS...
circuits
Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI function of o. ) as a 250 kS2 500 k2 O Vo 0
Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI...
(a) Write the relationship between the instantaneous time voltage i(t) = 1, cos(wt+p) and its phasor...
(a) Write the relationship between the instantaneous time voltage i(t) = 1, cos(wt+p) and its phasor transform I. Write phasor transforms of the following voltages and currents. All answers should be in the form of AZB where A is a positive number A 20 and B is given in degrees over the range of -180° <B S 180°. Make sure that you include the units. Show all work to receive partial credit. (6) v(t) = VŽ cos(7t + 1/4 -...
Problem #2 letter a. Please!!! University of Louisville Electrical and Computer Engineering Department Dr. Aly Farag...
Problem #2 letter a. Please!!!
University of Louisville Electrical and Computer Engineering Department Dr. Aly Farag Summer 2018 ECE 320: Hw 3 Due Tuesday 615/2018 Problem 1: For the circuit below, Derive the equation for the steady state voltage vo). Evaluate the state voltage when R1-R2 0.5 Ohms and L-1 Henry. itt) cos Problem 2: For the given circuit, and using the superposition property, evaluate the voltage voG) a) The Differential Equations Method. b) The Phasors Method. 42 10 cos...
Problem 2 (20 pts. Consider the following circuit. Use phasor method to find the following a....
Problem 2 (20 pts. Consider the following circuit. Use phasor method to find the following a. i(t). b. iz(t). c. Average power absorbed by the controlled source. d. Average power absorbed by the independent source. e. Average power absorbed by the inductor. f. Average power absorbed by the capacitor. g. Average power absorbed by the resistor. 322 500 pF H4 10 cos 103t v ففف 4 mH I + 2i1
Electrical engineering problem 1251 Problem 2 For the circuit below a) Convert input V.lt) into Amplitude and phase form b) Find the output response V(t) using Fourier series in the circuit shown, dra...
Electrical engineering problem
1251 Problem 2 For the circuit below a) Convert input V.lt) into Amplitude and phase form b) Find the output response V(t) using Fourier series in the circuit shown, draw frequency spectrum (only amplityde) for until four non zero terms o v(t) 5Ω 1 H 100 mF
1251 Problem 2 For the circuit below a) Convert input V.lt) into Amplitude and phase form b) Find the output response V(t) using Fourier series in the circuit shown, draw...
PRAIRIE VIEW A&M UNIVERSITY DEPARTMENT OF ELECTRICAL & COMPUTER ENGINEERING ELEG-4043-PO1/ELECTRONICS II-FALL 2018 Test 2 (Midterm)...
PRAIRIE VIEW A&M UNIVERSITY DEPARTMENT OF ELECTRICAL & COMPUTER ENGINEERING ELEG-4043-PO1/ELECTRONICS II-FALL 2018 Test 2 (Midterm) Name: SID Draw a simple NMOS differential pair with a common mode voltage Vom. Let Voo V-1.5V k,,(w/L)-4 mA/V, V.-0.5V, 1-0.4mA, and Roi-Ro2-2.5 Kohm. Neglect channel length modulation. Assume the current source I requires a minimum voltage of 0.4V to operate properly. Find Vov and Vas. When VaM -0, find V, voltage across Ro1 (Vo) and RolVo). [30 1.
find the current i and the voltages vr and vl in
flphaser form
Electrical Engineering Dpt. UQU Circuit Analysis - (8021010) Chapter#15 R = 80 X = 60 000 1# Find the current I and the voltages VRand Vlin phasor form. E = 100 V ZO
1. Find the phasor form of the following functions. a. v(t)-1 55 cos(3771-25?)I, b. dt) = 5 sin(1 0001-400)V c. it) 10cos 10r6315 cos 10r-42° )A d. )-460 cos(500-25)-220sin00s°)
Electrical Systems
a) In the circuit below calculate the power absorbed for each element V=IQ 50 Pr vI=GS ISAaw PVI I2A 10 V Pvoltage Source PCurrent Source PResistance b) Find the equivalent resistance between the circuit input terminals R-80 R 100 S-30 60 REquivalent c) Find ij and iz by current division Rs 200 R i,-2 A R R, 100 iz= i= d) Write the Phasor for the following signals: a) v(t)-20 cos (10t +45°) V V- 5 sin (20t-20)...
4.15. Use phasor techniques in the following. (a) Find 2 cos(100t - 459) – 3 cos (100t + 60°) (b) Find 50 sin(100t) + (d/dt) cos (100t - 30). Hint: Do not take the derivative in the time domain; replace it by jo in the frequency domain. (c) Use phasor techniques to evaluate the derivative the formula in the time domain and transform of i(t) = 20 sin(500t) at t = 2 ms. Hint: Write into the frequency domain, using...
circuits
Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI function of o. ) as a 250 kS2 500 k2 O Vo 0
Problem #3 (20 pts): In the circuit below find the phasor Vo as a function of V, and ω assuming that V,-V,cos (ot) V and V,--2 V,cos (ot) V. Then plot 10log( IVI...
(a) Write the relationship between the instantaneous time voltage i(t) = 1, cos(wt+p) and its phasor transform I. Write phasor transforms of the following voltages and currents. All answers should be in the form of AZB where A is a positive number A 20 and B is given in degrees over the range of -180° <B S 180°. Make sure that you include the units. Show all work to receive partial credit. (6) v(t) = VŽ cos(7t + 1/4 -...
Problem #2 letter a. Please!!!
University of Louisville Electrical and Computer Engineering Department Dr. Aly Farag Summer 2018 ECE 320: Hw 3 Due Tuesday 615/2018 Problem 1: For the circuit below, Derive the equation for the steady state voltage vo). Evaluate the state voltage when R1-R2 0.5 Ohms and L-1 Henry. itt) cos Problem 2: For the given circuit, and using the superposition property, evaluate the voltage voG) a) The Differential Equations Method. b) The Phasors Method. 42 10 cos...
Problem 2 (20 pts. Consider the following circuit. Use phasor method to find the following a. i(t). b. iz(t). c. Average power absorbed by the controlled source. d. Average power absorbed by the independent source. e. Average power absorbed by the inductor. f. Average power absorbed by the capacitor. g. Average power absorbed by the resistor. 322 500 pF H4 10 cos 103t v ففف 4 mH I + 2i1
Electrical engineering problem
1251 Problem 2 For the circuit below a) Convert input V.lt) into Amplitude and phase form b) Find the output response V(t) using Fourier series in the circuit shown, draw frequency spectrum (only amplityde) for until four non zero terms o v(t) 5Ω 1 H 100 mF
1251 Problem 2 For the circuit below a) Convert input V.lt) into Amplitude and phase form b) Find the output response V(t) using Fourier series in the circuit shown, draw...
PRAIRIE VIEW A&M UNIVERSITY DEPARTMENT OF ELECTRICAL & COMPUTER ENGINEERING ELEG-4043-PO1/ELECTRONICS II-FALL 2018 Test 2 (Midterm) Name: SID Draw a simple NMOS differential pair with a common mode voltage Vom. Let Voo V-1.5V k,,(w/L)-4 mA/V, V.-0.5V, 1-0.4mA, and Roi-Ro2-2.5 Kohm. Neglect channel length modulation. Assume the current source I requires a minimum voltage of 0.4V to operate properly. Find Vov and Vas. When VaM -0, find V, voltage across Ro1 (Vo) and RolVo). [30 1.
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