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please show steps clearly
Note: solve 1 In the circuit shown below, find ift) the problem...
The circuit loop shown lies in the yz-plane and exists in a magnetic field The answer is shown below Please show steps to solve. Thank you in advance. Problem #3 The circuit loop shown lies in the yz...
The circuit loop shown lies in the yz-plane and exists in a
magnetic field
The answer is shown below Please show steps to solve. Thank you
in advance.
Problem #3 The circuit loop shown lies in the yz-plane and exists in a magnetic field 250 cos(200mt 2z)âx mWb/m2. The connecting wires have negligible resistance. Find the current in the circuit. Loop 2.0Ω 10.7m 0.1m 1.2m
Problem #3 The circuit loop shown lies in the yz-plane and exists in a magnetic...
note: Please write with clear handwriting and show clearly the steps, and please solve it same...
note: Please write with clear handwriting and show clearly the
steps, and please solve it same as the book approach
Book: power system analyses and design 6th edition by sarma
7.31 A three-phase circuit breaker has a 15.5-kV rated maximum voltage, 9.0-KA rated short-circuit current, and a 2.50-rated voltage range factor. (a) Determine the symmetrical interrupting capability at 10-kV and 5-kV operating voltages. (b) Can this breaker be safely installed at a three- phase bus where the symmetrical fault current...
solve the problem with clearly handwriting Problem 1: For the circuit shown below R = 40...
solve the problem with clearly handwriting
Problem 1: For the circuit shown below R = 40 ohms, determine the following: (20 Points) a. The undamped resonant frequency, damping coefficient, the damping ratio and the type of response b. Find the general solution for v(t), including the numerical values of all parameters K1 = -50 and Ky = -50x10* Critically dumped Wo= The VESH • SE-6F i R 2 mH su - velty - 100) = 0 V2O) = 0 Wo...
Please solve the following and show steps clearly 1-a casual LTI system is characterized by the...
Please solve the following and show steps clearly 1-a casual LTI system is characterized by the following difference equation y[n]-3/4 y[n-1]+1/8 y[n-2]= 2 x[n] find the impulse response, h[n], of this system 2-then find the response of the system to input x[n]= (1/4)^n u[n]
Problem 4.1 For the circuit shown in figure 4.1, there is no initial energy storage and v = 10u(t) V Please explain clearly! Thanks! Problem 4.1 2.5 H For the circuit shown in figure 4.1, there is no...
Problem 4.1
For the circuit shown in figure 4.1, there is no initial energy
storage and v = 10u(t) V
Please explain clearly! Thanks!
Problem 4.1 2.5 H For the circuit shown in figure 4.1, there is no initial energy storage and v- 10 u(t) V (a) Obtain the circuit in the s-domain (b) Determine the current Los) (c) Determine for io(t) for t>0. 10Ω to 5 H 4 H Fig. 4.1
Problem 4.1 2.5 H For the circuit shown...
Please write clearly, and show steps for the solution (The answers are shown just to check)...
Please write clearly, and show steps for the solution
(The answers are shown just to check)
6. For the circuit shown, the voltage source supplies a voltage v(t)= 20 cos(1000t) V. a) Find the equivalent impedance Z as seen by the voltage source. Ans: 2.4 + 214.8 i(t) ► 10mH 0000 b) Determine i(t), and the voltage across the 10 mH inductor. i(t) = 1.33 cos(1000t - 80.8) Find the voltage across the resistor as a function of time. v(t)...
Given the following circuit shown in Fig. P2 with zero initial condition with ift) is the...
Given the following circuit shown in Fig. P2 with zero initial condition with ift) is the input current source and vo(t) is the output voltage 193 in ? it) (1 1 не Figure P2 a) Draw the circuit in the frequency domain. b) Find the voltage Vo(s) as function of the input l(s). c) Find the transfer function: T(s)=l(s)/Vo(s).
Problem 1: For the circuit below, use TIME DOMAIN TECHNIQUES. a) Find v, i, and the...
Problem 1: For the circuit below, use TIME DOMAIN TECHNIQUES. a) Find v, i, and the time constant. Clearly show your work in the document that you submit after the test. b) Enter the time constant, v(O), and i(0) into Blackboard. c) Sketch the time response of this circuit. Remember to label your axis!!! 312 10u(-t) V (+) 0.1 F + WWW (4) lut)A
plz show all steps Problem 2. (20 points) For the circuit shown below, 5v 102 15...
plz show all steps
Problem 2. (20 points) For the circuit shown below, 5v 102 15 VO S150 VS22 E 200 S40 2 a) Find the voltage v using Nodal Analysis; b) Find the power associated with the 20 N resistor. (Note: the dependent source is 5*v, not 5 volts!).
Use Laplace Transform to solve the initial value problem. Please show all work and steps clearly...
Use Laplace Transform to solve the initial value problem. Please show all work and steps clearly so I can follow your logic and learn to solve similar ones myself. I will also rate your answer. Thank you kindly! y′′−2y′−3y = e^4t, y(0) = 1, y′(0) = −1.
The circuit loop shown lies in the yz-plane and exists in a
magnetic field
The answer is shown below Please show steps to solve. Thank you
in advance.
Problem #3 The circuit loop shown lies in the yz-plane and exists in a magnetic field 250 cos(200mt 2z)âx mWb/m2. The connecting wires have negligible resistance. Find the current in the circuit. Loop 2.0Ω 10.7m 0.1m 1.2m
Problem #3 The circuit loop shown lies in the yz-plane and exists in a magnetic...
note: Please write with clear handwriting and show clearly the
steps, and please solve it same as the book approach
Book: power system analyses and design 6th edition by sarma
7.31 A three-phase circuit breaker has a 15.5-kV rated maximum voltage, 9.0-KA rated short-circuit current, and a 2.50-rated voltage range factor. (a) Determine the symmetrical interrupting capability at 10-kV and 5-kV operating voltages. (b) Can this breaker be safely installed at a three- phase bus where the symmetrical fault current...
solve the problem with clearly handwriting
Problem 1: For the circuit shown below R = 40 ohms, determine the following: (20 Points) a. The undamped resonant frequency, damping coefficient, the damping ratio and the type of response b. Find the general solution for v(t), including the numerical values of all parameters K1 = -50 and Ky = -50x10* Critically dumped Wo= The VESH • SE-6F i R 2 mH su - velty - 100) = 0 V2O) = 0 Wo...
Problem 4.1
For the circuit shown in figure 4.1, there is no initial energy
storage and v = 10u(t) V
Please explain clearly! Thanks!
Problem 4.1 2.5 H For the circuit shown in figure 4.1, there is no initial energy storage and v- 10 u(t) V (a) Obtain the circuit in the s-domain (b) Determine the current Los) (c) Determine for io(t) for t>0. 10Ω to 5 H 4 H Fig. 4.1
Problem 4.1 2.5 H For the circuit shown...
Please write clearly, and show steps for the solution
(The answers are shown just to check)
6. For the circuit shown, the voltage source supplies a voltage v(t)= 20 cos(1000t) V. a) Find the equivalent impedance Z as seen by the voltage source. Ans: 2.4 + 214.8 i(t) ► 10mH 0000 b) Determine i(t), and the voltage across the 10 mH inductor. i(t) = 1.33 cos(1000t - 80.8) Find the voltage across the resistor as a function of time. v(t)...
Given the following circuit shown in Fig. P2 with zero initial condition with ift) is the input current source and vo(t) is the output voltage 193 in ? it) (1 1 не Figure P2 a) Draw the circuit in the frequency domain. b) Find the voltage Vo(s) as function of the input l(s). c) Find the transfer function: T(s)=l(s)/Vo(s).
Problem 1: For the circuit below, use TIME DOMAIN TECHNIQUES. a) Find v, i, and the time constant. Clearly show your work in the document that you submit after the test. b) Enter the time constant, v(O), and i(0) into Blackboard. c) Sketch the time response of this circuit. Remember to label your axis!!! 312 10u(-t) V (+) 0.1 F + WWW (4) lut)A
plz show all steps
Problem 2. (20 points) For the circuit shown below, 5v 102 15 VO S150 VS22 E 200 S40 2 a) Find the voltage v using Nodal Analysis; b) Find the power associated with the 20 N resistor. (Note: the dependent source is 5*v, not 5 volts!).
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