problem 2 please Problem 2 (50 points) Consider the circuit below and answer the following questions:...
Please do parts b-d. 2. Consider the circuit shown below. 0.2i 7 2 4Ω 1Ω 4Ω 0.1 va (a) By hand, use any method (node voltage, mesh currents, etc.) tosolve for the currentix b) Using Spice, solve for ix and compare with your hand calculation. (c) Plot Va vs. Vs, where Vs replaces the 9 V voltage source (and has the same polarity) and varies from -20 to 20 volts. At what value of Vs does the direction of the...
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!).
Problem 03.025-Nodal analysis: Independent current source In the circuit given below, R-15 Ω. Determine the nodal voltages using nodal analysis and MATLAB. 20Ω 10Ω PI 4 A 8Ω 20Ω The value of nodal voltage vi is The value of nodal voltage v2 is The value of nodal voltage vs is The value of nodal voltage vs is V. References eBook&Resources Hints
Problem 1. Perform the following for the circuit below using the node voltage method: 10Ω 10Ω 5i a) Calculate ia b) Calculate v c) Calculate Psource,5ia Problem 2. Perform the following for the circuit below using the node voltage method: 10Ω 1 4Ω 2 60V+ 30A V. 3 2Ω 5Ω 3 a) Calculate vi, v2 and vs b) Calculate Psource 30A c) Calculate Psource,Gov node voltage method Problem 3. Perform the following for the circuit below using the 10V 4Ω...
2. (2000) Electromagnetics (DC Circuit) Problem a. Calculate the voltages across all resistors and the currents through all the resistors and voltage sources in the following circuit using Kirchhoff's junction rule (nodal analysis). Show the directions initially assumed for the junction (node) currents. Use the minimum number of junctions (nodes) necessary to accomplish this b. Calculate the power dissipation in each resistor and the sum (or total) of these individual power dissipation values c. Calculate the power associated with each...
8. value: 10.00 points Problem 11.057 - Power delivered to dependent source For the circuit in the given figure, find the average, reactive, and complex power delivered by the dependent voltage source. Assume V : = 47 2 25° V. 412 -j1Ω 212 V 12 j222 2V The average power is 114.72 W. The reactive power is 33.7 VA. The complex power is 114.72 33.7]) VA.
(2) Find Va and Vb using nodal analysis. This is an example of a problem where it is important to follow the directions "using nodal analysis" to get full credit. Va Vb - ZAQ & 2 A ( 35 G 5A 84 5 A 34 (3) Find Va and Vb and Vc using nodal analysis. vo un vauva 24 v G+ 2 2400 ( + ) 30 V 30 (4) Find Va and Vb using nodal analysis. Note the 16i...
Will rate thx! The op amp in the circuit at right is ideal. 15 k92 1.2 kg X I + a. Calculate the expression for the output voltage as a function of the two input voltages, va and vb Vo = b. If va = 1 V and v) = 0.33 V, what is the value of the output? Vo = - c. What is the output if va = 1 V and vp = 0.33 V and Rz =...
Please show all work and to follow directions. Only answer Problem 14 14)(4 points) Analyze the circuit in problem 9-12 using PSPICE as follows: Use a Bias Point analysis to find Ix, Iy, VA, VB and Vc in problem 12 above. Be sure to add text to the schematic as indicated in the Sample Report. Only show the result of Ix, ly, VA, VB and Ve on the schematic. Adjust the placement of each value on the schematic so that...
linear circuit Q1 (60 Points]: Consider the circuit below and answer the following questions: 30 V 120 20 60 V. 15 V 50 4A (a) [20 Points Use superposition principle to calculate the current i. Show your detailed solution step by step, explain what you are doing, and draw the circuit used for each step. (b) (10 Points Use superposition principle to calculate the voltage V.. Show your detailed solution step by step, explain what you are doing, and draw...