1. Point Cis the reference ground. Compute these voltages: VAC, Vec, Vpc. ΥΛΑ 3 kΩ 10...
3. Compute v, and i, in the following circuit 8 ΚΩ 2 ΚΩ M 5 kΩ V ) 10 ΚΩs Σ 4 ΚΩ
3. Use nodal analysis to compute the node voltages of the network in Figure P.3. Write the equations as a 2x2 matrix and solve. From the node voltages, find the current i. 422 10 V 11 - 12 V (-) 362 322 Figure P.3
3-6: Use nodal analysis to find the values of i1, i2, and iz: 1 kΩ 10 mA 5 kΩ 11 30v) 1 ξ 500 Ω ξ4 ΚΩ (Ε) 80 V
IV. Experiment Consider the circuit diagram below: 1 ko 3.6 ko 4.7 kΩ 10 V 2 3 ΚΩ 3 kΩ Write the node equations at node 1 and 2 Solve the node equations for the node voltages V, and V, Find current i (flowing through 4.7 kO resistor). iv. V. Simulate the circuit through TinkerCAD. Find V., V2, and i from your simulation. (R5 = 4.7 k.22) Simulation Result VIV V (V) 1 (mA)
Part 1 Given the circuit diagram in the figure, find the following voltages: Vdar Vbhr Vacr Vdi, Vfar Vacı Vaii Vhfi Vfbr and Vde 11V 15V a C 5 V d + + 30 V 13 V h 27V Let's start with some easy voltages first. What is voltage Ve? Vef V = Part 2 what is voltage Ve? Vde V exact number, no tolerance By accessing this Question Assistance, you will learn while you earn points based on the...
1. Find V. 10 kΩ 2VW- 50 kΩ ΕΛΛΑ 20 ΚΩ 3 V-ΛΑ- 50 ΚΩ -1V.-- 2. Find V. 10 Ω 5Ω + Λ 1V + + 12 Ω 3Ω
1) (10 marks) In this question, you will calculate the voltages, currents and powers as follows for the dc circuit in Fig. 1. a) Using the bottom node as the reference, calculate using node analysis, the other two node voltages. Label these other two node voltages in order from the top va and Vp. b) Calculate the current in each resistor. Calculate the power that is absorbed or produced by the each of the circuit elements. For each circuit element...
3. Given 1K 3.3K 5 v 1 + 4.7K 3v a. Measure the node voltages b. Calculate the branch voltages from the node voltages – Be sure to indicate all reference directions c. Measure the branch voltages and verify that they equal your calculated values d. (extra credit: 1 pt) Use source transformation to calculate an equivalent circuit consisting of an equivalent voltage source and an equivalent resistance.
For the cascade amplifier of the figure, calculate the polarization voltages Please clarity answer, thanks!! 1. For the cascade amplifier of the figure, calculate the polarization voltages and current collector of each stage. Also, calculate the voltage gain for each stage and the total voltage gain for cascade amplifier. 2. Repeat the previous steps using a load resistance of 2.2 kΩ 3. Calculate the input and output impedances for the cascade amplifier and the cutoff frequencies (fi) for the cascade...
7. Consider the following vector: >> vec = [30 25 20 15 10 5 1] Write a Matlab Statement using the colon operator to delete the elements 30, 20, 10, and 1 from vec and leaving the values 25, 15, 5. [You are using the same idea as in Q5 and Q6]