2) Write nodal equations for the circuit in Figure 4 (put in matrix notation). Solve your equations using MATLAB and calculate Vo. Repeat using mesh analysis. Include both your nodal and mesh equations, MATLAB code, MATLAB solutions (polar form), and any calculations required using your MATLAB solutions in your lab report. Vi 4/0° A 1Ω V3 1Ω
Problem 2: Find vo and io in the circuit of figure below 3Ω 1Ω 1o Problem 2: Find vo and io in the circuit of figure below 3Ω 1Ω 1o
Problem 4 Determine the hybrid parameters of the circuits below. 1Ω 30 Ω 1Ο 30Ω 1Ω 30 Ω 2Ω 40 Ω 40 Ω 1Ω 3Ω 40 Ω 4Ω 40 Ω ΑΛΛΑ 30 Ω
Figure 3 12 Ω 3Ω 2Ω 9Ω + 1Ω Question 21 1 pts Question 21 pertain to figure 3 Which resistor of the circuit will have the most current flowing through it, regardless of the circuit voltage? The 1202 Ο The 9Ω The 22 The 1Ω Figure 4 4 amps A 3 amps ? amps Figure 4 Question 22 1 pts Question 22 pertain to figure 4 According to Kirchhoff's current law, the value of the current leaving junction "A"...
1) Write the Nodal equations of the below circuits. sovna con A 2) Write the Mesh-current equations of the below circuit. 3) Find the power associated with 40V source by using Source transformation method. 4) Convert the below circuit into thevenin equivalent circuit
Ω 1F + y(t) 2Ω 2Ω 1Ω Ω + 3Ω x(t) Ω Figure P4.4-14 4.4-14 Consider the op-amp circuit of Fig. P4.4-14. (a) Determine the standard-form transfer func- tion H(s) of this system. (b) Determine the standard-form constant coef- ficient linear differential equation descrip- tion of this circuit. (c) Using transform-domain techniques, deter- mine the circuit's zero-state response yzsr(t) to the input x(t) = e2tu(t + 1). (d) Using transform-domain techniques, deter- mine the circuit's zero-input response yzir (t) if...
PROBLEM 2 (10 Points) Examine the circuit below. Write down the nodal equations in the simplified form. Take 30 volts and V2 = 30 volts. R1 = 15 Ω. R2 10 Ω, R3 25 Ω, R.: 10 Ω, Rs 20 Ω. Do not solve the equations. R3 R1 FB R2 2 V1+ vi+ V24 R5 Reference Node び
Write a set of mesh equations for the circuit below and find i and V 1Ω 6 그C2 i6v
(10 points) [8] Find V, in the circuit shown below. 1 Ω 1 Ω 1Ω =1 Ω. 12/6 v(+ j2 03 ξj10 2ΩΣ V,
2. Consider the circuit shown below. sa 3 32 4A 8V 752 a. b. c. d. Write the nodal equations. Solve for the node voltages Calculate the loop currents. What is the voltage across the 2Ω resistor.