(b) Referring to Figure 10, I(s)A, Write the time-domai 2 S+ nodal equation in 10 terms...
Problem 2. For the circuit of Figure P-2, a) Write a nodal equation for the node vn 4692 3452 b) Find the voltages v, and vo and the current io. Figure P-2
2r() V and the capacitor initially stores zero energy. (a) Write the time-domain loop equation in terms of the current io). b) Obtain the s-domain representation of this integral equation. (c Solve for io. 50. The s-domain representation of the voltage source in Fig. 14.16 is V, (s)- İ V. The initial voltage across the capacitor, defined using the 200 mF i() passive sign convention in terms of the current i, is 4.5 V. (a) Write the time- domain integral...
(b) Referring to the circuit of Figure 4, determine Thévinin equivalent circuit looking from the 3.3 Ω resister and determine the value of another resistor to replace the 3.3 Ω resister such that it absorbs maximum power from the rest of the circuit 2Ω 7Ω 5 V 0.1V 3.3 Ω V. Figure 4: Circuit for question 2(b)
3. (25 points) For parts a & b, determine the state space representation and write the matlab code to solve the transfer function a. The circuit below where the input is v, and the output is Va 500 mF V, LX 0 b. A system is represented by the differential equation below where the output is y() and the input is z(). 440180 + 5y0) 2) d' y(t) dr d y(t) dt ontpm ria bles 2L
3. (25 points) For...
Please show equation so I can see the process
2(a) Solve for the nodal voltages using nodal analysis. (20 points) Compute the voltage across the 2 ohm resistor. (5 points) 2(b) 6-52 V 2. I02
PLEASE HELP!
Jan. 31, 2018 Name: Section: I. Consider the circuit shown in figure (a) Write the mesh-current equations (b) Write the for the circuit. D。~of SOL the circuit DO NOT SOLVE shown in figure 2. The sinusoidal source is the circuit to the frequency domain er the circuit (a) Transto with the mesh-current method to find thement (b) Use phasors with the mesh (c) Find the average power absorbed source is 、dt) = 2 sin (100t + 90") volts....
Problem # 2 (20 points) Use Nodal Analysis and differential equation methods to find V(t) in the circuit shown and plot it for all t V(t) b 2 K 200MF 3 ov 2V Problem # 3 (20 points) Use Nodal Analysis and differential equation methods to find v(t) in the circuit shown and plot it for all t. 2n TOH 2t) 2 V
Q4. (a) Using nodal analysis, determine the voltage in the
circuit shown
in Figure Q4(a).
(b) (i) Find the transmission parameters for the two-port
network shown in Figure Q4(b).
20 Ω 30 Ω 10 Ω 60Ω 4 A 0.01v1A 2v1V Figure Q4(a) 21, V 24 Ω 2 2 1 V. 2 20 Ω Figure Q4(b)
20 Ω 30 Ω 10 Ω 60Ω 4 A 0.01v1A 2v1V Figure Q4(a)
21, V 24 Ω 2 2 1 V. 2 20 Ω Figure...
1.A) Write the nodal analysis and mesh equations that would permit you to solve for V2(s) Assume zero initial conditions B) Solve for V2(s) using nodal analysis C) Solve for V2(s)using mesh analysis. 2.A) Find an expression for v0(t) given that v(t) = e-αtu(t) and iL(0) = I0A.
problem 7
Problem-4 [10 Points] Find the Laplace transforms of the functions in Figure. 2 Figure. 2: Triangular Function Problem-5 [10 Pointsl A system has the transfer function h(s) = (s1)(s +2) a) Find the impulse response of the system b) Determine the output y(t), given that the input is x(t) u(t) Problem-6 [10 Pointsl Use the Laplace transform to solve the differential equation +22+10v(t) 3 cos(2t) dt2 dt subject to v(0)-1, dv(O) Problem-7 [10 Points] Solve the integrodifferential equation...