(19) i(t) By using the time-domain technique, find in the electric circuit shown in Figure P.6...
2. Consider the circuit shown in figure 2. The sinusoidal source is v()(5) sin (500t+90°) volts, R= 3Ω, L=12mH, and C=1000 μF. (a) Transform the circuit to the frequency domain. (b) Use phasors with the loop analysis to find the steady state expression for i(). (c) Find the average power absorbed by each passive circuit element (PR. P Pc), and also Pva We were unable to transcribe this image
2. Consider the circuit shown in figure 2. The sinusoidal source...
Chapter 5, Problem 5.010 (Circuit Solution)
In the network in the figure below, find using
superposition.
We were unable to transcribe this imageChapter 5, Problem 5.010 (Circuit Solution) In the network in the figure below, find I, using superposition. 5kn 6ko 36ko 1 Va= 12 V la = 6 MA I. with only ve turned on = I. with only Iturned on =
consider the variation of constants formula where P(t)= a) show that solves the initial value problem x'+p(t)=(t) x()= when p and q are continuous functions of t on an interval I and tg p(s)ds We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image tg p(s)ds
I answered a & b
But I need the answer of C and D by using MATLAB
software
Given the electric network shown in Figure. a) Derive the mathematical model of the following electrical network b) Drive transfer function os) c) Find the step response analytically and by using MATLAB. d) Plot the response of the systems. Vi(s) 1 92 1 H We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this...
find the solution of the inhomogeneous system for y" +p(t)y' +q(t)y = f(t), a second order scalar equation with p, q, f continuous on interval I, for which (to ) = 0, to on I We were unable to transcribe this imageWe were unable to transcribe this imageWe were unable to transcribe this image
-There is no energy stored in the circuit shown at the time the
switch is opened. if k (coupling coefficient) = 0.5, L1=
4H, L2 = 9H, Ro =12
a) What is the mutual inductance of the circuit?
b)If ig = -2e-t - 2e-2t - 2 and
i2 = 2e-t - 2e-2t , Find the
expression for the voltage across the current source v1
using KVL.
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A square wire frame shown in the figure is on the x=0 plane at
t=0. Then it starts to move with a velocity of v =
vo.y.
The magnetic flux density is measured as B = Bo =
siny.cos2t.x
+ sinz.sin2t.y.
Find the voltage induced on the frame.
(The edge length of square frame is a.)
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10-76 The circuit in Figure P10-76 is shown in the t domain with initial values for the energy storage devices. (a) Transform the circuit into the s domain and write a set of node-voltage equations. (b) Transform the circuit into the s domain and write a set of mesh-current equations. (c) With the circuit in the zero state, use symbolic operations in MATLAB to solve for the node voltages. UR ) R W Vol a ich Llo_c() W VAT) yp)...
The following circuit consists of linear time invariant
components where R1 = 2,
R2 = 3,
C = 0.25F, and L = 1H. Let vs be the input voltage.
(a) Solve the differential equation that describes
vc(t). Hint: First, find the current
going through the parallel branch of R1–C. Then, write
the Kirchoff's Voltage Law for the main loop.
(b) Find vc(t) given that vs(t) = 2.5 V at
t = 0. Assume that vc(0-) = 1V and
iL(0-) =...
Assume Vs(t)=10sin(5t+30), please
(a) Convert the time-domain circuit into phasor domain
(b) Find the equivalent Zab seen by the voltage source
Vs(t)
(c) Find the equivalent Rab, Lab, and Cab in the Zab
(3) (20pts) a 42 ol[ 0.4H Am vit) Assume Vs(t) = 10sin(5t+30°), please (a) Convert the time-domain circuit into phasor domain (b) Find the equivalent Zab seen by the voltage source Vs(t) (c) Find the equivalent Rab, Lab, and Cab in the Zab