The question will be completely solved with MATLAB 1- a) Apply the generalized ambient current method to the circuit giv

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The question will be completely solved with
MATLAB
1- a) Apply the generalized ambient current method to the
circuit given in Figure-1a, and
put your equations in the matrix form of this method. Definition
relation for the gyrator element
It is given in Figure-1b.
b) Find the Thevenin equivalent between terminals AB of the
circuit.
c) A MATLABscript (.m file) for analysis of the circuit with
node voltages
and solve for (I = 5A, R1 = 10Ω , R2 = 50Ω, G = 2, a = 3).
d) Show how the “a” parameter of the dependent source changes the
voltage of this source.
graphically and interpret it (hint: use MATLAB's plot and hold on
commands.
make use of it.).

The Question Will Be Completely Solved With Matlab 1 A Apply The Generalized Ambient Current Method To The Circuit Giv 1 (24.61 KiB) Viewed 35 times

Use the Euler method to solve the equations of state you have
obtained.
 For solution, create m-file in MATLAB (=9, =14.286, a=1.4,
b=0.2858
You can use values.)
 Examine the dependence of the solutions on the initial conditions
and  values.
+ V₁ ww G R1 k= a.lR2 Şekil-la i₂ V2 Şekil-1b = R2 0 - G R2 .A B GV₁ 01/₂