A: When v (1) = 100 volts, L: -0.8 henry, L₂= 1 henry, R₁ =1.402, and R: = 102. The system of differential equations for the currents (1) and (t) in the electrical network given in Figure below R L₁+R₂ (11-12) + R₁ i;= v(1) L₂ +R₂ (₂-₁)-0 dt Where (0)=0 and 2(0)-0. Use the Runge-Kutta (4 order) method to approximate (1) and i(t) at /-0.1

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A: When v (1) = 100 volts, L: -0.8 henry, L2=1 henry, R₁=1.402, and R. - 12. The
system of differential equations for the currents 4() and 1() in the electrical network
given in Figure below
+ R₂ (11-12) + R₁ i₁= v(1)
L2 +R₂ (2-1)-0
OMA
dt
Where (0)=0 and 2(0)-0. Use the Runge-Kutta (4 order) method to approximate
(1) and i(t) at 1-0.1
Transcribed Image Text:A: When v (1) = 100 volts, L: -0.8 henry, L2=1 henry, R₁=1.402, and R. - 12. The system of differential equations for the currents 4() and 1() in the electrical network given in Figure below + R₂ (11-12) + R₁ i₁= v(1) L2 +R₂ (2-1)-0 OMA dt Where (0)=0 and 2(0)-0. Use the Runge-Kutta (4 order) method to approximate (1) and i(t) at 1-0.1
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