Plot the phasors for the following signals in the complex plane. v_1(t) = 10sin(omega t – 60degree) v_2(t) = 10cos(omega t + 60 degree) v_3(t) = 10sin(omega t + 120 degree) Solve a simultaneous set of two system equations: x/4 – j^2 + x – y/-j10 – 1 = 0 y – x/-j10 + y/2 + j4 – j0.5 = 0 Find the capacitor voltage v_c(t) in an RC circuit described the equation below. Assume zero initial conditions. Dv_c(t)/dt + v_c (t) = e^-3t for t > 0.

57 3 - Plot the phasors for the following signals in the complex plane. v_1(t) = 10sin(omega t - 60degree) v_2(t) = 10cos(omega t + 60 degree) v_3(t) = 10sin(omega t + 120 degree) Solve a simultaneous set of two system equations: x/4 - j^2 + x - y/-j10 - 1 = 0 y - x/-j10 + y/2 + j4 - j0.5 = 0 Find the capacitor voltage v_c(t) in an RC circuit described the equation below. Assume zero initial conditions. Dv_c(t)/dt + v_c (t) = e^-3t for t > 0.

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images - Plot the phasors for the following signals in the complex plane. v_1(t) = 10sin(omega t - 60degree) v_2(t) = 10cos(omega t + 60 degree) v_3(t) = 10sin(omega t + 120 degree) Solve a simultaneous set of two system equations: x/4 - j^2 + x - y/-j10 - 1 = 0 y - x/-j10 + y/2 + j4 - j0.5 = 0 Find the capacitor voltage v_c(t) in an RC circuit described the equation below. Assume zero initial conditions. Dv_c(t)/dt + v_c (t) = e^-3t for t > 0.

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