Student?s name in capital letters: 332:222 Principles of Electrical Engineering II This is a home-work problem which will be collected and graded. Assume that at t = 0, the initial capacitance voltage is zero. Determine the capacitance voltage vc in Fig. 2 for t greater than equal to 0 when beta = 0.25 and C = 2 MuF. Sketch vc(t) for t greater than equal to 0. You can construct a Thevenin equivalent circuit or write directly a differential equation of the circuit to do the problem.

33 7 - Student?s name in capital letters: 332:222 Principles of Electrical Engineering II This is a home-work problem which will be collected and graded. Assume that at t = 0, the initial capacitance voltage is zero. Determine the capacitance voltage vc in Fig. 2 for t greater than equal to 0 when beta = 0.25 and C = 2 MuF. Sketch vc(t) for t greater than equal to 0. You can construct a Thevenin equivalent circuit or write directly a differential equation of the circuit to do the problem.

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images - Student?s name in capital letters: 332:222 Principles of Electrical Engineering II This is a home-work problem which will be collected and graded. Assume that at t = 0, the initial capacitance voltage is zero. Determine the capacitance voltage vc in Fig. 2 for t greater than equal to 0 when beta = 0.25 and C = 2 MuF. Sketch vc(t) for t greater than equal to 0. You can construct a Thevenin equivalent circuit or write directly a differential equation of the circuit to do the problem.

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