a. To determine Find the expressions i L ( t ) and v o ( t ) for t ≥ 0 . Explanation PSPICE Circuit: Refer to Figure P7.38 in the textbook. Draw the given circuit diagram in PSPICE as shown in Figure 1. Simulation settings: Provide the simulation settings as shown in Figure 2. PSPICE output: After run the PSPICE circuit a black output screen will be displayed. Right click on the mouse by keeping cursor on the output screen, click the option “Add Trace” and type the expression “ V(R2:2) ” in trace expression box. The required output plot is shown in Figure 3. From PSPICE output, the initial and final voltages are approximately equal to 60 V and 41.6 V. Find time constant from the circuit diagram. τ = L R Here, L is the inductance. R is the resistance. Substitute 5 mH for L and 12 Ω + 8 Ω for R . τ = 5 mH 12 Ω + 8 Ω = 5 × 10 − 3 20 s = 0 .25 ms The general expression of v o ( t ) for RL circuit is, v o ( t ) = v o ( ∞ ) + ( v o ( 0 ) − v o ( ∞ ) ) e − 1 τ t Here, v o ( 0 ) is the initial voltage, v o ( ∞ ) is the final voltage, and τ is the time constant. Substitute 60 V for v o ( 0 ) , 41.6 V for v o ( ∞ ) , and 0.25 ms for τ . v o ( t ) = [ 41.6 + ( 60 − 41.6 ) e − 1 0.25 ms t ] V = 41 b. To determine Calculate the numerical values of v L ( 0 + ) and v o ( 0 + ) .

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ISBN: 9780133760033

Author: James W. Nilsson, Susan Riedel

Publisher: PEARSON

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Chapter 7, Problem 36P

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Find the expressions iL(t) and vo(t) for t≥0.

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Calculate the numerical values of vL(0+) and vo(0+).

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Chapter 7, Problem 35P

Chapter 7, Problem 37P

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Electric Circuits (10th Edition)

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