Q. The current wave of figure, is passed through a 3 H inductor during the period 0 to 2 seconds

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Q. The minimum number of equations required to analyze the circuit shown in the figure is

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Q. The average value of periodic function v(t) in figure is

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Q. The dual of network in figure is

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Q. With Is disconnected I = - 1, when Is = b is connected, the value of I will become

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Q. In figure, the switch is closed at t = 0. After some time i = 6A and rate of change of current was 4A/s. The value of inductor is

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Q. In figure the switch has been in position 1 for a long time. At t = 0, the switch is moved to position 2. The equation for transient current is

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Q. In the following circuit, i(t) under steady state is

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Q. The equivalent circuit of a resistor is shown in the given figure. The resistor will be non-inductive if

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Q. In figure, the voltage V1 = 4∠0 V. The source voltage V2 is

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Q. Figure shows an RC circuit. The magnitude plot V2/V1

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Q. In figure, A is ideal ammeter having zero resistance. It will read __________ ampere.

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Q. The current wave shown in figure is applied by a 0.1 F capacitor at t = 0. At t = 0+, the voltage across capacitor is

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Q. The average value of delayed full wave rectified sine wave (figure) is

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Q. A 2 mH inductor with some initial current can be represented as shown below, where s is the Laplace transform variable. The value of initial current is

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Q. The Z parameters Z11 and Z21 for the 2-port network in the figure.

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Q. For the wave shown in figure, the average value is

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Q. In the figure circuit, V1 = 40 V. When R is 10 Ω. When R is zero, the value of V2 will be

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Q. The Thevenin Resistance of the circuit is

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Q. In the circuit shown in the given figure, RL will absorb maximum power when its value is

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