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The voltage e0
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11. The voltage e0 in the figure is 4 4 2 - + e0 2 12V (a) 2 V (b) 4/3 V (c) 4 V (d) 8 V
[Gate 2001: 2 Marks] Ans. (d) Since the diode is forward biased, it is taken as short circuit. Writing KCL + ( ) + (+ ) = = =
10. For the circuit in the figure, the voltage V0 is 2V 2 2 2 4V V0 +- (a) 2 V (b) 1 V (c) -1 V (d) None of these
[Gate 2000: 2 Marks] Apply KVL
square waveform as shown in figure is applied across 1 mH ideal inductor. The current through the inductor is a . wave of peak amplitude. -1 1V 0 0.5 t (m sec) 1 [Gate 1987: 2 Marks] 0.5 1.5 1 t m sec 1V
8. The voltage across the terminals a and b in Figure is 3A 2 2 1 1V ab (a) 0.5 V (b) 3.0 V (c) 3.5 V (d) 4.0 V
[Gate 1998: 1 Mark] 5. The voltage V in Figure is always equal to
DC 2 2 A V+- 5V (a) 9 V (b) 5 V (c) 1 V (d) None of these
[Gate 1997: 1 Mark]
7. In the circuit shown in the figure the current iD through the ideal diode (zero cut in voltage and zero forward resistance) equals
10V DC 4 4 1 2A iD (a) 0 A (b) 4 A (c) 1 A (d) None of these
[Gate 1997: 3 Marks]
The voltage V in Figure is DC DC 10V 5V 3 +- ab (a) 10 V (b) 15 V (c) 5 V (d) None of the these
[Gate 1997: 1 Mark] Ans. (a) 4. The Voltage V in Figure is equal to DC DC DC 5V 4V 4V + V - 2 (a) 3 V (b) -3 V (c) 5 V (d) None of these = + + = + Since the voltage of 2A current source is not known, it is not possible to find the value of voltage V.
[Gate 1997: 1 Mark] Ans. (a) V + 5 4 = 4 V = 4 + 4 5 = 3V
1. A
Ans. The current through the inductor is = . The integration of a square wave is a triangular wave so the current through the inductor is a triangular wave of 1 volt peak amplitude. Slope of triangular wave is 2
2. Two 2H inductance coils are connected in series and are also magnetically coupled to each other the coefficient of coupling being 0.1. The total inductance of the combination can be (a) 0.4 H (b) 3.2 H (c) 4.0 H (d) 4.4 H
M L1 L2 2H 2H Ans. (d)
The equivalent inductance = + = + . = = . = . , .
3. The current i4 in the circuit of Figure is equal to
i1 = 5A i2 = 3A i4 = ? i3 = 4A i0 = 7A I (a) 12 A (b) -12 A (c) 4 A (d) None of these
[Gate 1997: 1 Mark] Ans. (b) = + = =