The diagram of a logic circuit is given below. The output F of the circuit is represented by
(1) W(X+Y)
(2) W.(X.Y)
(3) W+(X.Y)
(4) W+(X+Y)
The combination of gates shown below produces
(a) AND gate
(b) XOR gate
(c) NOR gate
(d) NAND gate
Figure gives a system of logic gates. From the study of truth table it can be found that to produce a high output (1) at R, we must have
(1) X = 0, Y = 1
(2) X = 1, Y = 1
(3) X = 1, Y = 0
(4) X = 0, Y = 0
For the transistor circuit shown below, if = 100, voltage drop between emitter and base is 0.7 V, then value of will be :
(1) 10 V
(2) 5 V
(3) 13 V
(4) 0 V
In the following circuit, find and .
(1) 0, 0
(2) 5 mA, 5 mA
(3) 5 mA, 0
(4) 0, 5 mA
In the circuit shown in the figure, the maximum output voltage is :
1. 0 V 2. 5 V
3. 10 V 4.
Ge and Si diodes conduct at 0.3 V and 0.7 V respectively. In the following figure if Ge diode connection are reversed, the valve of changes by
(1) 0.2 V
(2) 0.4 V
(3) 0.6 V
(4) 0.8 V
In the circuit given below, V(t) is the sinusoidal voltage source, voltage drop (t) across the resistance R is
(a) Is half wave rectified
(b) Is full wave rectified
(c) Has the same peak value in the positive and negative half cycles
(d) Has different peak values during positive and negative half cycle
A 2V battery is connected across the points A and B as shown in the figure given below. Assuming that the resistance of each diode is zero in forward bias and infinity in reverse bias, the current supplied by the battery when its positive terminal is connected to A is
(a) 0.2 A
(b) 0.4 A
(c) Zero
(d) 0.1 A
The i-V characteristic of a P-N junction diode is shown below. The approximate dynamic resistance of the P-N junction when a forward bias of 2 volt is applied
(1) 1
(2) 0.25
(3) 0.5
(4) 5