In the given circuit, the voltage across the load is maintained at 12 V. The current in the zener diode varies from 0.51 mA. What is the maximum wattage of the diode?

In the given circuit, the current through zener diode is :

In the given circuit the voltage drop across the diode is 0.8 V, if the diode can withstand current upto maximum of 30 mA, then find the maximum voltage of the battery

In the given circuit the current through Zener Diode is close to :

When the voltage drop across a p-n junction is increased from 0.80 V to 0.82 V, the change in the diode current is 20 mA. What is the dynamic resistance of the diode ?

When the voltage drop across a p.n junction diode is increased from 0.65V to 0.70V , the change in the diode current is 5mA . What is the dynamic resistance of the diode?

In the circuit below ,the breakdown voltage of zener diode is 10v. The current through diode would be

In the given circuit a silicon diode with knee voltage 0.7V is forward biased with a battery of e.m.f 8V. The current in the circuit is 40 mA. Find the power drop at resistor R and diode.

From the Zener diode circuit shown in figure, the current through the Zener diode is

The junction diode in the following circuit requires a minimum current of 1 mA to be above the knee point (0.7 V) of its I-V characterstic curve. The voltage across the diode is independent of current above the knee point. If V_(B)=5 V , then the maximum value of R so that the voltage is above the knee point, will be

A n-p-n transisitor is connected in common emitter configuration in a given amplifier. A load resistance of 800 Omega is connected in the collector circuit and the voltage drop across it is 0.8 V . If the current amplification factor is 0.96 and the input resistance of the circuits is 192 Omega , the voltage gain and the power gain of the amplifier will respectively be