In a triode, `gm=2xx10^(-3)ohm^(-1) , mu=42`, resistance load, R = 50 kilo ohm. The voltage amplification obtained from this triode will be

In a triode, g_m = 2 xx 10^-3 ohm^-1, mu = 42 , resistance load R = 50 kilo ohm. The voltage amplification obtained from this triode will be

With a change of load resistance of a triode, used as an amplifier, from 50 k ilo o h m s to 100 k ilo o h m s , its voltage amplification changes from 25 to 30. Plate resistance of the triode is

The triodes P and Q have the same amplification factor 40. Their plate resistances are 4kOmega and 8kOmega , respectively. If an amplifier circuit is designed using anyone of them and a load resistance is of 8kOmega , the ratio of the voltage gain obtained from them will be

The resistance of a solution is 5 xx 10^3 ohm. Find the conductance of the solution.

In a triode amplifier, mu=2.5, r_(p)=40 kilo ohm and load resistance R_(L)=10 kilo ohm. If the input signal voltage is 0.5 volt, then output signal voltage will be

The plate resistance of triode value is 3xx10^(3)Omega and its mutual conductance is 1.5xx10^(-3)Omega^(-1) . The amplification factor of the triode is

The plate resistance of a triode in 3 xx 10^(3) aloms and its muthal of the triode is

The voltage of a triode amplifier with a resistive load of 5 kOmega is 10 while with a resistive load of 12 kOmega . It is 15. Calculate the amplification factor and plate resistance of the triode.