The current amplification factor is ……….. .

A npn transistor is cnnected in common emitter configuration in a given amplifier . A load resistance of 800Omega is connected in the collector circuit and the voltage drop across it is 0.8V. YF the current amplification factor is 0.96 and the input resistance of the circuit is 192Omega , the voltage gain and the power gain of the amplifier will respectivel be:

In CE transistor amplifier , if the base current is increased by 20 mu A , the collector current changes from 4 mA to 5 mA . The current amplification factor of the transistor is

For CE transistor amplifier, the, audio signal voltage across the collector resistance of 2KOmega is 4V. If the current amplification factor of the transistor is 100 and the bas resistance is 1KOmega then the input signal voltage is

For a CE- transistor amplifier , the audio signal voltage across the collected resistance of 2 k Omega is 2 V . Suppose the current amplification factor of the transistor is 100 , find the input signal voltage and base current , if the base is 1 k Omega .

For a CE transistor amplifier , the audio signal voltage across the collector resistance of 2.0 k Omega is 2.0 V . Suppose the current amplification factor of the transistor is 100 . What should be the value of R_(R) in series with V_(BB) supply of 2.0V if the dc base current has to be 10 times the signal current . Also calculate then de drop across the collector resistance . Take VBE=0.6V

Define amplification.

In a common-base mode of a transistor, the collector current is 5.488 mA for an emitter current of 5.60 A. The value of the base current amplification factor (beta) will be

The current amplification of common base N-P-N transistor is 0.96. What will be the current gain if it is used as common emitter amplifier ?

Figure shows two identical triode tubes connected in paralle. The anodes are connected together, the grids are connected together and the cathodes are connected together. Show that the equivalent plate resistance is half of the individual plate resistance, the equivalent mutual conductance is double the individual mutual conductance and the equivalent amplification factor is the same as the individual amplification factor. (##HCV_VOL2_C41_E01_049_Q01##)