In a transistor amplifier `beta=62, R_(L)=5000Omega` and internal resistance of the transistor `=500Omega`. Calculate the voltage amplification and power amplification.

In a transistor amplifier beta = 62, R_(L) = 5000 Omega and internal resistance of the transistor is 500 Omega . Its power amplification will be.

In a transistor amplifier beta = 62, R_(L) = 5000 Omega and internal resistance of the transistor is 500 Omega . Its power amplification will be.

In a common emitter transistor amplifier, beta=60, R_(0)=5000Omega and internal resistance of a transistor is 500Omega . The voltage amplification of the amplifier will be

In a common emitter transistor amplifier, beta=60, R_(0)=5000Omega and internal resistance of a transistor is 500Omega . The voltage amplification of the amplifier will be

An n - p- n transistor is connected in common - emitter configuraration in which collector supply is 8 V and the voltage drop across the load resistance of 800 Omega connected in the collector circuit is 0.8 V . If current amplification factor is 25 , determine collector - emitter voltage and base current . If the internal resistance of the transistor is 200 Omega , calculate the voltage gain and the power gain.

An n - p- n transistor is connected in common - emitter configuraration in which collector supply is 8 V and the voltage drop across the load resistance of 800 Omega connected in the collector circuit is 0.8 V . If current amplification factor is 25 , determine collector - emitter voltage and base current . If the internal resistance of the transistor is 200 Omega , calculate the voltage gain and the power gain.

For a common emitter amplifier, input resistance (R_i) = 500Omega and load resistance R_L = 5000Omega . If beta = 60, then the voltage gain is