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

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.

A n-p-n transistor is connected in common emitter configuration in which collector supply is 9V and the voltage drop across the load resistance of 700Omega connected to the collector circuit is 0.7V. If the current amplification factor alpha is 25//26 , determine collector emitter voltage and base current. If the input resistance of the transistor is 100Omega , calculate the voltage gain and the power gain.

An N-P-N transistor is connected in common-emitter configuration in which collector supply is 8V and the voltage drop across the load resistance of 800Omega connected in the collector circuit is 0.8V. If current amplification factor is 25/26 (If the internal resistance of the transistor is 200Omega ), the collector-emitter voltage, voltage gain and power gain are respectively.

Current gain of a transistor is 50 if the collector resistance is 5 k omega and input resistance is 1 k omega calculate the voltage gain