A transistor connected in common emitter configuration has input resistance `R_("in")=2 K Omega` and load resistance of `5 K Omega` . If `beta=60` and an input signal 12 mV is applied , calculate the resistance gain, voltage gain and power gain.

A transistor, connected in common emitter configuration, has input resistance R_(i)=2kOmega and load resistance 6kOmega . If beta=60 and an input signal 10mV is applied, calculate the (i) resistance gain, (ii) voltage gain (iii) the power gain and (iv) the value of the output signal.

A transistor, is connected in common-emitter configuration, has input resistance R_in = 2k Omega and load resistance of 5k Omega .if beta = 60 and an input signal of 12m V is applied, calculate the voltage gain, output

A transistor, is connected in common-emitter configuration, has input resistance R_in = 1k Omega and load resistance of 4k Omega . if beta = 50 and an input signal of 10m V is applied, calculate the voltage gain, output voltage and power gain.

A transistor, connected in common-emitter configuration, has input resistance R_in = 3k Omega and load resistance of 6k Omega .If beta = 40 and an input signal of 20m V is applied, calculate the voltage gain, output voltage and power gain.

A transistor connected in common emitter configuration has input resistance Ri = 2k Omega (kilo ohm) and load resistance 6k Omega (kilo ohm). If current gain beta = 60 and input signal 10 mV (millivolt) is applied, calculate voltage gain

A transistor connected in cdmmon emitter configuration has input resistance Ri = 2k Omega (kilo ohm) and load resistance 6k Omega (kilo ohm). If current gain beta = 60 and input signal 10 mV (millivolt) is applied, calculate resistance gain