In the following common emitter configuration NPN transistor with current gain `beta = 100` is used. The output voltage of the amplifier will be

In the following common emitter configuration an NPN transistor with current gain beta=100 is used. The output voltage of the amlifier will be

In the following common emitter configuration an NPN transistor with current gain beta=100 is used. The output voltage of the amlifier will be

In the following common emitter configuration an n-p-n transistor with current gain beta=100 is used. What is the output voltage of the amplifier ?

In the given figure, a transistor is connected in common emitter configuration . If V_(BE)=1V and current gain beta=100 , then the voltage across collector- emitter terminals V_(CE) is [ V_(BE) -voltage across base-emitter junction ]

A transistor is connected in common emitter configuration as shown in the figure.If V_(BE) = 1 V and current gain β = 100,then the voltage across collector emitter terminals VCE is

In a common emitter transistor amplifier, the output resistance is 500KOmega and the current gain beta=49 . If the power gain of the amplifier is 5xx10^(6) , the input resistance is

Consider an n-p-n transistor amplifer in common-emitter configuration. The current gain of the transistor is 100 . If the collector current changes by 1mA , what will be the change in emitter current?

If alpha and beta current gains in common-base and common-emitter configuration of a transistor, then beta is equal to

In a common emitter amplifier circuit using an n-p-n transistor, the phase difference between the input and the output voltages will be:-

For a transistor, in a common emitter arragement, the alternating current gain beta is given by