For a transistor, the current amplilfication factor `alpha` is 0.8. If it is connected in common emitter configuration, the change in collector current when the base current changes by 6 mA is

For a transistor the current amplification factor is 0.8 The transistor is connected in common emitter configuration, the change in collector current when the base current changes by 6mA is

In a transistor, the current amplification factor alpha is 0.9. The transistor is connected in common base configuration. The change in collector current when base current changes by 4 mA is

In a transistor the current amplification alpha is '0.9', when connected in common base configuration. Now if the same transistor is connected in common emitter configurations and the change in ouput current is 4.5 mA, then the corresponding charnge in the input current is

Transistor with beta = 75 is connected to common-base configuration. What will be the maxima collector current for an emitter current of 5 mA ?

In a common emitter transistor, the current gain is 80 . What is the change in collector current, when the change in base current is 250 muA ?

A transistor has an alpha = 0.95 It has change in emitter current of 100 mili-ampere, then the change in collector current is :-

The a-c current gain of a transistor is beta=19 . In its common-emitter configuration, what will be the change in the collector-current for a change of 0.4 mA in the base-current? What will be the change in the emitter current?

The ac current gain of a transistor is 120. What is the change in the collector current in the transistor whose base current changes by 100 muA ?

In a transistor, the collector current is always · less then the emitter current because -

If the current amplification factor for a transistor connected in common emitter configuration is 100 and input resistance is 200 Omega , then the power gain is (Assume output resistance is 0.8 kOmega )