The input resistance of a silicon transistor is `665Omega`. Its base current is changed by `15muA` which results in the change in collector current by `2mA`. This transistor is used as a common emitter amplifier with a load resistance of `5kOmega`. What is the voltage gain of the amplifier.

The input resistance of a silicon transistor is 100Omega base current is changed by 40muA which results in a change in collector current by 2mA . This transistor is used as a common emitter amplifier with a load resistance of 4kOmega . The voltage gain of the amplifier is

The input resistance of a silicon transistor is 100 Omega . Base current is changed by 40 muA which results in a change in collector current by 2 mA . This transistor is used as a common-emitter amplifier with a load resistance of 4k Omega . The voltage gain of the amplifier is

The input resistance of a silicon transistor is 100 Omega . Base current is changed by 40 muA which results in a change in collector current by 2 mA . This transistor is used as a common-emitter amplifier with a load resistance of 4k Omega . The voltage gain of the amplifier is

The input resistance of a silicon transistor is 665Omega . Its base current is changed by 15 muA which result in the change in collector current by 2mA . This transistor is used as a common emitter amplifier with a load resistance of 5kOmega calculate current gain, beta_(a.c.) , transconductance g_(m) and voltage gain A_(v) of the amplifier.

The input resistance of a silicon transistor is 100 Ω. Base current is changed by 40μA which results in a change in collector current by 2 mA. This transistor is used as a common emitter amplifier with a load resistance of 4K Ω. Find the voltage gain of the amplifier.

The input resistance of a Silica transistor is 665Ω. Its base current is changed by 15 muA which results 2mA in the change of collector current of 5 KΩ, calculate ii) Transconductance .