In the figure shown , `R_B=500kOmega, R_C = 8 kOmega, V_("BB")=10.6V and V_("CC") = 20V` . The current amplification factor `beta=100 and V_("BE")=0.6` V . Mark the incorrect statement .

In the figure shown R_B = 500K Omega, R_C = 8K Omega, V_BB= 10.6 V and V_(C C) = 20V . The current amplification factor of the transistor is 100 and V_BE = 0.6 volt then which of the following is false?

In the circuit diagram shown, R = 10 omega, L = 5 mH, E = 10 V and i = 1 A . The current is decreasing at the reate of 10^(3) A//S . Then (V_(A) - V_(B)) at this instant is :

In the circuit shown below E_(1) = 4.0 V, R_(1) = 2 Omega, E_(2) = 6.0 V, R_(2) = 4 Omega and R_(3) = 2 Omega . The current I_(1) is

In common emitter transistor as shown in Fig., the V_(BB) supply can be varied from 0 V to 5.0V. The Si. Transistor has beta_(ac)=250 and R_(B)=100kOmega, R_(c)=1k Omega,V_(C C)=5.0V . Assume that when the transistor is saturated, V_(CE)=0V and V_(BE)=0.8V . Calculate the minimum base current, for which the transistor will reach saturation. Hence, determine V_(i) when the transistor is 'switched on' find ranges of V_(i) for which the transistor is switched off and switched on.

An n-p-n transistor in a common - emitter mode is used as a simple voltage amplifier with a collector current of 4 mA. The positive terminal of a 8 V battery is connected to the collector through a load resistance R_L and to the base through a resistance R_B . The collector - emitter voltage V_(CE) = 4 V , the base - emitter voltage V_(BE) = 0.6 V and the current amplification factor beta = 100 . Calculate the values of R_L and R_B .

For a common emitter transistor amplifier, the audio signal voltage across the collector resistance (R_(c)) of 2 kOmega is 2 V. If the current amplification factor ( beta ) of the transistor is 100, calculate the input signal voltage (V_(BE)) and base current (I_(g)) for base resistance of 1 kOmega .

An n-p-n transistor in a common-emitter mode is used as a simple voltage-amplifier with a collector current of 4 mA. The terminals of a 8 V battery is connected to the collector through a load-resistance R_L and to the base through a resistance R_B . The collector-emitter voltage V_(CE)=4V , the base-emitter voltage V_(BE) = 0.6 V and the current amplification factor beta_(dc) = 100 . Then

In the circuit diagram shown in Figure, R=10 Omega, L=5H, E=20v, i=2A . This current is decreasing at a rate of -1.0A//s. Find V_(ab) at this instant.

In the circuit diagram shown in Figure, R=10 Omega, L=l5H, E=20v, i=2A . This current is decreasing at a rate of -1.0A//s. Find V_(ab) at this instant.

In the figure shown R = 100 Omega L = (2)/(pi) H and C = (8)/(pi) mu F are connected in series with a.c source of 200 volt and frequency 'f' . V_(1) and V_(2) are two hot-wire voltmeters. If the readings of V_(1) and V_(2) are same then: