Discrete-Circuit MOS Amplifiers Online Exam Quiz
Discrete-Circuit MOS Amplifiers GK Quiz. Question and Answers related to Discrete-Circuit MOS Amplifiers. MCQ (Multiple Choice Questions with answers about Discrete-Circuit MOS Amplifiers
According to Gibbs phase rule for a 2-component system under condensed rule, what observation can be made within the equilibrium phase?
Options
A : T can be varied independently
B : Varying a T value fixes the equilibrium compositions
C : Neither T nor concentration can be varied respectively
D : 2 phases cannot coexist
Find the open-Circuit voltage gain.
Options
A : 1 V/V
B : 2 V/V
C : 3 V/V
D : 4 V/V
For Gibbs free energy along a system path for a transformation from state 1 to state 2, the reaction kinetics can be expressed by __
Options
A : Rate = C exp(-?G1/RT)
B : Rate = C exp(-?G2/RT)
C : Rate = G/RT
D : Rate = RT/G
If terminal X is grounded and terminal Z is connected to a current source delivering a current of 10 ?A and having a resistance of 100 k?, find the voltage signal that can be measured at Y neglecting the effect of V0 .
Options
A : 0.34V
B : 0.68 V
C : 3.4 V
D : 6.8 V
If terminal Y is grounded find the voltage gain from X to Z with Z open-circuit.
Options
A : 0.33 V/V
B : 0.66 V/V
C : 0.99 V/V
D : None of the mentioned
If the output of the source follower in (I) is connected to the input of the common gate amplifier of (II). Determine the overall voltage gain (V0 /Vi ).^
Options
A : 1.55 V/V
B : 3.55 V/V
C : 5.55 V/V
D : 7.55 V/V
The NMOS transistor in the common gate amplifier as shown in the circuit below has gm = 5 mA/V. Find the input resistance and the voltage gain.^
Options
A : Input resistance: 0.1 k? and Voltage gain: 3.05 V/V
B : Input resistance: 0.1 k? and Voltage gain: 3.05 V/V
C : Input resistance: 0.2 k? and Voltage gain: 3.05 V/V
D : Input resistance: 0.2 k? and Voltage gain: 7.1 V/V
What kind of behavior can phase rule identify?
Options
A : Molecular behavior
B : Linear behavior
C : Curvic behavior
D : Atomic behavior
What kind of particles can phase rule be applied to?
Options
A : Micro
B : Nano
C : Pico
D : Heavy particles
Which of the following equilibriums can phase rule be applies to?
Options
A : Isometric
B : Isobaric
C : Isometric and Isobaric
D : Mechanical
Discrete-Circuit MOS Amplifiers more Online Exam Quiz
Discrete-Time Processing of Continuous Time Signals
Counting - Number and Sum of Divisors
Mechanism of Action of General Anesthetics
Countercurrent Braking of DC Shunt Motors
Advanced Miscellaneous Problems on Measurement of Power
Application of Phase Rule to One Component System
Construction of Parallel & Perpendicular Lines - 2