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OP AMP MCQ Level – 2 - Physics MCQ


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10 Questions MCQ Test - OP AMP MCQ Level – 2

OP AMP MCQ Level – 2 for Physics 2024 is part of Physics preparation. The OP AMP MCQ Level – 2 questions and answers have been prepared according to the Physics exam syllabus.The OP AMP MCQ Level – 2 MCQs are made for Physics 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for OP AMP MCQ Level – 2 below.
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OP AMP MCQ Level – 2 - Question 1

The circuit connection of Op-Amp given in the figure (i) and (ii) represent

 

Detailed Solution for OP AMP MCQ Level – 2 - Question 1

The circuit connection of Op-Amp given in figure (i) and (ii) represents logarithmic amplifier for figure (i) and detector for figure (ii)
The correct answer is: Logarithmic amplifier for figure (i) and detector for figure (ii)

OP AMP MCQ Level – 2 - Question 2

Given the circuit below, calculate the output voltage of the non-inverting Op-Amp summer:

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OP AMP MCQ Level – 2 - Question 3

What should be the values of the component R and R2 such the frequency of the Wien bridge oscillator is 300Hz?
(given C = 0.01 μf and R1 = 12kΩ.

Detailed Solution for OP AMP MCQ Level – 2 - Question 3

The frequency of oscillation f0 is exactly the resonant frequency of balanced Wien bridge and is given by 

Assuming that the resistor are equal in value, and the capacitors are equal is value in the reactive lag of the wien bridge. At the frequency, the gain required for sustained oscillation is given by





The correct answer is:

OP AMP MCQ Level – 2 - Question 4

A non-inverting Op-Amp summer is shown in the figure. The output voltage V0 is

Detailed Solution for OP AMP MCQ Level – 2 - Question 4

 

V0 = -2(1 + 2R/R) + (2 + sin 100 t)(1 + 2R/R)

= – 6 + 6 + 3 sin 100 t

3 sin 100 t

 

OP AMP MCQ Level – 2 - Question 5

When negative feedback is used, then the gain bandwidth product of an Op-Amp.

Detailed Solution for OP AMP MCQ Level – 2 - Question 5

Applying the feedback will reduce the gain but increase the bandwidth hence, the gain bandwidth product = Ax f. he remains constant for any voltage feedback amplifier.
The correct answer is: stays the same

OP AMP MCQ Level – 2 - Question 6

The low-pass active filter shown in the figure has a cut-off frequency of 2kHz and a pass band gain of 1.5. The values of the resistors are :

Detailed Solution for OP AMP MCQ Level – 2 - Question 6

At f = fcc (cut o ff frequency at which gain falls to  of its low frequency value)


(i) Pass-Band gain = Amax = 1.5.
Hence,


The correct answer is: 

OP AMP MCQ Level – 2 - Question 7

The circuit below represent a non-inverting integrator. Find the expression for the output voltage.

Detailed Solution for OP AMP MCQ Level – 2 - Question 7


Let the inverting terminal of Op-Amp is at potential ‘V and hence non-inverting terminal also appears to have the same potential ‘V due to virtual ground concept.
Input current to op-amp is zero. Hence at non-inverting terminal mode, we have


Input current to Op-Amp is zero. Hence at inverting terminal mode we have

Substituting the values and solving all the above equations, we get



OP AMP MCQ Level – 2 - Question 8

The transistor gain of the circuit shown in figure is given by

Detailed Solution for OP AMP MCQ Level – 2 - Question 8

A and B can be measured at the same potential. From figure;


or

Also 


Combing (i) and (ii)

The correct answer is:

OP AMP MCQ Level – 2 - Question 9

The output voltage at the end of second amplifier V01  is :

The following circuit contains 3 Op-Amps and resistors.

Detailed Solution for OP AMP MCQ Level – 2 - Question 9


Similarly 


The correct answer is:

OP AMP MCQ Level – 2 - Question 10

The output V02 (at the end of third Op-Amp) of the below circuit is :

Detailed Solution for OP AMP MCQ Level – 2 - Question 10


Similarly




The correct answer is:

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