Engineering & Architecture Admissions - Exam Prep Guide

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Engineering & Architecture Admissions

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Engineering & Architecture Admissions MCQ & Objective Questions

Engineering & Architecture Admissions play a crucial role in shaping the future of aspiring students in India. With the increasing competition in entrance exams, mastering MCQs and objective questions is essential for effective exam preparation. Practicing these types of questions not only enhances concept clarity but also boosts confidence, helping students score better in their exams.

What You Will Practise Here

Key concepts in Engineering Mathematics
Fundamentals of Physics relevant to architecture and engineering
Important definitions and terminologies in engineering disciplines
Essential formulas for solving objective questions
Diagrams and illustrations for better understanding
Conceptual theories related to structural engineering
Analysis of previous years' important questions

Exam Relevance

The topics covered under Engineering & Architecture Admissions are highly relevant for various examinations such as CBSE, State Boards, NEET, and JEE. Students can expect to encounter MCQs that test their understanding of core concepts, application of formulas, and analytical skills. Common question patterns include multiple-choice questions that require selecting the correct answer from given options, as well as assertion-reason type questions that assess deeper comprehension.

Common Mistakes Students Make

Misinterpreting the question stem, leading to incorrect answers.
Overlooking units in numerical problems, which can change the outcome.
Confusing similar concepts or terms, especially in definitions.
Neglecting to review diagrams, which are often crucial for solving problems.
Rushing through practice questions without understanding the underlying concepts.

FAQs

Question: What are the best ways to prepare for Engineering & Architecture Admissions MCQs?
Answer: Regular practice of objective questions, reviewing key concepts, and taking mock tests can significantly enhance your preparation.

Question: How can I improve my accuracy in solving MCQs?
Answer: Focus on understanding the concepts thoroughly, practice regularly, and learn to eliminate incorrect options to improve accuracy.

Start your journey towards success by solving practice MCQs today! Test your understanding and strengthen your knowledge in Engineering & Architecture Admissions to excel in your exams.

JEE Main

Q. If the electric field due to a point charge is E, what is the electric field at a distance of 2r from the charge?

A. E/2
B. E/4
C. E/8
D. E

Solution

The electric field due to a point charge varies inversely with the square of the distance, so at 2r, E becomes E/4.

Correct Answer: B — E/4

Q. If the electric field inside a conductor in electrostatic equilibrium is zero, what can be said about the charge distribution?

A. Charge is uniformly distributed
B. Charge is concentrated at the center
C. Charge resides on the surface
D. Charge is absent

Solution

In electrostatic equilibrium, excess charge resides on the surface of the conductor, leading to zero electric field inside.

Correct Answer: C — Charge resides on the surface

Q. If the electric field inside a conductor in electrostatic equilibrium is zero, what can be said about the electric field just outside the conductor?

A. It is zero
B. It is uniform
C. It is perpendicular to the surface
D. It is parallel to the surface

Solution

The electric field just outside a conductor in electrostatic equilibrium is perpendicular to the surface.

Correct Answer: C — It is perpendicular to the surface

Q. If the electric potential at a point is 0 V, what can be said about the electric field at that point?

A. It is zero
B. It is positive
C. It is negative
D. It cannot be determined

Solution

The electric field is the negative gradient of the electric potential. If the potential is constant (0 V), the electric field is zero.

Correct Answer: A — It is zero

Q. If the electric potential at a point is 10 V and the charge at that point is 2 C, what is the electric potential energy?

A. 5 J
B. 10 J
C. 20 J
D. 40 J

Solution

Electric potential energy U is given by U = VQ. Here, U = 10 V * 2 C = 20 J.

Correct Answer: C — 20 J

Q. If the electric potential at a point is 10 V and the electric field is uniform, what is the work done in moving a charge of 2 C from that point to a point where the potential is 0 V?

A. 20 J
B. 10 J
C. 5 J
D. 0 J

Solution

Work done W = q(V1 - V2) = 2 C (10 V - 0 V) = 20 J.

Correct Answer: A — 20 J

Q. If the electric potential at a point is 10 V, what is the work done in bringing a charge of 2 C from infinity to that point?

A. 20 J
B. 10 J
C. 5 J
D. 40 J

Solution

Work done = Charge × Potential = 2 C × 10 V = 20 J.

Correct Answer: A — 20 J

Q. If the electric potential at a point is 100 V and the electric field is 50 N/C, what is the distance from the charge?

A. 2 m
B. 1 m
C. 0.5 m
D. 4 m

Solution

Distance d = V / E = 100 V / 50 N/C = 2 m.

Correct Answer: A — 2 m

Q. If the electric potential at a point is 100 V, what is the work done in moving a charge of 2 C from infinity to that point?

A. 200 J
B. 100 J
C. 50 J
D. 0 J

Solution

Work done W = q * V = 2 C * 100 V = 200 J.

Correct Answer: A — 200 J

Q. If the electric potential at a point is 150 V and the electric field is directed towards the point, what can be said about the charge creating the field?

A. It is positive
B. It is negative
C. It is neutral
D. Cannot be determined

Solution

If the electric field is directed towards the point, it indicates that the charge creating the field is negative.

Correct Answer: B — It is negative

Q. If the electric potential at a point is 150 V and the electric field is uniform, what is the potential difference over a distance of 3 m?

A. 50 V
B. 150 V
C. 100 V
D. 200 V

Solution

Potential difference ΔV = E * d = (150 V / 3 m) * 3 m = 150 V.

Correct Answer: A — 50 V

Q. If the electric potential at a point is 200 V and a charge of -1 C is placed at that point, what is the potential energy?

A. -200 J
B. 200 J
C. 0 J
D. 100 J

Solution

Potential energy U = q * V = -1 C * 200 V = -200 J.

Correct Answer: A — -200 J

Q. If the electric potential at a point is 200 V and the electric field is uniform, what is the work done in moving a charge of 0.5 C to a point where the potential is 100 V?

A. 50 J
B. 100 J
C. 200 J
D. 0 J

Solution

Work done W = q * (V1 - V2) = 0.5 C * (200 V - 100 V) = 50 J.

Correct Answer: B — 100 J

Q. If the electric potential at a point is 200 V and the electric field is uniform, what is the work done in moving a charge of 0.5 C to that point?

A. 100 J
B. 200 J
C. 50 J
D. 0 J

Solution

Work done W = q * V = 0.5 C * 200 V = 100 J.

Correct Answer: A — 100 J

Q. If the electric potential at a point is 300 V and a charge of 3 C is placed at that point, what is the force acting on the charge?

A. 900 N
B. 300 N
C. 0 N
D. None of the above

Solution

The force on a charge in a static electric field is not determined by potential alone; it depends on the electric field, which is not given.

Correct Answer: C — 0 N

Q. If the electric potential at a point is 300 V and the electric field is uniform, what is the work done in moving a charge of 3 μC to a point where the potential is 600 V?

A. 0.9 mJ
B. 0.6 mJ
C. 0.3 mJ
D. 1.2 mJ

Solution

Work done W = q * ΔV = 3 × 10^-6 C * (600 V - 300 V) = 3 × 10^-6 * 300 = 0.9 mJ.

Correct Answer: A — 0.9 mJ

Q. If the electric potential at a point is 50 V and the electric field strength is 5 N/C, what is the distance from the point to the reference point where the potential is zero?

A. 10 m
B. 5 m
C. 25 m
D. 50 m

Solution

Distance d = V/E = 50 V / 5 N/C = 10 m.

Correct Answer: A — 10 m

Q. If the electric potential at a point is increased from 5 V to 15 V, what is the change in potential energy of a charge of 3 C placed at that point?

A. 30 J
B. 15 J
C. 10 J
D. 5 J

Solution

Change in potential energy ΔU = qΔV = 3 C × (15 V - 5 V) = 30 J.

Correct Answer: A — 30 J

Q. If the electric potential at a point is increased, what happens to the electric field at that point?

A. Increases
B. Decreases
C. Remains the same
D. Cannot be determined

Solution

An increase in electric potential at a point generally indicates a stronger electric field, as the electric field is related to the rate of change of potential.

Correct Answer: A — Increases

Q. If the electric potential at a point is increased, what happens to the work done by an external force on a positive charge moved to that point?

A. Increases
B. Decreases
C. Remains constant
D. Cannot be determined

Solution

If the electric potential increases, the work done by the external force must increase to move the positive charge against the electric field.

Correct Answer: A — Increases

Q. If the electric potential at point A is 10 V and at point B is 5 V, what is the work done by the electric field in moving a charge from A to B?

A. 5 J
B. 10 J
C. 15 J
D. 0 J

Solution

The work done (W) by the electric field is given by W = q(V_A - V_B). For a unit charge, W = 10 V - 5 V = 5 J.

Correct Answer: A — 5 J

Q. If the electric potential at point A is 15 V and at point B is 5 V, what is the potential difference between A and B?

A. 10 V
B. 15 V
C. 5 V
D. 20 V

Solution

Potential difference (V_AB) = V_A - V_B = 15 V - 5 V = 10 V.

Correct Answer: A — 10 V

Q. If the electric potential at point A is 5 V and at point B is 15 V, what is the work done by the electric field in moving a charge of 2 C from A to B?

A. -20 J
B. 20 J
C. 10 J
D. 30 J

Solution

Work done W = Q(V_B - V_A) = 2 C * (15 V - 5 V) = 20 J.

Correct Answer: A — -20 J

Q. If the electric potential at point A is 5 V and at point B is 15 V, what is the potential difference between A and B?

A. -10 V
B. 10 V
C. 5 V
D. 15 V

Solution

The potential difference V_AB = V_B - V_A = 15 V - 5 V = 10 V.

Correct Answer: A — -10 V

Q. If the electric potential in a region is constant, what can be said about the electric field in that region?

A. It is zero
B. It is constant
C. It varies linearly
D. It is maximum

Solution

If the electric potential is constant, the electric field in that region is zero, as E = -dV/dx.

Correct Answer: A — It is zero

Q. If the emf of a cell is 12 V and the potentiometer wire is 20 m long, what is the potential gradient if the wire is calibrated to give a reading of 0.6 V/m?

A. 12 V
B. 0.6 V/m
C. 0.3 V/m
D. 0.5 V/m

Solution

The potential gradient is given as 0.6 V/m, which is the calibration value for the potentiometer.

Correct Answer: B — 0.6 V/m

Q. If the emf of a cell is 2V and the potential gradient of the potentiometer wire is 4 V/m, what will be the balancing length?

A. 0.5 m
B. 1 m
C. 0.25 m
D. 0.75 m

Solution

The balancing length is calculated as L = V / (potential gradient) = 2V / 4 V/m = 0.5 m.

Correct Answer: B — 1 m

Q. If the enthalpy of a system increases, the process is considered _____.

A. exothermic
B. endothermic
C. isothermal
D. adiabatic

Solution

If the enthalpy of a system increases, the process is considered endothermic.

Correct Answer: B — endothermic

Q. If the enthalpy of a system increases, what can be inferred about the system?

A. It is losing heat
B. It is gaining heat
C. It is at equilibrium
D. It is undergoing a phase change

Solution

An increase in enthalpy indicates that the system is gaining heat.

Correct Answer: B — It is gaining heat

Q. If the enthalpy of reaction is -100 kJ, what can be said about the reaction?

A. It absorbs heat
B. It releases heat
C. It is at equilibrium
D. It requires energy input

Solution

A negative enthalpy change indicates that the reaction releases heat, making it exothermic.

Correct Answer: B — It releases heat

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