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. What happens to the magnetic field inside a solenoid if the current is reversed?

A. Reverses direction
B. Increases
C. Decreases
D. Remains the same

Solution

Reversing the current reverses the direction of the magnetic field.

Correct Answer: A — Reverses direction

Q. What happens to the magnetic field inside a solenoid when the current flowing through it is increased?

A. Increases
B. Decreases
C. Remains constant
D. Becomes zero

Solution

The magnetic field inside a solenoid is directly proportional to the current flowing through it; thus, it increases with an increase in current.

Correct Answer: A — Increases

Q. What happens to the magnetic field inside a solenoid when the current through it is increased?

A. It decreases
B. It remains constant
C. It increases
D. It becomes zero

Solution

The magnetic field inside a solenoid is directly proportional to the current flowing through it, so increasing the current increases the magnetic field.

Correct Answer: C — It increases

Q. What happens to the magnetic field lines when a magnet is cut in half?

A. One magnet becomes a monopole
B. Two smaller magnets are formed
C. Magnetic field disappears
D. Field lines become straight

Solution

When a magnet is cut in half, each half becomes a smaller magnet with its own north and south poles, resulting in two smaller magnets.

Correct Answer: B — Two smaller magnets are formed

Q. What happens to the magnetic field strength if the current in a solenoid is halved?

A. Doubles
B. Halves
C. Remains the same
D. Quadruples

Solution

The magnetic field strength is directly proportional to the current, so it halves.

Correct Answer: B — Halves

Q. What happens to the magnetic field strength if the distance from a long straight wire is tripled?

A. Increases by 3 times
B. Decreases by 3 times
C. Decreases by 9 times
D. Remains the same

Solution

The magnetic field strength decreases with the square of the distance from the wire.

Correct Answer: C — Decreases by 9 times

Q. What happens to the magnetic field strength if the distance from a long straight conductor is doubled?

A. It doubles
B. It halves
C. It quadruples
D. It becomes zero

Solution

The magnetic field strength around a long straight conductor is inversely proportional to the distance from the conductor. Therefore, if the distance is doubled, the magnetic field strength halves.

Correct Answer: B — It halves

Q. What happens to the magnetic field strength inside a long solenoid when the current through it is increased?

A. It decreases
B. It remains constant
C. It increases
D. It becomes zero

Solution

The magnetic field strength inside a long solenoid is directly proportional to the current flowing through it; thus, it increases with an increase in current.

Correct Answer: C — It increases

Q. What happens to the magnetic field strength when the distance from a long straight conductor is doubled?

A. It doubles
B. It halves
C. It remains the same
D. It quadruples

Solution

The magnetic field strength around a long straight conductor decreases inversely with distance, so it halves when the distance is doubled.

Correct Answer: B — It halves

Q. What happens to the moment of inertia of a rigid body if it is rotated about an axis that is not its principal axis?

A. It increases
B. It decreases
C. It remains the same
D. It becomes zero

Solution

The moment of inertia can change when rotating about an axis that is not a principal axis due to the distribution of mass relative to the new axis.

Correct Answer: A — It increases

Q. What happens to the null point in a potentiometer if the resistance of the wire is increased?

A. Null point moves towards the battery
B. Null point moves away from the battery
C. Null point remains unchanged
D. Null point becomes unstable

Solution

Increasing the resistance of the wire decreases the current, which causes the null point to move away from the battery.

Correct Answer: B — Null point moves away from the battery

Q. What happens to the number of emitted electrons if the intensity of light is increased while keeping the frequency above the threshold?

A. The number of emitted electrons decreases
B. The number of emitted electrons increases
C. The energy of each emitted electron increases
D. No electrons are emitted

Solution

Increasing the intensity of light increases the number of photons incident on the surface, leading to more emitted electrons, provided the frequency is above the threshold.

Correct Answer: B — The number of emitted electrons increases

Q. What happens to the number of emitted electrons if the intensity of the light is increased while keeping the frequency above the threshold?

A. The number of emitted electrons decreases
B. The number of emitted electrons increases
C. The energy of each emitted electron increases
D. No effect on the number of emitted electrons

Solution

Increasing the intensity of light increases the number of photons, which in turn increases the number of emitted electrons, provided the frequency is above the threshold.

Correct Answer: B — The number of emitted electrons increases

Q. What happens to the photoelectric current if the voltage across the electrodes is increased?

A. Increases
B. Decreases
C. Remains constant
D. Becomes zero

Solution

Increasing the voltage increases the photoelectric current by attracting more emitted electrons.

Correct Answer: A — Increases

Q. What happens to the photoelectric effect if the incident light is below the threshold frequency?

A. Electrons are emitted
B. No electrons are emitted
C. Electrons are emitted with low energy
D. Electrons are emitted with high energy

Solution

If the incident light is below the threshold frequency, no electrons are emitted.

Correct Answer: B — No electrons are emitted

Q. What happens to the photoelectric effect if the metal surface is cooled?

A. More electrons are emitted
B. Fewer electrons are emitted
C. No effect on emission
D. Electrons are emitted with higher energy

Solution

Cooling the metal surface reduces the thermal energy of the electrons, making it harder for them to overcome the work function.

Correct Answer: B — Fewer electrons are emitted

Q. What happens to the pitch of a sound as its frequency increases?

A. It decreases
B. It increases
C. It remains the same
D. It becomes inaudible

Solution

As the frequency of a sound increases, its pitch also increases.

Correct Answer: B — It increases

Q. What happens to the polarization of light when it passes through a polarizer at an angle of 45 degrees?

A. It becomes unpolarized
B. It is completely absorbed
C. It is partially polarized
D. It is fully polarized

Solution

When light passes through a polarizer at an angle of 45 degrees, it becomes partially polarized.

Correct Answer: C — It is partially polarized

Q. What happens to the potential difference across a capacitor when it is fully charged?

A. It becomes zero
B. It becomes maximum
C. It becomes minimum
D. It fluctuates

Solution

When a capacitor is fully charged, the potential difference across its plates becomes maximum and remains constant until it is discharged.

Correct Answer: B — It becomes maximum

Q. What happens to the potential difference across a segment of a potentiometer wire if the resistance of the wire is increased?

A. It increases.
B. It decreases.
C. It remains the same.
D. It becomes zero.

Solution

Increasing the resistance of the wire decreases the current, which in turn decreases the potential difference across any segment of the wire.

Correct Answer: C — It remains the same.

Q. What happens to the potential difference across a segment of a potentiometer wire if the length of that segment is halved?

A. It doubles
B. It halves
C. It remains the same
D. It becomes zero

Solution

If the length of the segment is halved, the potential difference across that segment also halves, assuming the potential gradient remains constant.

Correct Answer: B — It halves

Q. What happens to the pressure in a fluid as depth increases?

A. Increases
B. Decreases
C. Remains constant
D. Varies randomly

Solution

In a fluid at rest, pressure increases with depth due to the weight of the fluid above.

Correct Answer: A — Increases

Q. What happens to the pressure of a gas if its temperature is increased while keeping the volume constant?

A. Pressure decreases
B. Pressure increases
C. Pressure remains constant
D. Pressure becomes zero

Solution

According to Gay-Lussac's Law, if the temperature increases at constant volume, the pressure increases.

Correct Answer: B — Pressure increases

Q. What happens to the pressure of a gas if its volume is halved at constant temperature?

A. It doubles
B. It halves
C. It remains the same
D. It quadruples

Solution

According to Boyle's law, if the volume is halved at constant temperature, the pressure doubles.

Correct Answer: A — It doubles

Q. What happens to the pressure of a gas if its volume is halved while keeping the temperature constant?

A. Pressure decreases
B. Pressure remains the same
C. Pressure doubles
D. Pressure triples

Solution

According to Boyle's law, if the volume of a gas is halved while keeping the temperature constant, the pressure doubles.

Correct Answer: C — Pressure doubles

Q. What happens to the pressure of a gas if the volume is doubled at constant temperature?

A. It doubles
B. It halves
C. It remains the same
D. It quadruples

Solution

According to Boyle's Law, if the volume is doubled at constant temperature, the pressure halves.

Correct Answer: B — It halves

Q. What happens to the pressure of a gas if the volume is halved at constant temperature?

A. It doubles
B. It halves
C. It remains the same
D. It quadruples

Solution

According to Boyle's Law, if the volume is halved, the pressure doubles at constant temperature.

Correct Answer: A — It doubles

Q. What happens to the pressure of a gas if the volume is halved while the temperature remains constant?

A. Pressure doubles
B. Pressure halves
C. Pressure remains the same
D. Pressure quadruples

Solution

According to Boyle's Law, if the volume is halved, the pressure doubles.

Correct Answer: A — Pressure doubles

Q. What happens to the pressure of an ideal gas if its volume is halved while keeping the temperature constant?

A. Pressure remains the same
B. Pressure doubles
C. Pressure halves
D. Pressure quadruples

Solution

According to Boyle's law, for a given amount of gas at constant temperature, pressure is inversely proportional to volume. Halving the volume doubles the pressure.

Correct Answer: B — Pressure doubles

Q. What happens to the rate of heat transfer through a material if its thickness is increased?

A. Increases
B. Decreases
C. Remains the same
D. Depends on the material

Solution

The rate of heat transfer decreases with an increase in thickness, as per Fourier's Law.

Correct Answer: B — Decreases

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