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. A charged particle moves in a magnetic field. What is the nature of the force acting on it?

A. Always in the direction of motion
B. Always opposite to the direction of motion
C. Perpendicular to the direction of motion
D. Depends on the charge of the particle

Solution

The magnetic force on a charged particle moving in a magnetic field is given by the Lorentz force law, which states that the force is perpendicular to both the velocity of the particle and the magnetic field.

Correct Answer: C — Perpendicular to the direction of motion

Q. A charged particle moves in a magnetic field. What path does it follow?

A. Straight line
B. Circular path
C. Elliptical path
D. Parabolic path

Solution

A charged particle moving in a magnetic field experiences a force perpendicular to its velocity, resulting in circular motion.

Correct Answer: B — Circular path

Q. A charged particle moves in a uniform electric field. What is the nature of the force acting on it?

A. Constant
B. Variable
C. Zero
D. Centripetal

Solution

In a uniform electric field, the force acting on a charged particle is constant in magnitude and direction.

Correct Answer: A — Constant

Q. A charged sphere has a radius R and a total charge Q. What is the electric potential at a point outside the sphere at a distance r from the center (r > R)?

A. kQ/R
B. kQ/r
C. kQ/(R+r)
D. 0

Solution

For a charged sphere, the electric potential outside the sphere behaves as if all the charge were concentrated at the center, so V = kQ/r.

Correct Answer: B — kQ/r

Q. A child is sitting on a merry-go-round that is rotating. If the child moves towards the center, what happens to the rotational speed of the merry-go-round?

A. Increases
B. Decreases
C. Remains the same
D. Becomes zero

Solution

As the child moves towards the center, the moment of inertia decreases, causing the rotational speed to increase to conserve angular momentum.

Correct Answer: A — Increases

Q. A child is sitting on a merry-go-round that is spinning. If the child moves closer to the center, what happens to the angular velocity of the merry-go-round?

A. Increases
B. Decreases
C. Remains the same
D. Becomes zero

Solution

As the child moves closer to the center, the moment of inertia decreases, causing the angular velocity to increase to conserve angular momentum.

Correct Answer: A — Increases

Q. A child is sitting on a merry-go-round that is spinning. If the child moves towards the center of the merry-go-round, what happens to the angular velocity of the system?

A. Increases
B. Decreases
C. Remains the same
D. Becomes zero

Solution

As the child moves towards the center, the moment of inertia decreases, thus the angular velocity increases to conserve angular momentum.

Correct Answer: A — Increases

Q. A child is sitting on a merry-go-round that is spinning. If the child moves towards the center, what happens to the angular velocity of the merry-go-round?

A. Increases
B. Decreases
C. Remains the same
D. Becomes zero

Solution

As the child moves towards the center, the moment of inertia decreases, and to conserve angular momentum, the angular velocity must increase.

Correct Answer: A — Increases

Q. A child on a merry-go-round moves from the edge to the center. What happens to the angular velocity of the merry-go-round?

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

Solution

Angular velocity increases due to conservation of angular momentum as moment of inertia decreases.

Correct Answer: A — Increases

Q. A child on a merry-go-round moves from the edge to the center. What happens to the angular momentum of the system?

A. Increases
B. Decreases
C. Remains the same
D. Becomes zero

Solution

Angular momentum is conserved; it remains the same as there are no external torques.

Correct Answer: C — Remains the same

Q. A child sitting at the edge of a merry-go-round moves towards the center. What happens to the angular momentum of the system?

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

Solution

Angular momentum remains constant if no external torque acts on the system.

Correct Answer: C — Remains constant

Q. A child sitting at the edge of a merry-go-round throws a ball tangentially. What happens to the angular momentum of the system (merry-go-round + child + ball)?

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

Solution

Angular momentum of the system remains constant due to conservation of angular momentum.

Correct Answer: C — Remains constant

Q. A circle is defined by the equation x² + y² - 10x + 6y + 25 = 0. What is the radius of the circle?

A. 5
B. 6
C. 7
D. 4

Solution

Rearranging gives (x - 5)² + (y + 3)² = 9, so the radius is √9 = 3.

Correct Answer: A — 5

Q. A circle is inscribed in a triangle with sides 7, 8, and 9. What is the radius of the inscribed circle?

A. 3
B. 4
C. 5
D. 6

Solution

Using the formula for the radius of the incircle r = A/s, where A is the area and s is the semi-perimeter.

Correct Answer: B — 4

Q. A circle is inscribed in a triangle with sides 7, 8, and 9. What is the radius of the circle?

A. 4
B. 5
C. 6
D. 3

Solution

Using the formula for the radius of the incircle r = A/s, where A is the area and s is the semi-perimeter.

Correct Answer: B — 5

Q. A circle is tangent to the x-axis at the point (4, 0). What is the equation of the circle if its radius is 3?

A. (x - 4)² + (y - 3)² = 9
B. (x - 4)² + (y + 3)² = 9
C. (x + 4)² + (y - 3)² = 9
D. (x + 4)² + (y + 3)² = 9

Solution

The center of the circle is (4, 3) since it is 3 units above the tangent point (4, 0).

Correct Answer: B — (x - 4)² + (y + 3)² = 9

Q. A circle passes through the points (1, 2), (3, 4), and (5, 6). What is the radius of the circle?

A. 2
B. 3
C. 4
D. 5

Solution

Using the distance formula, the radius can be calculated from the center found using the circumcircle method.

Correct Answer: B — 3

Q. A circuit contains a 10Ω resistor and a 5Ω resistor in series with a 15V battery. What is the total current in the circuit?

A. 1A
B. 2A
C. 3A
D. 4A

Solution

Total resistance R = 10Ω + 5Ω = 15Ω. Current I = V/R = 15V/15Ω = 1A.

Correct Answer: B — 2A

Q. A circuit contains a 10Ω resistor and a 5Ω resistor in series. What is the total resistance?

A. 5Ω
B. 10Ω
C. 15Ω
D. 50Ω

Solution

In series, total resistance R = R1 + R2 = 10Ω + 5Ω = 15Ω.

Correct Answer: C — 15Ω

Q. A circuit contains a 12 V battery and two resistors of 4 ohms and 8 ohms in series. What is the current flowing through the circuit?

A. 0.5 A
B. 1 A
C. 1.5 A
D. 2 A

Solution

Total resistance R = 4 + 8 = 12 ohms. Current I = V/R = 12 V / 12 ohms = 1 A.

Correct Answer: B — 1 A

Q. A circuit contains a 12V battery and two resistors of 4 ohms and 8 ohms in series. What is the total current in the circuit?

A. 1 A
B. 0.5 A
C. 2 A
D. 3 A

Solution

Total resistance R = R1 + R2 = 4 + 8 = 12 ohms. Current I = V/R = 12V / 12 ohms = 1 A.

Correct Answer: B — 0.5 A

Q. A circuit contains a 9V battery and two resistors in series: 3Ω and 6Ω. What is the voltage across the 6Ω resistor?

A. 6V
B. 3V
C. 9V
D. 0V

Solution

The total resistance R_total = 3Ω + 6Ω = 9Ω. The current I = V/R_total = 9V / 9Ω = 1A. Voltage across 6Ω, V = I * R = 1A * 6Ω = 6V.

Correct Answer: A — 6V

Q. A circuit contains a 9V battery and two resistors of 3 ohms and 6 ohms in series. What is the voltage across the 6 ohm resistor?

A. 6V
B. 3V
C. 9V
D. 4.5V

Solution

Total resistance R_total = 3 + 6 = 9 ohms. Current I = V/R_total = 9V / 9Ω = 1 A. Voltage across 6 ohm resistor = I * R = 1 A * 6Ω = 6V.

Correct Answer: A — 6V

Q. A circuit contains a 9V battery and two resistors of 3 ohms and 6 ohms in series. What is the voltage drop across the 6 ohm resistor?

A. 3 V
B. 6 V
C. 9 V
D. 4.5 V

Solution

Total resistance R_total = 3 + 6 = 9 ohms. Current I = V/R_total = 9V / 9Ω = 1 A. Voltage drop across 6 ohm resistor = I * R = 1 A * 6Ω = 6 V.

Correct Answer: B — 6 V

Q. A circuit contains a 9V battery and two resistors of 3Ω and 6Ω in series. What is the voltage across the 6Ω resistor?

A. 6V
B. 3V
C. 9V
D. 0V

Solution

The total resistance R_total = 3Ω + 6Ω = 9Ω. The current I = V/R_total = 9V / 9Ω = 1A. Voltage across 6Ω, V = I * R = 1A * 6Ω = 6V.

Correct Answer: A — 6V

Q. A circuit has a total resistance of 10 ohms and a current of 5 A. What is the total voltage in the circuit?

A. 50 V
B. 10 V
C. 5 V
D. 2 V

Solution

Using Ohm's law, V = I * R = 5 A * 10 ohms = 50 V.

Correct Answer: A — 50 V

Q. A circuit has a voltage of 12 volts and a resistance of 4 ohms. What is the current flowing through the circuit?

A. 3 A
B. 4 A
C. 2 A
D. 1 A

Solution

Using Ohm's Law, I = V / R = 12 V / 4 Ω = 3 A.

Correct Answer: A — 3 A

Q. A circuit has a voltage of 12V and a resistance of 4Ω. What is the current flowing through the circuit?

A. 3A
B. 4A
C. 12A
D. 48A

Solution

Using Ohm's Law, I = V/R = 12V / 4Ω = 3A.

Correct Answer: A — 3A

Q. A circuit has a voltage of 24 volts and a current of 6 amperes. What is the resistance?

A. 4 Ω
B. 6 Ω
C. 8 Ω
D. 12 Ω

Solution

Using Ohm's Law, R = V / I = 24 V / 6 A = 4 Ω.

Correct Answer: A — 4 Ω

Q. A circular loop is placed in a uniform magnetic field. If the loop is rotated about its diameter, what happens to the induced EMF?

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

Solution

When the loop is rotated about its diameter, the angle between the magnetic field and the normal to the loop changes, but the magnetic flux remains constant. Therefore, the induced EMF becomes zero as there is no change in magnetic flux.

Correct Answer: D — It becomes zero

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