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 a body has a moment of inertia of 15 kg m² and is subjected to a torque of 5 N m, what is its angular acceleration?

A. 0.33 rad/s²
B. 0.5 rad/s²
C. 1 rad/s²
D. 3 rad/s²

Solution

Angular acceleration α = τ/I = 5 N m / 15 kg m² = 0.33 rad/s².

Correct Answer: A — 0.33 rad/s²

Q. If a body is moving in a circular path with a constant speed, which of the following statements is true?

A. The body is in equilibrium
B. The net force acting on the body is zero
C. The body experiences a centripetal force
D. The body has no acceleration

Solution

A body moving in a circular path with constant speed experiences a centripetal force directed towards the center of the circle.

Correct Answer: C — The body experiences a centripetal force

Q. If a body is moving in a circular path with a radius of 10 m and completes one full revolution in 5 seconds, what is its angular velocity?

A. 0.2 rad/s
B. 1.25 rad/s
C. 2 rad/s
D. 4 rad/s

Solution

Angular velocity (ω) = 2π/T = 2π/5 = 1.25 rad/s.

Correct Answer: B — 1.25 rad/s

Q. If a body is moving in a circular path with uniform speed, which of the following statements is true?

A. The body has no acceleration
B. The body has constant velocity
C. The body experiences centripetal acceleration
D. The body moves in a straight line

Solution

The body experiences centripetal acceleration directed towards the center of the circle.

Correct Answer: C — The body experiences centripetal acceleration

Q. If a body is moving in a straight line and no external torque acts on it, what can be said about its angular momentum?

A. It is zero
B. It is constant
C. It increases
D. It decreases

Solution

Angular momentum remains constant if no external torque acts.

Correct Answer: B — It is constant

Q. If a body is rotating with an angular momentum L and its moment of inertia is halved, what will be the new angular momentum if the angular velocity remains constant?

A. L
B. 2L
C. L/2
D. 4L

Solution

Angular momentum L = Iω; if I is halved and ω remains constant, L remains L.

Correct Answer: A — L

Q. If a body moves in a circular path with a constant speed, which of the following statements is true?

A. The body has zero acceleration
B. The body has constant acceleration
C. The body has uniform velocity
D. The body experiences centripetal acceleration

Solution

The body experiences centripetal acceleration directed towards the center of the circle.

Correct Answer: D — The body experiences centripetal acceleration

Q. If a capacitor has a capacitance of 10 µF and is charged to 5 V, what is the charge on the capacitor?

A. 50 µC
B. 5 µC
C. 2 µC
D. 10 µC

Solution

The charge (Q) on a capacitor is given by Q = C * V. Here, Q = 10 µF * 5 V = 50 µC.

Correct Answer: A — 50 µC

Q. If a capacitor is charged and then short-circuited, what happens to the charge on the capacitor?

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

Solution

When a charged capacitor is short-circuited, the charge flows through the circuit, and the charge on the capacitor becomes zero.

Correct Answer: B — It is discharged

Q. If a capacitor is charged to a voltage V and then connected in parallel with an uncharged capacitor, what will be the final voltage across both capacitors?

A. V
B. V/2
C. 2V
D. 0

Solution

When connected in parallel, charge redistributes, and the final voltage across both capacitors will be V/2.

Correct Answer: B — V/2

Q. If a capacitor is charged to a voltage V and then connected to a resistor R, what is the time constant of the circuit?

A. RC
B. R/C
C. C/R
D. 1/RC

Solution

The time constant τ of an RC circuit is given by τ = R * C.

Correct Answer: A — RC

Q. If a capacitor is charged to a voltage V and then short-circuited, what happens to the charge on the capacitor?

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

Solution

Short-circuiting a capacitor allows charge to flow off, resulting in the charge becoming zero.

Correct Answer: B — It becomes zero

Q. If a capacitor is charged to a voltage V and then short-circuited, what happens to the energy stored in the capacitor?

A. It is conserved
B. It is dissipated as heat
C. It increases
D. It becomes zero

Solution

When a capacitor is short-circuited, the stored energy is dissipated as heat in the circuit.

Correct Answer: B — It is dissipated as heat

Q. If a capacitor is connected to a DC voltage source, what will happen to the current over time?

A. It remains constant
B. It increases
C. It decreases to zero
D. It oscillates

Solution

In a DC circuit, the current through a capacitor decreases to zero as it becomes fully charged.

Correct Answer: C — It decreases to zero

Q. If a capacitor is connected to an AC source, how does the current behave?

A. It is constant
B. It leads the voltage
C. It lags the voltage
D. It is zero

Solution

In an AC circuit, the current through a capacitor leads the voltage by 90 degrees.

Correct Answer: B — It leads the voltage

Q. If a capacitor is fully charged and then short-circuited, what happens to the stored energy?

A. It is released as heat
B. It is stored in the circuit
C. It remains in the capacitor
D. It is lost

Solution

When a charged capacitor is short-circuited, the stored energy is released as heat due to the current flow.

Correct Answer: A — It is released as heat

Q. If a capacitor is fully discharged and then connected to a voltage source, what is the initial current through the circuit?

A. Zero
B. Maximum
C. Depends on resistance
D. Infinite

Solution

When a capacitor is fully discharged and connected to a voltage source, the initial current is maximum as it starts charging.

Correct Answer: B — Maximum

Q. If a capacitor of capacitance 4μF is connected to a 12V battery, what is the charge on the capacitor?

A. 48μC
B. 12μC
C. 4μC
D. 24μC

Solution

Charge (Q) on a capacitor is given by Q = C * V. Here, Q = 4μF * 12V = 48μC.

Correct Answer: A — 48μC

Q. If a capacitor of capacitance C is charged to a voltage V, what is the energy stored in the capacitor?

A. 1/2 CV^2
B. CV
C. V^2 / C
D. C / V

Solution

The energy (U) stored in a capacitor is given by the formula U = 1/2 CV^2.

Correct Answer: A — 1/2 CV^2

Q. If a capacitor of capacitance C is connected to a voltage source V, what is the charge on the capacitor?

A. C/V
B. V/C
C. CV
D. V^2/C

Solution

The charge (Q) on a capacitor is given by Q = CV when connected to a voltage source V.

Correct Answer: C — CV

Q. If a capacitor with capacitance C is connected to a voltage V, what is the charge stored in the capacitor?

A. C/V
B. V/C
C. C * V
D. C + V

Solution

The charge (Q) stored in a capacitor is given by the formula Q = C * V.

Correct Answer: C — C * V

Q. If a capillary tube has a radius of 0.5 mm and the surface tension of the liquid is 0.072 N/m, what is the height of the liquid column in the tube? (Assume density = 1000 kg/m³)

A. 0.0144 m
B. 0.072 m
C. 0.0288 m
D. 0.036 m

Solution

Height = (2 × Surface Tension) / (Density × g × Radius) = (2 × 0.072 N/m) / (1000 kg/m³ × 9.81 m/s² × 0.0005 m) = 0.0144 m.

Correct Answer: A — 0.0144 m

Q. If a car accelerates from rest to 20 m/s in 5 seconds, what is its acceleration?

A. 2 m/s²
B. 4 m/s²
C. 5 m/s²
D. 10 m/s²

Solution

Acceleration a = (final velocity - initial velocity) / time = (20 m/s - 0) / 5 s = 4 m/s².

Correct Answer: B — 4 m/s²

Q. If a car engine has a power output of 150 kW, how much work can it do in 2 minutes?

A. 18000 J
B. 9000 J
C. 30000 J
D. 180000 J

Solution

Power is the rate of doing work. Work done can be calculated as W = P * t. Here, P = 150 kW = 150000 W and t = 2 minutes = 120 seconds. Thus, W = 150000 W * 120 s = 18000000 J.

Correct Answer: D — 180000 J

Q. If a car is moving on a flat road and suddenly turns, what type of friction is responsible for the car's ability to turn without skidding?

A. Static friction
B. Kinetic friction
C. Rolling friction
D. Fluid friction

Solution

Static friction is responsible for providing the necessary centripetal force to keep the car moving in a circular path without skidding.

Correct Answer: A — Static friction

Q. If a car moving with a speed of 30 m/s applies brakes and comes to a stop in 5 seconds, what is the acceleration?

A. -6 m/s²
B. -5 m/s²
C. -4 m/s²
D. -3 m/s²

Solution

Using the formula: acceleration = (final velocity - initial velocity) / time. Acceleration = (0 - 30) / 5 = -6 m/s².

Correct Answer: B — -5 m/s²

Q. If a car moving with a speed of 30 m/s comes to a stop in 5 seconds, what is its deceleration?

A. 2 m/s²
B. 3 m/s²
C. 4 m/s²
D. 5 m/s²

Solution

Deceleration = (final velocity - initial velocity) / time = (0 - 30) / 5 = -6 m/s².

Correct Answer: A — 2 m/s²

Q. If a car travels 100 kilometers in 2 hours, what is its speed in meters per second?

A. 10 m/s
B. 20 m/s
C. 30 m/s
D. 40 m/s

Solution

Speed = distance/time = (100000 m)/(7200 s) = 27.78 m/s, approximately 20 m/s.

Correct Answer: B — 20 m/s

Q. If a car travels 100 m in the first 5 seconds and 150 m in the next 5 seconds, what is its average speed over the 10 seconds?

A. 25 m/s
B. 30 m/s
C. 35 m/s
D. 40 m/s

Solution

Total distance = 100 m + 150 m = 250 m. Total time = 10 s. Average speed = total distance / total time = 250 m / 10 s = 25 m/s.

Correct Answer: B — 30 m/s

Q. If a car travels at a speed of 80 km/h and a bike travels at 60 km/h, how far apart will they be after 1 hour if they start from the same point and travel in the same direction?

A. 20 km
B. 30 km
C. 40 km
D. 50 km

Solution

Relative speed = 80 - 60 = 20 km/h. Distance apart after 1 hour = 20 km.

Correct Answer: A — 20 km

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