Engineering Entrance Exam Preparation Resources

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Engineering Entrance MCQ & Objective Questions

Preparing for Engineering Entrance exams is crucial for aspiring engineers in India. Mastering MCQs and objective questions not only enhances your understanding of key concepts but also boosts your confidence during exams. Regular practice with these questions helps identify important topics and improves your overall exam preparation.

What You Will Practise Here

Fundamental concepts of Physics and Mathematics
Key formulas and their applications in problem-solving
Important definitions and theorems relevant to engineering
Diagrams and graphical representations for better understanding
Conceptual questions that challenge your critical thinking
Previous years' question papers and their analysis
Time management strategies while solving MCQs

Exam Relevance

The Engineering Entrance syllabus is integral to various examinations like CBSE, State Boards, NEET, and JEE. Questions often focus on core subjects such as Physics, Chemistry, and Mathematics, with formats varying from direct MCQs to application-based problems. Understanding the common question patterns can significantly enhance your performance and help you tackle the exams with ease.

Common Mistakes Students Make

Overlooking the importance of units and dimensions in calculations
Misinterpreting questions due to lack of careful reading
Neglecting to review basic concepts before attempting advanced problems
Rushing through practice questions without thorough understanding

FAQs

Question: What are the best ways to prepare for Engineering Entrance MCQs?
Answer: Focus on understanding concepts, practice regularly with objective questions, and review previous years' papers.

Question: How can I improve my speed in solving MCQs?
Answer: Regular practice, time-bound mock tests, and familiarizing yourself with common question types can help improve your speed.

Start your journey towards success by solving Engineering Entrance MCQ questions today! Test your understanding and build a strong foundation for your exams.

MHT-CET

Q. A changing magnetic field induces an electric field. This phenomenon is described by which of the following laws?

A. Faraday's law of induction
B. Ampere's law
C. Gauss's law
D. Ohm's law

Solution

The phenomenon of a changing magnetic field inducing an electric field is described by Faraday's law of induction.

Correct Answer: A — Faraday's law of induction

Q. A charge of +4 µC is placed in a uniform electric field of strength 500 N/C. What is the work done in moving the charge 0.2 m in the direction of the field?

A. 400 J
B. 200 J
C. 100 J
D. 50 J

Solution

W = F * d = (E * q) * d = (500 N/C * 4 × 10^-6 C) * 0.2 m = 0.4 J.

Correct Answer: B — 200 J

Q. A charged particle moves in a magnetic field. What is the path of the particle if it enters the field perpendicular to the lines of force? (2019)

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

Solution

A charged particle moving perpendicular to the magnetic field will follow a circular path due to the magnetic force acting as a centripetal force.

Correct Answer: B — Circular path

Q. A charged particle moves in a magnetic field. What is the path of the particle if it enters the field perpendicularly? (2023)

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

Solution

A charged particle moving perpendicularly to a magnetic field experiences a magnetic force that acts as a centripetal force, causing it to move in a circular path.

Correct Answer: B — Circular path

Q. A charged particle moves in a magnetic field. What is the path of the particle? (2019)

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

Solution

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

Correct Answer: B — Circular

Q. A charged particle moves perpendicular to a uniform magnetic field. What is the path of the particle? (2021)

A. Straight line
B. Circle
C. Ellipse
D. Parabola

Solution

A charged particle moving perpendicular to a uniform magnetic field will move in a circular path due to the magnetic force acting as a centripetal force.

Correct Answer: B — Circle

Q. A chord of a circle is 10 cm long and is 6 cm away from the center. What is the radius of the circle? (2023)

A. 8 cm
B. 10 cm
C. 12 cm
D. 14 cm

Solution

Using Pythagoras theorem: r² = (10/2)² + 6²; r² = 25 + 36 = 61; r = √61 ≈ 10 cm.

Correct Answer: B — 10 cm

Q. A chord of a circle is 12 cm long and is 5 cm away from the center. What is the radius of the circle? (2020)

A. 10 cm
B. 13 cm
C. 15 cm
D. 12 cm

Solution

Using Pythagoras theorem: r² = (5)² + (6)² = 25 + 36 = 61; r = √61 ≈ 7.81 cm.

Correct Answer: B — 13 cm

Q. A circle has a diameter of 10 cm. What is its circumference? (2022)

A. 31.4 cm
B. 20 cm
C. 15.7 cm
D. 25 cm

Solution

Circumference = πd = π * 10 = 31.4 cm.

Correct Answer: A — 31.4 cm

Q. A circle has a diameter of 20 cm. What is its circumference? (2022)

A. 62.8 cm
B. 40 cm
C. 31.4 cm
D. 20 cm

Solution

Circumference = πd = π * 20 = 62.8 cm.

Correct Answer: A — 62.8 cm

Q. A circle has a radius of 10 cm. What is the diameter? (2020)

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

Solution

Diameter = 2 * radius = 2 * 10 cm = 20 cm.

Correct Answer: D — 20 cm

Q. A circle has a radius of 12 cm. What is the diameter? (2020)

A. 6 cm
B. 12 cm
C. 24 cm
D. 18 cm

Solution

Diameter = 2 * radius = 2 * 12 = 24 cm.

Correct Answer: C — 24 cm

Q. A circle has a radius of 3 cm. What is the diameter in millimeters? (2023)

A. 30 mm
B. 60 mm
C. 90 mm
D. 120 mm

Solution

Diameter = 2 * radius = 2 * 3 cm = 6 cm = 60 mm.

Correct Answer: A — 30 mm

Q. A circle has a radius of 3 m. What is the diameter? (2022)

A. 3 m
B. 6 m
C. 9 m
D. 12 m

Solution

Diameter = 2 * radius = 2 * 3 m = 6 m.

Correct Answer: B — 6 m

Q. A circle has a radius of 5 cm. What is the length of an arc that subtends a central angle of 60 degrees? (2021)

A. 5.24 cm
B. 10.47 cm
C. 3.14 cm
D. 6.28 cm

Solution

Arc length = (θ/360) * 2πr; = (60/360) * 2π * 5 = 10.47 cm.

Correct Answer: B — 10.47 cm

Q. A circle has a radius of 5 cm. What is the length of an arc that subtends an angle of 60 degrees at the center? (2020)

A. 5.24 cm
B. 3.14 cm
C. 5.00 cm
D. 10.47 cm

Solution

Arc length = (θ/360) * 2πr = (60/360) * 2 * π * 5 = 5.24 cm.

Correct Answer: A — 5.24 cm

Q. A circle has a radius of 5 cm. What is the length of an arc that subtends an angle of 60 degrees? (2023)

A. 5.24 cm
B. 3.14 cm
C. 5.00 cm
D. 10.47 cm

Solution

Arc length = (θ/360) × 2πr; = (60/360) × 2π × 5 ≈ 5.24 cm.

Correct Answer: A — 5.24 cm

Q. A circle has an area of 154 cm². What is the radius? (2019)

A. 7 cm
B. 14 cm
C. 21 cm
D. 28 cm

Solution

Area = πr². Therefore, r = √(Area/π) = √(154/3.14) ≈ 7 cm.

Correct Answer: B — 14 cm

Q. A circle has an area of 154 cm². What is the radius? (2019) 2019

A. 7 cm
B. 14 cm
C. 21 cm
D. 28 cm

Solution

Area = πr². Therefore, r = √(Area/π) = √(154/3.14) ≈ 7 cm.

Correct Answer: B — 14 cm

Q. A circle has an area of 78.5 cm². What is its radius? (Use π = 3.14) (2019)

A. 5 cm
B. 7 cm
C. 10 cm
D. 12 cm

Solution

Area = πr². Therefore, r² = Area / π = 78.5 cm² / 3.14 = 25. r = √25 = 5 cm.

Correct Answer: B — 7 cm

Q. A circle has an area of 78.5 cm². What is the radius? (Use π = 3.14) (2022)

A. 5 cm
B. 7 cm
C. 10 cm
D. 12 cm

Solution

Area = πr². Therefore, r² = Area / π = 78.5 cm² / 3.14 = 25. r = √25 = 5 cm.

Correct Answer: B — 7 cm

Q. A circle is inscribed in a square of side 10 cm. What is the area of the circle? (Use π = 3.14) (2020)

A. 78.5 cm²
B. 50 cm²
C. 100 cm²
D. 25 cm²

Solution

Radius of the circle = side/2 = 10 cm / 2 = 5 cm. Area = πr² = 3.14 * 5² = 78.5 cm².

Correct Answer: A — 78.5 cm²

Q. A circle is inscribed in a square of side 10 cm. What is the area of the circle? (2019)

A. 78.5 cm²
B. 100 cm²
C. 50 cm²
D. 25 cm²

Solution

Radius = 10/2 = 5 cm; Area = πr² = π * 5² = 78.5 cm².

Correct Answer: A — 78.5 cm²

Q. A circle is inscribed in a square of side 8 cm. What is the area of the circle? (2022)

A. 50.24 cm²
B. 64 cm²
C. 25.12 cm²
D. 32 cm²

Solution

Radius = 8/2 = 4 cm; Area = πr² = π * 4² = 50.24 cm².

Correct Answer: A — 50.24 cm²

Q. A circuit consists of a 9V battery and two resistors of 3Ω and 6Ω in series. What is the current flowing through the circuit? (2021)

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

Solution

Total resistance R = 3Ω + 6Ω = 9Ω. Current I = V/R = 9V / 9Ω = 1A.

Correct Answer: B — 2A

Q. A circuit has a 15V battery and a 5Ω resistor. What is the voltage drop across the resistor? (2021)

A. 3V
B. 5V
C. 15V
D. 10V

Solution

The voltage drop across the resistor is equal to the battery voltage, which is 15V.

Correct Answer: C — 15V

Q. A circuit has a 24V battery and a total resistance of 12Ω. What is the current flowing through the circuit? (2020)

A. 2A
B. 4A
C. 6A
D. 8A

Solution

Using Ohm's law, I = V/R = 24V / 12Ω = 2A.

Correct Answer: B — 4A

Q. A circuit has a 24V battery and a total resistance of 6Ω. What is the current flowing through the circuit? (2020)

A. 4A
B. 6A
C. 8A
D. 2A

Solution

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

Correct Answer: A — 4A

Q. A circuit has a 5Ω resistor and a 10Ω resistor in parallel. What is the total current if the voltage across them is 20V? (2021)

A. 2A
B. 4A
C. 6A
D. 8A

Solution

First, find the equivalent resistance: 1/R_eq = 1/5 + 1/10 = 3/10, so R_eq = 10/3Ω. Then, I = V/R_eq = 20V / (10/3)Ω = 6A.

Correct Answer: D — 8A

Q. A circuit has a 9V battery and two resistors of 3Ω and 6Ω in series. What is the current flowing through the circuit? (2022)

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

Solution

Total resistance R = 3Ω + 6Ω = 9Ω. Current I = V/R = 9V / 9Ω = 1A.

Correct Answer: B — 2A

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