Physics Syllabus (JEE Main)

Current Electricity Electrostatics Gravitation Kinematics Kinetic Theory of Gases Laws of Motion Magnetism & EMI Modern Physics Optics Oscillations & Waves Properties of Matter Rotational Motion Thermodynamics Units & Measurement Work, Energy & Power

Q. If the distance from the center of the Earth is doubled, how does the gravitational potential change?

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

Solution

The gravitational potential is inversely proportional to the distance, so if the distance is doubled, the potential halves.

Correct Answer: B — It halves.

Learn More →

Q. If the distance from the center of the Earth is doubled, how does the gravitational field strength change?

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

Solution

The gravitational field strength varies inversely with the square of the distance, so if the distance is doubled, the field strength becomes 1/4.

Correct Answer: B — It halves.

Learn More →

Q. If the distance from the center of the Earth is doubled, what happens to the gravitational field strength?

A. It doubles.
B. It halves.
C. It becomes one-fourth.
D. It becomes zero.

Solution

The gravitational field strength varies inversely with the square of the distance from the center of the Earth, so if the distance is doubled, the field strength becomes one-fourth.

Correct Answer: C — It becomes one-fourth.

Learn More →

Q. If the Earth were to suddenly shrink in size but maintain its mass, what would happen to the gravitational force at its surface?

A. It would increase
B. It would decrease
C. It would remain the same
D. It would become zero

Solution

If the Earth shrinks in size while maintaining its mass, the gravitational force at the surface would increase due to the decrease in radius.

Correct Answer: A — It would increase

Learn More →

Q. If the Earth were to suddenly shrink to half its radius while keeping its mass constant, what would happen to the gravitational force at its surface?

A. It would remain the same
B. It would double
C. It would become half
D. It would become four times stronger

Solution

If the radius is halved, the gravitational force increases by a factor of 4, since F = GM/R^2.

Correct Answer: D — It would become four times stronger

Learn More →

Q. If the Earth were to suddenly shrink to half its radius while keeping its mass constant, what would happen to the gravitational acceleration at its surface?

A. It would double
B. It would remain the same
C. It would halve
D. It would quadruple

Solution

If the radius is halved, the gravitational acceleration would increase by a factor of 4 (g ∝ 1/R²).

Correct Answer: A — It would double

Learn More →

Q. If the Earth were to suddenly shrink to half its radius while maintaining its mass, what would happen to the gravitational force at its surface?

A. It would double
B. It would remain the same
C. It would become half
D. It would become four times stronger

Solution

The gravitational force at the surface is inversely proportional to the square of the radius. If the radius is halved, the force becomes four times stronger.

Correct Answer: D — It would become four times stronger

Learn More →

Q. If the electric field at a point is 100 N/C and the charge at that point is +5μC, what is the force experienced by the charge?

A. 0.5 N
B. 0.2 N
C. 0.1 N
D. 0.4 N

Solution

Force F = E * q = 100 N/C * 5 × 10^-6 C = 0.0005 N = 0.5 N.

Correct Answer: A — 0.5 N

Learn More →

Q. If the electric field at a point is 200 N/C and the charge at that point is +5μC, what is the force experienced by the charge?

A. 0.1 N
B. 1 N
C. 0.5 N
D. 2 N

Solution

F = E * q = 200 N/C * 5 × 10^-6 C = 1 N.

Correct Answer: B — 1 N

Learn More →

Q. If the electric field at a point is 200 N/C directed towards the charge, what is the nature of the charge?

A. Positive
B. Negative
C. Neutral
D. Cannot be determined

Solution

The electric field is directed towards the charge, indicating that the charge is negative.

Correct Answer: B — Negative

Learn More →

Q. If the electric field at a point is 200 N/C directed towards the positive x-axis, what is the potential difference between two points A and B separated by 3m along the x-axis?

A. 600 V
B. 400 V
C. 200 V
D. 0 V

Solution

V = -E * d = -200 N/C * 3m = -600 V. The potential at B is 600 V lower than at A.

Correct Answer: B — 400 V

Learn More →

Q. If the electric field at a point is zero, what can be said about the charges producing it?

A. There are no charges nearby
B. The charges are equal and opposite
C. The charges are all positive
D. The charges are all negative

Solution

The electric field is zero when the vector sum of the electric fields due to all charges is zero, which occurs when there are equal and opposite charges.

Correct Answer: B — The charges are equal and opposite

Learn More →

Q. If the electric field due to a charged infinite plane sheet is E, what is the electric field at a point on either side of the sheet?

A. E
B. 2E
C. E/2
D. Zero

Solution

The electric field due to an infinite plane sheet is constant and equal to E on both sides, thus the total field is 2E.

Correct Answer: B — 2E

Learn More →

Q. If the electric field due to a charged infinite plane sheet is E, what is the electric field at a point above the sheet?

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

Solution

The electric field due to an infinite plane sheet is constant and equal to E, regardless of the distance from the sheet.

Correct Answer: B — E

Learn More →

Q. If the electric field due to a charged plane sheet is E, what is the electric field due to two parallel sheets with equal and opposite charge densities?

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

Solution

The fields due to the two sheets add up in the region between them, resulting in a total electric field of 2E.

Correct Answer: C — 2E

Learn More →

Q. If the electric field due to a point charge is 1000 N/C at a distance of 1m, what is the charge?

A. 1μC
B. 2μC
C. 3μC
D. 4μC

Solution

Using E = k * |q| / r^2, we find q = E * r^2 / k = 1000 * 1^2 / (9 × 10^9) = 1μC.

Correct Answer: A — 1μC

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

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

Learn More →

Showing 1951 to 1980 of 5000 (167 Pages)

Physics Syllabus (JEE Main) MCQ & Objective Questions

The Physics Syllabus for JEE Main is crucial for students aiming to excel in their exams. Understanding this syllabus not only helps in grasping fundamental concepts but also enhances problem-solving skills through practice. Engaging with MCQs and objective questions is essential for effective exam preparation, as it allows students to identify important questions and strengthen their knowledge base.

What You Will Practise Here

Mechanics: Laws of Motion, Work, Energy, and Power
Thermodynamics: Laws of Thermodynamics, Heat Transfer
Waves and Oscillations: Simple Harmonic Motion, Wave Properties
Electromagnetism: Electric Fields, Magnetic Fields, and Circuits
Optics: Reflection, Refraction, and Optical Instruments
Modern Physics: Quantum Theory, Atomic Models, and Nuclear Physics
Fluid Mechanics: Properties of Fluids, Bernoulli's Principle

Exam Relevance

The Physics Syllabus (JEE Main) is integral to various examinations, including CBSE, State Boards, and competitive exams like NEET and JEE. Questions often focus on conceptual understanding and application of theories. Common patterns include numerical problems, conceptual MCQs, and assertion-reason type questions, which test both knowledge and analytical skills.

Common Mistakes Students Make

Misinterpreting the question stem, leading to incorrect answers.
Neglecting units and dimensions in calculations.
Overlooking the significance of diagrams in understanding concepts.
Confusing similar concepts, such as velocity and acceleration.
Failing to apply formulas correctly in different contexts.

FAQs

Question: What are the key topics in the Physics Syllabus for JEE Main?
Answer: Key topics include Mechanics, Thermodynamics, Waves, Electromagnetism, Optics, Modern Physics, and Fluid Mechanics.

Question: How can I improve my performance in Physics MCQs?
Answer: Regular practice of MCQs, understanding concepts deeply, and revising important formulas can significantly enhance your performance.

Start solving practice MCQs today to test your understanding of the Physics Syllabus (JEE Main). This will not only boost your confidence but also prepare you effectively for your upcoming exams. Remember, consistent practice is the key to success!

Physics Syllabus (JEE Main)

Physics Syllabus (JEE Main) MCQ & Objective Questions

What You Will Practise Here

Exam Relevance

Common Mistakes Students Make

FAQs

On a scale of 0–10, how likely are you to recommend The Soulshift Academy?