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 galvanometer in a Wheatstone bridge has a resistance of 5Ω and the bridge is balanced, what is the current through the galvanometer?

A. Zero.
B. 5A.
C. 1A.
D. 10A.

Solution

In a balanced Wheatstone bridge, the current through the galvanometer is zero.

Correct Answer: A — Zero.

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Q. If the galvanometer in a Wheatstone bridge shows a deflection, what does it indicate?

A. The bridge is balanced.
B. The bridge is unbalanced.
C. The resistances are equal.
D. The circuit is open.

Solution

A deflection in the galvanometer indicates that the bridge is unbalanced, meaning the ratios of resistances are not equal.

Correct Answer: B — The bridge is unbalanced.

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Q. If the galvanometer shows a deflection in a Wheatstone bridge, what can be inferred?

A. The bridge is balanced
B. The bridge is unbalanced
C. The resistances are equal
D. The circuit is open

Solution

A deflection in the galvanometer indicates that there is a potential difference across it, meaning the bridge is unbalanced.

Correct Answer: B — The bridge is unbalanced

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Q. If the galvanometer shows a deflection when the Wheatstone bridge is not balanced, what does it indicate?

A. The bridge is balanced
B. The resistances are equal
C. There is a potential difference
D. The circuit is open

Solution

A deflection in the galvanometer indicates that there is a potential difference across it, meaning the bridge is not balanced.

Correct Answer: C — There is a potential difference

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point, assuming it is at a distance of 2 meters from the mass creating the field?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 N/kg * 2 m = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point, assuming it is 2 meters from the mass creating the field?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 N/kg * 2 m = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming the reference point is at infinity?

A. -10 J/kg
B. 10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

The gravitational potential V is related to the gravitational field strength g by V = -g * r. If we consider r to be 1 meter, V = -10 * 1 = -10 J/kg.

Correct Answer: A — -10 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming it is 2 meters from the mass?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 * 2 = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point, assuming it is 2 meters above the reference point?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * h = -10 N/kg * 2 m = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming it is at infinity?

A. 0 J/kg
B. -10 J/kg
C. 10 J/kg
D. -5 J/kg

Solution

The gravitational potential is negative and is given by V = -g * r. At infinity, V approaches 0, so at a field strength of 10 N/kg, V = -10 J/kg.

Correct Answer: B — -10 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming it is zero at infinity?

A. -10 J/kg
B. -5 J/kg
C. 0 J/kg
D. 10 J/kg

Solution

The gravitational potential V is related to the gravitational field strength g by V = -g * r. If we consider r to be 1 meter, V = -10 * 1 = -10 J/kg.

Correct Answer: A — -10 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point assuming it is at a distance of 2 m from the mass?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 * 2 = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational field strength at a point is 10 N/kg, what is the gravitational potential at that point, assuming it is at a distance of 2 m from the mass creating the field?

A. -20 J/kg
B. -10 J/kg
C. 0 J/kg
D. -5 J/kg

Solution

Gravitational potential V = -g * r = -10 N/kg * 2 m = -20 J/kg.

Correct Answer: A — -20 J/kg

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Q. If the gravitational potential at a point is -15 J/kg and the gravitational field strength is constant at 3 N/kg, what is the distance from the mass?

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

Solution

Using V = -g * r, we have -15 = -3 * r, thus r = 15/3 = 5 m.

Correct Answer: B — 10 m

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Q. If the gravitational potential at a point is -20 J/kg and the gravitational field strength is 4 N/kg, what is the distance from the mass?

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

Solution

Using V = -g * r, we have -20 = -4 * r, thus r = 20/4 = 5 m.

Correct Answer: B — 10 m

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Q. If the gravitational potential at a point is -30 J/kg and the gravitational field strength is 5 N/kg, what is the distance from the mass?

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

Solution

Using V = -g * r, we have -30 = -5 * r, thus r = 30/5 = 6 m.

Correct Answer: B — 3 m

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Q. If the gravitational potential at a point is -30 J/kg, what is the gravitational field strength at that point?

A. 3 N/kg
B. 30 N/kg
C. 0 N/kg
D. Cannot be determined

Solution

The gravitational field strength can be found using the relation E = -dV/dr. If V = -30 J/kg, E = 3 N/kg.

Correct Answer: A — 3 N/kg

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Q. If the image distance is equal to the object distance for a lens, what is the magnification?

A. 0
B. 1
C. 2
D. Infinity

Solution

Magnification (m) = v/u = 1 when image distance equals object distance.

Correct Answer: B — 1

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Q. If the image distance of a convex lens is 40 cm and the object distance is 30 cm, what is the focal length of the lens?

A. 10 cm
B. 20 cm
C. 30 cm
D. 15 cm

Solution

Using the lens formula 1/f = 1/v - 1/u, we have 1/f = 1/40 - 1/(-30) = 1/40 + 1/30. Solving gives f = 20 cm.

Correct Answer: B — 20 cm

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Q. If the inductance of a coil is 2 H and the frequency is 50 Hz, what is the inductive reactance?

A. 100 π
B. 100
C. 314
D. 628

Solution

Inductive reactance X_L = 2πfL = 2π(50)(2) = 628 Ω.

Correct Answer: C — 314

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Q. If the intensity of light at a point of constructive interference is I, what is the intensity at a point of destructive interference?

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

Solution

At destructive interference, the intensity is zero because the waves cancel each other out.

Correct Answer: B — 0

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Q. If the intensity of light is doubled while keeping the frequency constant, what happens to the number of emitted electrons in the photoelectric effect?

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

Solution

Doubling the intensity of light increases the number of photons incident on the surface, which in turn increases the number of emitted electrons, assuming the frequency is above the threshold frequency.

Correct Answer: A — It doubles

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Q. If the intensity of light is doubled while keeping the frequency constant, what happens to the number of emitted electrons?

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

Solution

Doubling the intensity of light increases the number of photons incident on the surface, which in turn increases the number of emitted electrons, assuming the frequency is above the threshold frequency.

Correct Answer: A — It doubles

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Q. If the intensity of light is doubled, what happens to the number of photoelectrons emitted?

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

Solution

Doubling the intensity of light doubles the number of photons, thus doubling the number of photoelectrons emitted.

Correct Answer: A — Doubles

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Q. If the internal resistance of a cell is negligible, how does it affect the accuracy of a potentiometer measurement?

A. It increases accuracy
B. It decreases accuracy
C. It has no effect
D. It makes the measurement impossible

Solution

If the internal resistance of a cell is negligible, it increases the accuracy of the potentiometer measurement as it does not affect the voltage being measured.

Correct Answer: A — It increases accuracy

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Q. If the known voltage in a potentiometer is 12 V and the length of the wire is 6 m, what is the potential gradient?

A. 2 V/m
B. 3 V/m
C. 4 V/m
D. 6 V/m

Solution

The potential gradient is calculated as V/L = 12 V / 6 m = 2 V/m.

Correct Answer: A — 2 V/m

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Q. If the length of a side of a cube is doubled, how does its volume change?

A. Increases by 2 times
B. Increases by 4 times
C. Increases by 8 times
D. Remains the same

Solution

The volume of a cube is given by V = a³. If the side length a is doubled, the new volume is (2a)³ = 8a³, which is 8 times the original volume.

Correct Answer: C — Increases by 8 times

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Q. If the length of a side of a cube is doubled, how does the volume change?

A. Increases by 2 times
B. Increases by 4 times
C. Increases by 8 times
D. Remains the same

Solution

Volume of a cube is given by V = a³. If a is doubled, V becomes (2a)³ = 8a³, hence volume increases by 8 times.

Correct Answer: C — Increases by 8 times

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Q. If the length of a side of a cube is measured as 2.0 ± 0.1 m, what is the maximum possible error in the volume of the cube?

A. 0.8 m³
B. 0.4 m³
C. 0.2 m³
D. 0.1 m³

Solution

Volume V = L³. The maximum error in volume can be calculated using the formula: ΔV = 3L²ΔL. Here, ΔL = 0.1 m, L = 2.0 m, so ΔV = 3(2.0)²(0.1) = 1.2 m³.

Correct Answer: B — 0.4 m³

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Q. If the length of a side of a cube is measured as 2.5 cm with an uncertainty of 0.1 cm, what is the volume of the cube with its uncertainty?

A. 15.625 ± 0.25 cm³
B. 15.625 ± 0.5 cm³
C. 12.5 ± 0.1 cm³
D. 10.0 ± 0.2 cm³

Solution

Volume = (2.5 cm)³ = 15.625 cm³. The uncertainty in volume can be calculated using the formula for propagation of uncertainty.

Correct Answer: A — 15.625 ± 0.25 cm³

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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

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