Magnetism Study Resources for Competitive Exams

Magnetism

Q. What is the direction of the magnetic field inside a bar magnet? (2023)

A. From south to north
B. From north to south
C. Circular
D. Random

Solution

The direction of the magnetic field inside a bar magnet is from the north pole to the south pole.

Correct Answer: B — From north to south

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Q. What is the effect of increasing the current in a coil on the magnetic field produced? (2022)

A. Increases the magnetic field
B. Decreases the magnetic field
C. No effect
D. Reverses the magnetic field

Solution

Increasing the current in a coil increases the magnetic field produced by the coil.

Correct Answer: A — Increases the magnetic field

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Q. What is the effect of increasing the current in a solenoid on its magnetic field strength? (2021)

A. Increases
B. Decreases
C. No effect
D. Reverses direction

Solution

Increasing the current in a solenoid increases its magnetic field strength, as the magnetic field is directly proportional to the current.

Correct Answer: A — Increases

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Q. What is the effect of increasing the number of turns in a coil on the magnetic field strength produced by it? (2022)

A. Increases the field strength
B. Decreases the field strength
C. No effect
D. Reverses the field direction

Solution

Increasing the number of turns in a coil increases the magnetic field strength produced by it, as the field strength is directly proportional to the number of turns.

Correct Answer: A — Increases the field strength

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Q. What is the effect of temperature on the magnetism of ferromagnetic materials? (2022)

A. Increases magnetism
B. Decreases magnetism
C. No effect
D. Reverses magnetism

Solution

Increasing temperature generally decreases the magnetism of ferromagnetic materials, as thermal agitation disrupts the alignment of magnetic domains.

Correct Answer: B — Decreases magnetism

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Q. What is the force experienced by a current-carrying conductor of length L in a magnetic field B at an angle θ? (2023)

A. F = BIL
B. F = BIL sin(θ)
C. F = BIL cos(θ)
D. F = BIL²

Solution

The force on a current-carrying conductor in a magnetic field is given by F = BIL sin(θ), where θ is the angle between the conductor and the magnetic field.

Correct Answer: B — F = BIL sin(θ)

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Q. What is the force on a 2 m long conductor carrying a current of 5 A in a magnetic field of 0.3 T at an angle of 30° to the field? (2021)

A. 0.75 N
B. 1.5 N
C. 2.5 N
D. 3.0 N

Solution

Using the formula F = BIL sin(θ), F = 0.3 * 2 * 5 * sin(30°) = 1.5 N.

Correct Answer: B — 1.5 N

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Q. What is the force on a charge moving in a magnetic field given by F = qvB sin(θ)? (2022)

A. It is always zero
B. It depends on the angle θ
C. It is constant
D. It is maximum when θ = 90°

Solution

The force on a charge moving in a magnetic field is maximum when the angle θ between the velocity vector and the magnetic field is 90°, as sin(90°) = 1.

Correct Answer: D — It is maximum when θ = 90°

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Q. What is the force on a charge moving in a magnetic field given by the equation F = qvB sin(θ)? (2020)

A. Charge times velocity
B. Charge times magnetic field
C. Charge times velocity times magnetic field times sine of angle
D. Charge times sine of angle

Solution

The force on a charge moving in a magnetic field is given by F = qvB sin(θ), where q is the charge, v is the velocity, B is the magnetic field strength, and θ is the angle between the velocity and the magnetic field.

Correct Answer: C — Charge times velocity times magnetic field times sine of angle

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Q. What is the magnetic field at a distance r from a long straight wire carrying current I? (2020)

A. μ₀I/(2πr)
B. μ₀I/(4πr)
C. μ₀I/(πr)
D. μ₀I/(8πr)

Solution

The magnetic field around a long straight wire is given by B = (μ₀I)/(2πr).

Correct Answer: A — μ₀I/(2πr)

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Q. What is the magnetic field at the center of a circular loop carrying current? (2022)

A. Zero
B. Directly proportional to current
C. Inversely proportional to radius
D. Both A and B

Solution

The magnetic field at the center of a circular loop carrying current is directly proportional to the current and inversely proportional to the radius.

Correct Answer: B — Directly proportional to current

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Q. What is the magnetic field due to a straight current-carrying conductor at a distance 'r' from it? (2020)

A. μ₀I/2πr
B. μ₀I/4πr²
C. μ₀I/2r
D. μ₀I/πr

Solution

The magnetic field due to a straight current-carrying conductor is given by B = μ₀I/2πr.

Correct Answer: A — μ₀I/2πr

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Q. What is the magnetic field inside a long solenoid when it carries a current? (2023)

A. Zero
B. Uniform and directed along the axis
C. Varies with distance
D. Depends on the temperature

Solution

The magnetic field inside a long solenoid is uniform and directed along the axis of the solenoid when it carries a current.

Correct Answer: B — Uniform and directed along the axis

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Q. What is the magnetic field inside a long solenoid when the current is flowing through it? (2023)

A. Zero
B. Uniform and parallel
C. Concentric circles
D. Radial

Solution

The magnetic field inside a long solenoid is uniform and parallel to the axis of the solenoid.

Correct Answer: B — Uniform and parallel

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Q. What is the magnetic field inside a long solenoid when the current is steady? (2023)

A. Zero
B. Uniform and parallel to the axis
C. Varies with distance
D. Depends on the temperature

Solution

The magnetic field inside a long solenoid is uniform and parallel to the axis of the solenoid when the current is steady.

Correct Answer: B — Uniform and parallel to the axis

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Q. What is the magnetic field inside a long solenoid? (2023)

A. Zero
B. Uniform and parallel
C. Concentric circles
D. Decreasing

Solution

The magnetic field inside a long solenoid is uniform and parallel to the axis of the solenoid.

Correct Answer: B — Uniform and parallel

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Q. Which law relates the magnetic field around a conductor to the current flowing through it? (2023)

A. Faraday's Law
B. Ampere's Law
C. Ohm's Law
D. Lenz's Law

Solution

Ampere's Law relates the magnetic field around a conductor to the current flowing through it.

Correct Answer: B — Ampere's Law

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Q. Which of the following materials is a ferromagnet? (2023)

A. Copper
B. Aluminum
C. Iron
D. Gold

Solution

Iron is a ferromagnetic material, which means it can be magnetized and retains its magnetic properties.

Correct Answer: C — Iron

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Q. Which of the following materials is a ferromagnetic material? (2020)

A. Copper
B. Aluminum
C. Iron
D. Gold

Solution

Iron is a ferromagnetic material, which means it can be magnetized and has a high magnetic permeability.

Correct Answer: C — Iron

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Q. Which of the following materials is considered ferromagnetic? (2022)

A. Copper
B. Aluminum
C. Iron
D. Gold

Solution

Iron is considered a ferromagnetic material, which can be magnetized and retains its magnetism.

Correct Answer: C — Iron

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Showing 31 to 50 of 50 (2 Pages)

Magnetism MCQ & Objective Questions

Magnetism is a crucial topic in physics that plays a significant role in various school and competitive exams. Understanding magnetism not only helps in grasping fundamental concepts but also enhances your problem-solving skills. Practicing MCQs and objective questions on magnetism is essential for effective exam preparation, as it allows you to identify important questions and reinforce your knowledge through practice questions.

What You Will Practise Here

Fundamental concepts of magnetism and magnetic fields
Types of magnets and their properties
Magnetic force and its applications
Electromagnetism and its significance
Key formulas related to magnetic fields and forces
Magnetic field lines and their representation
Real-life applications of magnetism in technology

Exam Relevance

Magnetism is a vital topic in various educational boards, including CBSE and State Boards, as well as competitive exams like NEET and JEE. Questions on magnetism often appear in multiple-choice format, testing students on definitions, concepts, and problem-solving abilities. Familiarity with common question patterns, such as those involving calculations of magnetic forces and field strengths, can significantly enhance your performance in these exams.

Common Mistakes Students Make

Confusing the direction of magnetic field lines and forces
Misunderstanding the distinction between permanent and temporary magnets
Overlooking the significance of the right-hand rule in electromagnetism
Neglecting to apply formulas correctly in numerical problems

FAQs

Question: What are the key properties of magnets?
Answer: Magnets have two poles (north and south), attract certain metals, and can create magnetic fields.

Question: How does electromagnetism differ from permanent magnetism?
Answer: Electromagnetism is generated by electric currents, while permanent magnetism is inherent to certain materials.

Now is the time to enhance your understanding of magnetism! Dive into our practice MCQs and test your knowledge to ensure you are well-prepared for your exams. Remember, consistent practice is the key to success!

Magnetism

Magnetism MCQ & Objective Questions

What You Will Practise Here

Exam Relevance

Common Mistakes Students Make

FAQs

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