The magnetic lines of force on a bar magnets are:
(A) Curved lines
(B) Curved closed loops
(C) Concentric circles
(D) Parallel and straight
Answer
Verified148.2k+ views
Hint If you place some iron filings around a bar magnet, they will form a certain pattern. This indicates that the magnetic lines of force are starting from the north pole of the magnet to the South Pole. When these lines of force reach the South Pole, they form a closed loop and this loop is curved.
Complete step-by-step solution
If you throw some iron filings around a bar magnet you will notice that they form a certain pattern, this pattern looks like lines coming from the north pole of the magnet running towards the south pole. So, the lines of force are curved lines, but once it reaches the south pole, they close the loop. Hence, they are curved closed loops.
Therefore, the correct answer is option B.
Note: Magnetic monopoles cannot exist, each piece of a magnet must have a north or south pole. So magnetic field lines will always form closed loops no matter what.
Complete step-by-step solution
If you throw some iron filings around a bar magnet you will notice that they form a certain pattern, this pattern looks like lines coming from the north pole of the magnet running towards the south pole. So, the lines of force are curved lines, but once it reaches the south pole, they close the loop. Hence, they are curved closed loops.
Therefore, the correct answer is option B.
Note: Magnetic monopoles cannot exist, each piece of a magnet must have a north or south pole. So magnetic field lines will always form closed loops no matter what.
Recently Updated Pages
Uniform Acceleration - Definition, Equation, Examples, and FAQs
Difference Between Mass and Weight
Young's Double Slit Experiment Step by Step Derivation
Wheatstone Bridge - Working Principle, Formula, Derivation, Application
JEE Main 2023 (January 29th Shift 1) Physics Question Paper with Answer Key
JEE Main 2021 July 20 Shift 2 Question Paper with Answer Key
Trending doubts
JEE Main 2025 Session 2: Application Form (Out), Exam Dates (Released), Eligibility, & More
JEE Main Exam Marking Scheme: Detailed Breakdown of Marks and Negative Marking
JEE Main 2025: Derivation of Equation of Trajectory in Physics
Electric Field Due to Uniformly Charged Ring for JEE Main 2025 - Formula and Derivation
JEE Main Participating Colleges 2024 - A Complete List of Top Colleges
Degree of Dissociation and Its Formula With Solved Example for JEE
Other Pages
JEE Advanced Marks vs Ranks 2025: Understanding Category-wise Qualifying Marks and Previous Year Cut-offs
JEE Advanced 2025: Dates, Registration, Syllabus, Eligibility Criteria and More
JEE Advanced Weightage 2025 Chapter-Wise for Physics, Maths and Chemistry
Electric field due to uniformly charged sphere class 12 physics JEE_Main
Learn About Angle Of Deviation In Prism: JEE Main Physics 2025
Electrical Field of Charged Spherical Shell - JEE