![Vecteur Stock Magnetic field of an ideal cylindrical magnet, represented by magnetic field lines. The arrows are showing the direction of the field around the bar magnet at different points. Illustration over Vecteur Stock Magnetic field of an ideal cylindrical magnet, represented by magnetic field lines. The arrows are showing the direction of the field around the bar magnet at different points. Illustration over](https://as2.ftcdn.net/v2/jpg/01/19/07/05/1000_F_119070517_HfhU5wqB3lMvfELgUJsxzlj2T7NSIKAP.jpg)
Vecteur Stock Magnetic field of an ideal cylindrical magnet, represented by magnetic field lines. The arrows are showing the direction of the field around the bar magnet at different points. Illustration over
![The magnetic lines of force inside a bar magnet:(A) Are from north-pole to south-pole of the magnet(B) Do not exist(C) Depends upon the area of cross-section of the bar magnet(D) Are from The magnetic lines of force inside a bar magnet:(A) Are from north-pole to south-pole of the magnet(B) Do not exist(C) Depends upon the area of cross-section of the bar magnet(D) Are from](https://www.vedantu.com/question-sets/555410cd-4d0d-4b2e-9254-4c43f5fe2efd3667943946974670026.png)
The magnetic lines of force inside a bar magnet:(A) Are from north-pole to south-pole of the magnet(B) Do not exist(C) Depends upon the area of cross-section of the bar magnet(D) Are from
![6.06 practical: investigate the magnetic field pattern for a permanent bar magnet and between two bar magnets - TutorMyself Chemistry 6.06 practical: investigate the magnetic field pattern for a permanent bar magnet and between two bar magnets - TutorMyself Chemistry](https://www.tutormyself.com/wp-content/uploads/bar-magnets-300x243.png)