to maintain a uniform magndtic field at any point between the curved magnets
One key difference between a bar magnet and a horseshoe magnet is their shape. Bar magnets are long and rectangular, while horseshoe magnets are U-shaped. Another difference is their magnetic field strength, with horseshoe magnets typically having a stronger magnetic field at the poles compared to bar magnets.
It's called Coriolis force.
Yes a central magnet rotating with an array of magnetic material surrounding it spun at the relative speed so as not to defeat the magnetic field would create a centrifugal arrangement if that is the query.
Magnetic field lines are usually depicted as curved lines extending away from the source. They are neither parallel or perpendicular (though they appear more parallel than perpendicular).
Well, if you had a shadow cast on earth, it would appear curved because the of the Earth's surface is curved
The curved turnaround that magnets resemble is called a "horseshoe magnet." This term is derived from the shape of the magnet, which resembles a horseshoe.
Magnetic field lines are curved because they follow the direction of the magnetic force generated by magnets or moving charges. The curved nature of magnetic field lines is a visual representation of the force exerted by magnetic fields on charged particles, which causes them to move in a curved path around the magnetic field lines.
One key difference between a bar magnet and a horseshoe magnet is their shape. Bar magnets are long and rectangular, while horseshoe magnets are U-shaped. Another difference is their magnetic field strength, with horseshoe magnets typically having a stronger magnetic field at the poles compared to bar magnets.
It's called Coriolis force.
Yes a central magnet rotating with an array of magnetic material surrounding it spun at the relative speed so as not to defeat the magnetic field would create a centrifugal arrangement if that is the query.
a curved seam is a seam that is curved
Yes the law only effects swords with a curved blade OVER 50 cm
The orbit is a stable curved path taken up by a planet or other object around a more massive object.
A curved line is a line that is curved.
Basically, we don't know if spacetime is overall flat, or overall curved, nor if it's curved HOW it's curved.
A mirror that is curved outward is convex. A mirror that is curved inward is concave.
Curved.