No, it is not possible to create an all-negative magnet because magnets have two poles - north and south. The concept of an all-negative magnet conflicts with the fundamental properties that define magnets.
The charge on north pole is Positive (+ve) and south pole has a Negative (-ve) charge.
The poles on a spherical magnet are at the positive side and the negative side. Just like that of our earth which has both a north and south pole. The magnetic field is described as loops going from the north pole too the south pole, just as a normal bar magnet would behave. However a spherical electromagnet can be made such that the poles are constantly changing and never in one spot for too long. The answer to your question is impossible without more information or experimentation with the magnet. An easy way to test which is north and south is to hang the magnet on a string and then positively or negatively charge a nylon rod by rubbing a material on it(google which will make it negative or positivel) and hold it near all the sides. One side will be repulsed then that would be the sign of whatever the rod is charged with. I hope that this long winded answer helps.As a note north is positive and south is negative
their magnetic poles atract the opposite charge in order to optain the other charge. therefore they pull together to conect with a negative(-) and positive(+) because one end is filled with negative but needs positive and vise versa so when you put a + and + they don't need each other so the pushaway,same goes with negative poles
The left side of a magnet is not defined as negative; instead, magnets have two poles: the north pole and the south pole. The north pole is often associated with the direction a compass needle points, while the south pole is the opposite. The terms "positive" and "negative" are typically used in the context of electric charges, not magnetism. Thus, it's more accurate to refer to the sides of a magnet as north and south rather than negative or positive.
The north end of a magnet is not a negative charge; rather, it is simply labeled as the north pole based on convention. In reality, the north pole of a magnet is considered to have a north-seeking magnetic field, which means it is attracted to the Earth's geographic north pole.
Yes
Poles on a magnet attract or repel because of the way the electrons line up. The electrons in the valence shells tend to line up on one side of the nucleus. The electrons have a negative charge and the nucleus has a positive charge. The negative charges in one magnet repel the negative charges in another magnet but attract the positive charges in another magnet.
Positive and Negative
Negative and negative sides of a magnet do not touch. opposites attract. Negative and positives touch.
positive and negative
a magnet
Well there isn't any positive or negative on a magnet. But to find North and South, you can suspend a bar magnet on a string and see which way it points, or use a compass. Remember that the North Magnetic Pole defines what Magnetic North is, and on a compass or a bar magnet the SOUTH magnetic pole point at it.
The polarity of both ends of a magnet is different. The positive and negative polarity exist for a magnet.
You cannot make a magnet stick directly to aluminum because aluminum is not magnetic. However, you can make a magnet stick to aluminum by placing a magnetic material, such as iron, in between the magnet and the aluminum surface.
No, no matter what, magnets have poles. In other words, magnets will always have a positive and negative side. If you cut you magnet in half, those two new magnets will both have + and - sides. Do this infinity times until you have a magnet 1 atom thick. The atom will still have a positive and negative pole. Hope this helps.
Two similar ends of a magnet produce a repulsive force, which means that they will push away from each other. This force is the result of the alignment of the magnetic domains within the magnet creating a magnetic field that interacts between the like poles.
yes