The region where magnetic force can be felt is called a **magnetic field**. This field surrounds magnetic materials and electric currents and exerts a force on other nearby magnets, magnetic materials, and moving electric charges. The strength and direction of the magnetic field can vary, but it extends outward from the source of the magnetic force.
The region around a magnet where a force can be felt is known as the magnetic field. It extends outward from the magnet in all directions and is strongest close to the magnet's poles. Objects within the magnetic field will experience a force if they are magnetic or if they have moving electric charges.
The area around a magnet where its magnetic force is felt is called the magnetic field.
The area surrounding a magnet where its force can be felt is called the magnetic field. This field extends outward from the magnet, allowing objects within its range to be influenced by its magnetic force.
Magnetism is a force that causes magnetic objects to move toward a magnetic force. The force is felt strongest on magnets which experience what is known as ferromagnetism, the strongest type of magnetism. When it is liquefied and cooled, oxygen can exhibit properties of magnetism. There are also non-magnetic substances that are not affected by a magnetic field or magnetism, these include plastics, gases, copper and aluminum,.
They are areas where a magnetic force or pull is felt by an object or body which enters the area.
The region around a magnet where a force can be felt is known as the magnetic field. It extends outward from the magnet in all directions and is strongest close to the magnet's poles. Objects within the magnetic field will experience a force if they are magnetic or if they have moving electric charges.
The magnetic force of a magnet is often referred to as magnetic field. It is the area around a magnet where its magnetic influence is felt, exerting force on other magnetic materials.
The area around a magnet where its magnetic force is felt is called the magnetic field.
magnetic field. This is the area around a magnet where its magnetic influence or force can be detected or felt.
The area surrounding a magnet where its force can be felt is called the magnetic field. This field extends outward from the magnet, allowing objects within its range to be influenced by its magnetic force.
The space around a magnet where its magnetic influence can be felt is called the magnetic field. It is the region in which magnetic forces are experienced due to the presence of the magnet.
A magnet creates a magnetic field, often mistakenly referred to as a magnetic force. The actual force felt by a charged particle in a magnetic field (or electric field) is called the Lorentz force.
A magnetic field is a region around a magnetic material or a moving electric charge where magnetic forces are experienced. It exerts a force on other magnets or magnetic materials within its vicinity, influencing their movement and orientation. Magnetic fields play a crucial role in numerous natural and artificial phenomena, including the operation of electric motors and the localization of magnetic materials like iron.
Magnetism is a force that causes magnetic objects to move toward a magnetic force. The force is felt strongest on magnets which experience what is known as ferromagnetism, the strongest type of magnetism. When it is liquefied and cooled, oxygen can exhibit properties of magnetism. There are also non-magnetic substances that are not affected by a magnetic field or magnetism, these include plastics, gases, copper and aluminum,.
Because it wouldn't make sense. Two intersecting lines of force - in this case, magnetic lines of force - would mean that at the point of the intersection, the force felt by a small test magnet would be in two different directions.
radial
The space around a magnet where its magnetic effect can be felt is known as the magnetic field. It is a region where magnetic forces act on other magnetic materials or moving charges. The strength of the magnetic field decreases with distance from the magnet.