When a magnetic field interacts with a magnetic object, it can exert a force on the object, causing it to move. This occurs because the magnetic field induces a magnetic force on the object based on the orientation and strength of the magnets involved. The object will move in response to this force, either attracting or repelling depending on the alignment of the magnetic poles.
Induced magnetism refers to the temporary magnetism that a material can acquire in the presence of a magnetic field. When a material is placed in a magnetic field, its atomic or molecular magnetic moments align with the external field, creating a temporary magnetization. This effect disappears when the external magnetic field is removed.
Magnetism is a physical property that describes the attraction or repulsion between certain materials such as iron and steel. It is caused by the alignment of magnetic dipoles in the material, creating a magnetic field around the object.
Washing clothes does not create magnetism. However, if you accidentally leave a magnetic object (such as a magnetic button or steel zipper) in your clothes and wash them together, the magnetism of the object may interact with other items in the wash causing them to stick together.
When an object is grounded, it means that it is connected to the Earth through a conductor, such as copper wire, to allow charges to move freely between the object and the Earth. This helps to prevent the buildup of excess charge on the object and protects against electrical shock or damage from static electricity.
An example of induced magnetism is when a non-magnetic material, like iron, becomes temporarily magnetized when placed near a magnetic field, such as a bar magnet. The alignment of the atomic dipoles in the material causes it to exhibit magnetism, but it loses its magnetism once removed from the magnetic field.
Magnetism is one of the fundamental forces of nature. It is akin to saying why does gravity exist. The world just seems to work that way!
A force is a push or pull that can cause an object to move, stop, or change direction. It is typically measured in units such as Newtons (N) and can be exerted by physical contact or through fields such as gravity or magnetism.
they can either push or pull on an object .
Other alternatives, apart from touching and blowing, include interactions with other objects (for example, when you pull a tablecloth, the objects on top of it will move; or you can hit an object with another object), and magnetism. Also electrostatic energy can move objects.
The electrons in an atom are responsible for magnetism. When electrons move around the nucleus, they create a magnetic field. This magnetic field can align with other magnetic fields to create attraction or repulsion, resulting in magnetism.
Yes, a force can cause an object at rest to move. When a force is applied to an object at rest, it will accelerate and start moving in the direction of the force.
To make something move, you can apply a force to it. This force can be generated through physical contact, such as pushing or pulling an object, or through other means like gravity or magnetism. The application of force causes the object to accelerate and move in the direction of the force applied.
An object must be subjected to a force in order to make it move or stop. This force can come from physical contact, such as pushing or pulling the object, or from non-contact forces like gravity or magnetism. The type and intensity of force applied determine the object's motion.
Yes, magnetism is a force. Any force applied to an object will either increase or decrease the friction between that object and an adjacent surface.
Any force.
force when it strikes a object.
Force can cause an object to move by exerting a push or pull on the object. When a force is applied to an object, it can overcome the object's inertia and accelerate it in the direction of the force. The magnitude and direction of the force determine the speed and direction of the object's movement.