The electric force
A magnet can act from a distance because it creates a magnetic field around itself, which exerts a force on other magnetic materials within its field. This force can attract or repel other magnets or magnetic materials without physical contact.
The magnetic force is considered an action-at-a-distance force because it can act on objects without physical contact between them. It can attract or repel objects at a distance through magnetic fields, similar to how gravitational forces act between objects without the need for direct contact.
Yes, the magnetic force of repulsion can act at a distance. When two magnets have like poles facing each other, they will repel each other without physical contact due to the magnetic field surrounding them.
The force you are referring to is the force of magnetism, which can act at a distance and pull iron objects. This force is generated by magnets or magnetic materials and is responsible for the attraction between magnets and iron objects.
Gravitational force and magnetic force both act at a distance without direct contact. They both follow an inverse square law, meaning the strength decreases with distance squared. However, gravitational force is always attractive between masses, while magnetic force can be attractive or repulsive between charges.
The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.The electric force, the magnetic force and gravity, all act at a distance.
It is a force, such as gravity or magnetic attraction, which act at a distance.
A magnet can act from a distance because it creates a magnetic field around itself, which exerts a force on other magnetic materials within its field. This force can attract or repel other magnets or magnetic materials without physical contact.
The magnetic force is considered an action-at-a-distance force because it can act on objects without physical contact between them. It can attract or repel objects at a distance through magnetic fields, similar to how gravitational forces act between objects without the need for direct contact.
Yes, the magnetic force of repulsion can act at a distance. When two magnets have like poles facing each other, they will repel each other without physical contact due to the magnetic field surrounding them.
Yes. That's how the navigator of an airplane in flight is able to use a magnetic compass.
The force you are referring to is the force of magnetism, which can act at a distance and pull iron objects. This force is generated by magnets or magnetic materials and is responsible for the attraction between magnets and iron objects.
Those include electrical forces, magnetic forces, and gravitation.
Gravitational force and magnetic force both act at a distance without direct contact. They both follow an inverse square law, meaning the strength decreases with distance squared. However, gravitational force is always attractive between masses, while magnetic force can be attractive or repulsive between charges.
A noncontact force is a force that can act on an object without physically touching it, such as gravity or magnetic force. These forces can affect objects from a distance.
To graph magnetic force vs distance, you need the equation of the magnetic force as a function of distance. This equation typically involves variables such as the magnetic field strength, the charge of the particle, and the velocity. You would then input different distance values into the equation to calculate the corresponding magnetic force values, which can be plotted on a graph with distance on the x-axis and magnetic force on the y-axis.
Yes, as the distance of the magnet increase its magnetic force decreases