Zero - that is, when they are touching. The strength of the magnetic force is inversely proportional to the square of the distance between the magnet and the paper clip.
If the objects are not tied together, and if the gravitational forces between them are negligible in their current environment, then the distance between them has no effect whatsoever on their motion.
Decreasing the distance between two objects will increase the force of gravity. Gravity is proportional to the mass of the two objects and inversely proportional to the square of the distance between them.
The magnetic field of a bar magnet is strongest at either pole of the magnet. It is equally strong at the north pole compared with the south pole. The force is weaker in the middle of the magnet and halfway between the pole and the center
This is a solid.
the force of attraction between the particles gases is weak force of attraction between the particles in liquid is a bit strong force of attraction between the particles in solid is strongest this is the right answers,,,,,dont worry :)
The strength of magnetic attraction between two objects decreases with distance. The strongest magnetic attraction occurs when the objects are in close proximity or touching, as the magnetic force between them is maximized at short distances.
the force of attraction get weaker the more the distance grows between magnetic fields
Yes, distance does affect the strength of magnetic attraction. The force of attraction between two magnets decreases as the distance between them increases. This is because the magnetic field weakens with distance, resulting in a weaker force of attraction.
As the distance between magnetic objects increases, the magnetic attraction between them decreases. This is because the magnetic force follows an inverse square law, meaning it weakens by a factor of the square of the distance. So, the farther apart the objects are, the weaker the magnetic attraction between them will be.
The magnetic attraction between two unlike poles increases as the distance between them decreases. This relationship follows an inverse square law, meaning that the force of attraction becomes stronger as the distance is reduced. Conversely, increasing the distance between two unlike poles weakens the magnetic attraction between them.
The magnetic force of attraction between two magnets decreases with distance. As the distance between the magnets increases, the strength of the magnetic force weakens. This relationship follows an inverse square law, meaning that the force decreases exponentially as the distance between the magnets increases.
Magnetic attractions get weaker as the bodies get further apart. However the relationship is an inverse square law, which means that if the distance is doubled, the force drops to a quarter.
The force of attraction between two magnetic objects depends on their magnetic properties and the distance between them. The force is stronger when the magnetic objects have opposite poles facing each other and weaker when they have like poles facing each other. The force of attraction follows the inverse square law, meaning it decreases with the square of the distance between the objects.
The magnetic attractive force between two objects decreases as the distance between them increases. This relationship follows an inverse square law, meaning that the force is proportional to 1 divided by the square of the distance between the objects. As the distance doubles, the force decreases by a factor of four, and so on.
Rotation and revolution
As the distance between two magnets increases, the force of attraction or repulsion between them will decrease. This decrease is due to the weakening of the magnetic field as the distance between the magnets increases.
Increasing the distance between the two magnets will cause a decrease in the force of attraction between them. As the distance between the magnets increases, the magnetic field strength that one magnet exerts on the other decreases, resulting in a weaker force of attraction.