they are inversely related. as the distance increases the magnetic attraction decreases and when the distance decreases the magnetic attraction increases.
i dont know ,are you in 7se by any chance
All attractive forces, gravitational, coulombic, and magnetic vary as the square of the distance between two objects. Thus, as the distance increases, the force between them becomes much weaker and weaker.
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.
What is the relationship between electrical frequency and magnetic field speed for an ac machine
Magnetic force of attraction is invesely proportional to distance between two poles.
The inverse square law.
Magnetic force is inversely proportional to the square of the distance from the magnet which generates it.
its a hard thing but iam smart
i dont know ,are you in 7se by any chance
All attractive forces, gravitational, coulombic, and magnetic vary as the square of the distance between two objects. Thus, as the distance increases, the force between them becomes much weaker and weaker.
Magnetism and gravity are two fundamental forces in nature.The Shell Theorem can prove both magnetic and gravitational forces.Gravitational forces are always attractive. However, magnetic forces can be either attractive or repulsive. Both forces decay as the square of the distance between particles forming a couple.
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 get weaker the more the distance grows between magnetic fields
um Long-distance relationship?
What is the relationship between electrical frequency and magnetic field speed for an ac machine
Magnetic force of attraction is invesely proportional to distance between two poles.
when the mass of either object increases, or the distance between their centers decreases. It is the attractive force that is affected by the mass of each object or the distance between them. Even though it cannot be proved from 1st principles, the attractive force relationship between the 2 objects is given by (m=mass, d=distance): m1 x m2 --------- d2 Thus, the attractive force increases when either m1 or m2 increases. This force also increases very much (as the square) when the distance decreases.