repulsion or attraction between two magnets which leads to calculation of a positive work in the interaction shows the presence of a new force named the magnetic force.
When distance between two magnets decrease, the less magnet force the magnet has.
Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
its just magnetism.
Magnets always produce an electromagnetic force- between the similar ends of magnets it is electromagnetic repulsion.
the force between the earth and moon, the force between the sun and the earth, the force between the two magnets, the force between iron material and magnet.
the distance between them
Magnetic force of attraction is invesely proportional to distance between two poles.
Examples of attractive forces include gravitational force between two objects, magnetic force between two magnets, and electrostatic force between charged particles.
It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.It means that there is a force that attracts each of two magnets towards the other one.
False. The magnetic force of attraction or repulsion between the magnetic poles is inversely proportional to the square of the distance between the poles. So farther apart two magnets the force between them becomes weaker.
The force between two magnets depends entirely on their polarity. Polarity being divided into North and South, two poles of the same type will repel each other. That is, push away from each other. Two poles of opposite type will attract each other, that is, pull towards one another.
To produce a strong magnetic repulsive force, you can increase the strength of the magnets involved, increase the distance between the magnets to reduce the attractive force, or align the poles of the magnets so they repel each other. Using electromagnets with a high current and coil winding density can also generate a strong repulsive force.