Magnetic filed of the bar magnet will penetrate a paper. Hence the clip will be attracted and stick to the magnet pressing the paper too to the magnet.
No, a magnet will not be able to attract a paper clip that has a cardboard between them. The cardboard will act as a barrier, preventing the magnetic force from reaching the paper clip.
it wouldn't be magnet to a aluminum nail because the aluminum is not a way of magnet and a steel nail would because steel is a way of magnet.
A magnetic force.
12 m/s2
The magnet is losing its magnetic connection to the fridge.
this happens because the magnet has magnetised the nail
No, a magnet will not be able to attract a paper clip that has a cardboard between them. The cardboard will act as a barrier, preventing the magnetic force from reaching the paper clip.
A paper clip is made up of iron or steel. It consists of particles called domains which are randomly arranged. When a magnet is rubbed on a paper clip, the domains arrange themselves in one direction. Thus it gets magnetized and behaves as a magnet.
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.
magnet attracts iron. paper clip made of iron magnet atrracts paper clip...
Nothing will happen to the colour of the shadow. A shadow is the absence of light, and the object will still block the blue light.
it wouldn't be magnet to a aluminum nail because the aluminum is not a way of magnet and a steel nail would because steel is a way of magnet.
Well, let's see. If I have a paper clip on a table and a magnet in my hand, and I slowly pass the magnet over the paper clip, the magnet in my hand is pulling the paper clip up with magnetism. If my magnet is close enough to the paper clip, the paper clip will jump up to the magnet ... even though the whole Earth is pulling it down with gravity.
A magnetic force.
The paper clip clings to the the magnet
probably because the paper clip weighs less against the magnet
12 m/s2