the particles in the non magnetic material get magnetised, therefore it temporarily becomes a magnetic.
Any material that does not have magnetic domains.
A magnetic keeper, also known as a magnetic shunt or magnetic loop, is a piece of ferromagnetic material that is used to enhance and maintain the strength of a magnetic field. It is typically placed across the poles of a permanent magnet or an electromagnet to prevent the loss of magnetic strength when it is not in use or being used for a specific purpose. The magnetic keeper helps to redirect and concentrate the magnetic flux within the magnet, prolonging its effectiveness.
Magnetic force fields will pass through any material that is Not Magnetic itself, and does not have a magnetic field in it or surrounding it (like a wire carrying a current). When a magnetic field encounters a magnetic material the field is contained by it. This is the purpose of a "KEEPER", a metal bar that is placed across the Poles of a Horseshoe magnet. It 'Keeps' the Field in the magnet so to speak. This helps maintain the magnets strength.
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.
F = mB - mB =0 a bar magnet is placed in a uniform magnetic field B, its poles +m and -m experience force mB and mB along and opposite to the direction of magnetic field B.
Any material that does not have magnetic domains.
A magnetic keeper, also known as a magnetic shunt or magnetic loop, is a piece of ferromagnetic material that is used to enhance and maintain the strength of a magnetic field. It is typically placed across the poles of a permanent magnet or an electromagnet to prevent the loss of magnetic strength when it is not in use or being used for a specific purpose. The magnetic keeper helps to redirect and concentrate the magnetic flux within the magnet, prolonging its effectiveness.
Elements that are paramagnetic can act like iron when placed in a magnetic field. This is because of the presence of unpaired electrons in their valence shell. For example, liquid oxygen can have some magnetic properties (attracted to the magnet) when poured between the poles of a magnet.
Nothing - copper is not magnetic.
The fillings align themselves according to the magnetic field created by the magnet. *See the related links to images of the fillings behaving this way, along with a drawing representing the magnetic fields to which the filings align. You can see how the fillings behave similarly in each of the different photos. (see also related question below)
A compass needle is a small magnet itself. When it is placed next to a larger magnet, the magnetic field of the larger magnet interacts with the magnetic field of the compass needle. This interaction causes the compass needle to align with the magnetic field of the larger magnet, causing it to spin and point in the direction of the magnetic field lines.
Magnetic force fields will pass through any material that is Not Magnetic itself, and does not have a magnetic field in it or surrounding it (like a wire carrying a current). When a magnetic field encounters a magnetic material the field is contained by it. This is the purpose of a "KEEPER", a metal bar that is placed across the Poles of a Horseshoe magnet. It 'Keeps' the Field in the magnet so to speak. This helps maintain the magnets strength.
A magnetic keeper is a strip of soft iron or steel which is placed across the poles of a permanent magnet to help preserve the magnetism.
All materials are magnetized when placed in the magnetic field . The material magnetized by the effect of a magnetic field is called magnetic permeability.
A magnet is produced at the atomic level, the atoms that make up magnetic material have a "valence" electron configuration that causes the atom to have a positive and negative pole, these when are placed next to atoms of the same orientation will cause a uniform magnetic field and also the domains line up to make the magnetic field
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.
nothing will happen dumbazz because it isnt magnetic