magnets attract iron,nickel,cobalt and unlike poles towards itself , this property of magnet is known as attractive property of magnet .
attractive
because they find each other very attractive
knife shows magnetic property when it remains physically contact with magnet for sometime.this type is known as temporary magnet
It most likely means they are attractive and lots of people are drawn to them. Like a magnet.
Magnetism is used to show how attractive something is. For example, a magnet can attract a paperclip from a certain distance. The distance is its magnetism.
it said i find you very attractive
A magnet possess the four properties:-attractive property-directive property-like poles repel and unlike poles attract-poles always exists in pairsattractive property: if you bring a magnet near iron filings, the iron filing will get attracted to the magnet. this is the attractive property.directive property:if a magnet is freely suspended by a thread, it will align itself in the north-south direction. this is called the directive property.like poles repel and unlike poles attract: a bar magnet's north pole is brought near the north pole of another magnet, it is observed that the the two magnets get repelled. if the same north pole is brought near the south pole of another magnet, the two magnets get attracted.poles always exists in pairs: when a magnet is cut into pieces, it will always have two poles, that is , north and south. even the smallest magnets will have this property. it is called the dipole property.
it said i find you very attractive
attractive
Yes.
I find you very attractive
by keeping another magnet or attractive force
You need to do the experiment. If the magnet is strong enough, metal (steel, iron) will jump to the magnet (or pull the magnet towards it).
You're attractive
A special property of pyrrhotite is that it is a natural MAGNET that attracts iron. So your answer is: MAGNET
because they find each other very attractive
A superconducting magnet is one that is made of material that exhibits the property of superconductivity.