see. a paperclip attracts magnets. when you put it underwater it will join together - this is how it attracts. it will repel by moving away from each other
Yes. Neither the glass nor the water shields the paperclipfrom the field of the magnet.
A paperclip can float on water due to surface tension, which is the cohesive force between water molecules that creates a "skin" on the surface. This surface tension allows the paperclip to rest on top of the water without sinking, despite its weight. The weight of the paperclip does displace some water, but it's the surface tension that counteracts the force of gravity, enabling it to float. If the paperclip were to be pushed beneath the surface, it would break the surface tension and sink.
Surface tension is the property of liquids that allows a paperclip to float on water. Surface tension is caused by the cohesive forces between water molecules, creating a "skin" on the surface strong enough to support the weight of the paperclip.
Hydrophobic molecules repel water and are nonpolar, while hydrophilic molecules attract water and are polar. Hydrophilic coatings are commonly used to make surfaces wettable by water, allowing for better adhesion or compatibility with aqueous solutions.
Grease is hydrophobic, meaning it repels water due to its non-polar nature. The non-polar molecules in grease are not attracted to water molecules, causing them to be pushed away, leading to the repulsion of water.
Yes. Neither the glass nor the water shields the paperclipfrom the field of the magnet.
Water attracts polar molecules and repels non-polar molecules because water has polar molecules. Water does have a net dipole though it doesn't have net charge.
Water can be understood as being like a magnet in the way it attracts and interacts with other substances, forming bonds and connections similar to how a magnet attracts metal objects.
magnets dont lose their magnetism under water. According to me magnets do attract paper under water.
A water molecule is like a magnet in that it has a positive and negative charge distribution. The oxygen atom in water has a slightly negative charge, while the hydrogen atoms have a slightly positive charge, creating a polar molecule. This polarity allows water molecules to attract each other and form hydrogen bonds.
Soap is both hydrophobic and hydrophilic. It has a hydrophobic tail that repels water and a hydrophilic head that attracts water, allowing it to interact with both water and oils.
Although it does not appear to be magnetic, water, like all matter, may display magnetic characteristics when exposed to a large enough magnetic field. A extremely powerful magnet repels water by a little amount. You may do this yourself if you have a neodymium magnet.
One hypothesis will have to do with the surface tension of water.
The type of organic molecule that repels water is a lipid. It is an non-polar compound and is generally insoluble in water.
The chemical structure of a substance determines whether it is hydrophobic (repels water) or hydrophilic (attracts water). Hydrophobic substances have non-polar molecules that do not interact well with water, while hydrophilic substances have polar molecules that can form bonds with water molecules.
no
A paperclip can float on water due to surface tension, which is the cohesive force between water molecules that creates a "skin" on the surface. This surface tension allows the paperclip to rest on top of the water without sinking, despite its weight. The weight of the paperclip does displace some water, but it's the surface tension that counteracts the force of gravity, enabling it to float. If the paperclip were to be pushed beneath the surface, it would break the surface tension and sink.