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Oil molecules are nonpolar, so they will not mix with polar water molecules. This characteristic helps when removing oil from water using nets and floating barriers is that oil molecules won't mix with water molecules and the oil molecules float. Because oil floats on water, the oil can be skimmed off the top of the water.
The polarity of water results in the ability of water to dissolve other hydrophilic molecules
This is the surface tension. The value for water is great - 58,85 dyn/cm.
it's molecules are attached together,it have there own shape
Water soluble molecules.
Water molecules are linked by a high cohesive force.
Oil molecules are nonpolar, so they will not mix with polar water molecules. This characteristic helps when removing oil from water using nets and floating barriers is that oil molecules won't mix with water molecules and the oil molecules float. Because oil floats on water, the oil can be skimmed off the top of the water.
The polarity of water results in the ability of water to dissolve other hydrophilic molecules
This is the surface tension. The value for water is great - 58,85 dyn/cm.
This is the movement of molecules.
There are a number of metals that react with water, such as sodium, lithium, etc., but there is no element that decomposes in water. Decomposition is a characteristic of more complex molecules, not of elements.
The polarity of the water molecule, which causes hydrogen bonds to form between the water molecules, is the characteristic that enables it to act as a lubricant.
The hydrogen bonds result in a structure that contains large holes.
Water is made of two hydrogen atoms and an oxygen atom. The combination of hydrogen and oxygen is needed in order to create a molecule with the properties characteristic of water. Water cannot exist without oxygen.
fewer molecules in the air
DNA
hydrogen bond bonds water molecules with other water molecules.