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dehydration synthesis is when water is formed when combining two molecules. hydrolysis is adding water to make one molecule into two separate molecules.
Water molecules form hydrogen bonds with each other, excluding the hydrophobic molecules.
water can pass through cell membranes by osmosis- similar to diffusion
cohesion is when molecules of a certain similar kind (in this case water molecules) are more attracted to each other than to those of other substances. Water molecules are strongly cohesive as each molecule may make four hydrogen bonds to other water molecules.
hydrogen bond bonds water molecules with other water molecules.
dehydration synthesis is when water is formed when combining two molecules. hydrolysis is adding water to make one molecule into two separate molecules.
Water and alcohols have similar properties because water molecules contain hydroxyl groups that can form hydrogen bonds with other water molecules and with alcohol molecules, and likewise alcohol molecules can form hydrogen bonds with other alcohol molecules as well as with water.
That depends! But did you know, some clowns don't don't wear blue? It's similar to a bad omen or a unlucky sign.
Water molecules form hydrogen bonds with each other, excluding the hydrophobic molecules.
water can pass through cell membranes by osmosis- similar to diffusion
cohesion is when molecules of a certain similar kind (in this case water molecules) are more attracted to each other than to those of other substances. Water molecules are strongly cohesive as each molecule may make four hydrogen bonds to other water molecules.
Lipids are hydrophobic or ambiphilic small molecules. In water, hydrophobic lipids such as oils and fats clump up and separate from the water. In water, ambiphilic lipids such as phospholipids form bilayer structures; the body of living creatures uses these bilayer structures to form cell membranes and vesicles.
Other substances with molecules of a similar state are indeed in a gaseous state, at room temperature. It seems that water is liquid, at room temperature, because of its large electric dipole, which causes molecules to attract each other more than is usual for molecules of that size.Other substances with molecules of a similar state are indeed in a gaseous state, at room temperature. It seems that water is liquid, at room temperature, because of its large electric dipole, which causes molecules to attract each other more than is usual for molecules of that size.Other substances with molecules of a similar state are indeed in a gaseous state, at room temperature. It seems that water is liquid, at room temperature, because of its large electric dipole, which causes molecules to attract each other more than is usual for molecules of that size.Other substances with molecules of a similar state are indeed in a gaseous state, at room temperature. It seems that water is liquid, at room temperature, because of its large electric dipole, which causes molecules to attract each other more than is usual for molecules of that size.
This question is probably asking about microwave ovens. Water molecules have a net dipole moment, and microwave radiation causes them to rotate as the dipoles interact with the electromagnetic field. This increased motion of the water molecules translates into heat as they bump into other molecules and each other. Other polar molecules such as proteins are also affected in a similar way.
Compounds are made of molecules
Ice (excluding amorphous ice) is crystalised water. Breaking the crystals into molecules would be similar to melting it, in that melting ice also breaks the bonds and turns the H2O back into separate molecules, as in water. It is not, however, the same.
hydrogen bond bonds water molecules with other water molecules.