True
Strong attractive forces (hydrogen bonding) among the water molecules.
The molecules move slower and slower until the attractive interactions between them become greater than their momentum can withstand, at which point the liquid begins to freeze.
They are responsible for carrying oxygen to other parts of the body
Yes, polyurethane dispersions are usually anionic and have very large molecular weights.
Van der waals forces (ie induced dipole-dipole interactions) is a weak intermolecular attraction that exist but one molecule and another whether polar or non-polar.
The attractive forces between molecules can be weakened by supplying them with heat energy.
nonpolar molecules
Dipole dipole interactions are between two polar molecules. As long as two molecules are polar, they form dipole dipole interactions.
Interactions at the atomic level determine the arrangement of atoms and molecules, which influences the chemical and physical properties of matter. In organisms, these interactions are responsible for the structures and functions of biological molecules like proteins and DNA. In non-living matter, atomic interactions determine characteristics such as melting point, conductivity, and strength. By understanding these atomic interactions, we can explain the observable properties of both living organisms and non-living matter.
In polar molecular solids' molecules are held together by relatively stronger dipole-dipole interactions.
An example of the protein-protein interactions is the antigen-antibody interactions. Because of the complexity of the protein molecules, the hydrophobic interactions are more dominant.
The main intermolecular force holding water molecules together in hydrogen bonding. Also, there are diplole-dipole interactions and London dispersion forces. But hydrogen bonds are the major force keeping water in the liquid state.