It is a non polar compound. So it has London forces among molecules. They are a weak type of forces.
The answer lies in what is know as intermolecular forces. There three basic types: london dispersion forces (which all molecules have), dipole to dipole forces and hydrogen bonding. The stronger these forces the more the molecules have a tendancy to stick together. I listed the forces from weakest to strongest. Since water has hydrogen bonding its intermolecukar forces are the strongest and over powers the atmospheric forces and energies trying to tear the molecules away from eachother. Ammonias intermolecular forces are not strong enough under normal temperature and pressure so the molecules and individual gas molecules.
Tensional forces and compressional forces.
The attractive forces holding the molecules of silver iodide together (intermolecular forces) are stronger than those in vanillin, therefore they require more energy to break them. The attractive forces between two molecules of silver iodide are much stronger than the attractive forces between two molecules of vanilin. This is due to the different types of bonds found in each molecule - silver iodide molecules contain ionic bonds, which are very strong, while vanilin molecules contain covalent bonds which are a lot weaker. Since the attractive forces are higher in silver iodide, it requires a lot more energy (i.e. heat) to break these attractive forces in order to melt silver iodide, therefore it has a much higher melting point than vanilin. The bonding of atoms.
A: which elements are present
Radiation from the Sun (light and heat), and gravity forces are a couple. Oceanic tides would be another, as would be the force generated by wind.
Both are intermolecular forces.
Both are intermolecular forces.
London Dispersion Fores, as C2H4 is Non Polar...
Induced dipole forces, or simply, london forces
dipole and induced dipole
Dispersion
NO has a covalent bond. Electrons are shared.
Dipole-dipole interactions and van der Waals forces of attraction
The strongest intermolecular forces exist between polar molecules, because the polar molecules act as tiny dipoles.
yes it is - gentle warming will change it to vapor though.
Van der Waal's bonds are the weakest of the types of intermolecular bonds.
week atrative forces