The boiling point is specific for each substance.
Argon is a monoatomic gas, held by weak van der Waals forces of attraction. Water is a polar covalent molecule held together by stronger hydrogen bonds and hence have higher boiling point than argon
Polar molecules have relatively weak intermolecular forces. Intermolecular forces and boiling point have a direct relationship, so due to the fact that polar molecules have weak forces, their boiling points will be lower.
For example the quality of water as a good solvent. Also melting point, boiling point, surface tension, capillarity.
Straight chain isomers have higher boiling point than their more compact isomers because there are fewer dispersion forces in the symmetrical molecule The dispersion forces of straight chain alkanes increase with molecular weight. Stronger intermolecular forces develop in long chains, and the boiling point and melting point increase with MW.
The correct spelling is discrete molecule instead of discreet molecule. A discrete molecule is a molecule that is covalently bonded that has weak bonds. They have a low boiling and melting point.
the polar molecule has a higher boiling point
Argon is a monoatomic gas, held by weak van der Waals forces of attraction. Water is a polar covalent molecule held together by stronger hydrogen bonds and hence have higher boiling point than argon
HF is electronegative compared to O2. HF has delta plus and delta minus creating a dipole moment, it is a polar molecule therefore it has a higher boiling point. O2 which is symmetrical and non polar (looks like O=O) and therefore has no dipole moment.
Polar molecules of smilar size to non-polar molecules have a higher melting and boiling point due to their stronger force of attraction.. eg. CO2. which is non-polar, you can can find free floating in the atmosphere whereas a polar molecule such as Water, doesn't boil until it reaches at least 100(Co) degrees. i like dump
Polar molecules have relatively weak intermolecular forces. Intermolecular forces and boiling point have a direct relationship, so due to the fact that polar molecules have weak forces, their boiling points will be lower.
The molecule N2C2H4F2O2 has a higher boiling point.
For example the quality of water as a good solvent. Also melting point, boiling point, surface tension, capillarity.
hydrogen bonding increases the intermolecular attractions and therefore increases the boiling point and melting point.
Straight chain isomers have higher boiling point than their more compact isomers because there are fewer dispersion forces in the symmetrical molecule The dispersion forces of straight chain alkanes increase with molecular weight. Stronger intermolecular forces develop in long chains, and the boiling point and melting point increase with MW.
methanol
C2h2
Increasing the number of carbons in a molecule increase the boiling point in the wast majority of cases.