I'm going with Steam, a gas which is liquid at room temperature because it's made by raising the temperature of water to over 100C.
BUT alot things can be a gas and liquid not just 1 gas and plus steam or water vapour is at room temperature its just small droplets floating in the air.
The predicted boiling point for borane is 440,34 oc.
Molecular compounds tend to have the lowest melting points.
Because although the covalent bonds between the elements are strong, there are only weak forces between the molecules so they have low melting points
Chemicals have boiling points, bonds do not. But let us say, you are asking what the boiling point is of a chemical that has an ionic bond. Again, not all ionic type chemicals (which are generally called salts) have the same boiling point. I can, however, tell you that the boiling point of a salt tends to be very high, in the thousands of degrees.
Yes, Cl3I is an ionic compound. It is composed of chlorine (Cl) and iodine (I), two nonmetals. When they combine, chlorine tends to gain electrons to form a chloride ion (Cl-) and iodine tends to lose electrons to form an iodide ion (I+), resulting in the formation of an ionic compound.
Generally, as the carbon chain length increases, the melting point of a compound also tends to increase. This is because longer carbon chains result in stronger intermolecular forces, such as London dispersion forces, leading to a higher melting point. Shorter carbon chains have weaker intermolecular forces, so they typically have lower melting points.
The predicted boiling point for borane is 440,34 oc.
The trend of boiling points across a period in the periodic table should decrease from metals to nonmetals. The trend becomes more complicated between metals, the boiling point of metals tends to increase across a period.
boiling point is dependent on surface area as no of branches increas the molecules tends to occupy less surface area
The higher the density of a liquid, the higher its boiling point tends to be. This is because denser liquids generally have stronger intermolecular forces, which require more energy to overcome and reach the boiling point. Conversely, less dense liquids with weaker intermolecular forces will have lower boiling points.
The boiling points of alkenes depend on their molecular weight and structure. Generally, as the molecular weight of the alkene increases, so does its boiling point. Additionally, branching in the alkene structure tends to lower the boiling point compared to straight-chain alkenes of similar molecular weight.
Molecular compounds tend to have the lowest melting points.
it tends to not form crystals
The distillate tends to be colorless or lighter in color compared to the original liquid in the distilling flask. This is because the distillation process strips away impurities and separates the components based on their boiling points, resulting in a purer and clearer distillate. Any colored impurities or compounds with higher boiling points will be left behind in the distilling flask.
Impurities decrease the melting point of water by interfering with the crystal lattice structure. Pressure can increase the melting point of water by stabilizing the solid form due to the reduced volume and increased interactions between molecules. Overall, impurities tend to lower the melting point, while pressure tends to raise it.
Bronze is a metal alloy composed mostly of copper. Its melting point varies based on the ratio of the metals that compose it but tends to run around 950 degrees Celsius.
Because although the covalent bonds between the elements are strong, there are only weak forces between the molecules so they have low melting points