Methanol
Because the boiling point of alcohol is lower than the boiling point of water.
The property described by alcohol boiling at 60 degrees C is the boiling point.
it is some type of alcohol did a distillation lab on it today
Wood alcohol (methanol) freezes at -97.8° C (-144.0° F) and boils at 64.7° C (148.5°F) Grain alcohol (ethanol) freezes at -114.1° C (-173.4° F) and boils at 78.5° C (173.3° F)
alcohol and water have different boiling point. i.e bp of alcohol is78C andwater is100C
Hexane has a higher boiling point than pentane. This is because hexane has a longer carbon chain, which results in stronger London dispersion forces between molecules, thus requiring more energy to overcome and boil.
Hexane has a lower boiling point compared to butanol. The difference in boiling points arises from the difference in molecular weights, functional groups, and intermolecular forces present in the two compounds. Butanol, with its hydroxyl group, exhibits stronger hydrogen bonding interactions, leading to a higher boiling point compared to hexane.
Nothing I can think of. Maybe something really esoteric, but common chemicals don't boil at that exact temperature. The two closest common chemicals are hexane (68.7C) and carbon tetrachloride (76.7C). Ethyl alcohol's boiling point is about 78C. Isopropanol boils at 82.6C.
Hexane has a low boiling point because it is a relatively small molecule with weak intermolecular forces, such as London dispersion forces. These weak forces require less energy to overcome, resulting in a lower boiling point compared to larger molecules with stronger intermolecular forces.
The boiling point of benzene is about 80 0C while that of hexane is 69 0C, so Hexane is more volatile.
Think in terms of room temperature. Hexane is a liquid that is flammable, but is used in cleaning solvents and stuff like around the garage. Propane is the gas that comes in a steel bottle that you use for gas stoves and barbeque grills. So if you let propane out into the room its a gas and so it already past its boiling point. So the boiling point of Hexane is hotter than room temperature and the boiling point of propane is lower than room temperature. The actual numbers are 69 C and -42 C.
To find the boiling point of hexane at 1.5 ATM, you can use the Clausius-Clapeyron equation, which relates temperature and pressure to the enthalpy of vaporization. By knowing the normal boiling point of hexane and its enthalpy of vaporization, you can calculate the boiling point at 1.5 ATM.
Because the boiling point of alcohol is lower than the boiling point of water.
A given form of liquid alcohol will turn to vapor at its boiling point, which is different for each type of alcohol.
The boiling point of alcohol varies depending on the specific type of alcohol. For example, the boiling point of ethanol (drinking alcohol) is around 78.37°C (173.07°F) at standard atmospheric pressure.
The boiling point of methyl alcohol (methanol) is 64.7 degrees Celsius or 148.5 degrees Fahrenheit.
Ethyl alcohol, also known as ethanol, has a boiling point of 78.37