This is acetic acid wth a boiling point of cca. 118 0C.
To separate water, alcohol, and acetone, you can use fractional distillation. First, heat the mixture to vaporize the acetone, which has the lowest boiling point. Then cool and condense the acetone vapor, which can be collected separately. Next, heat the remaining liquid to vaporize the alcohol, which has a higher boiling point than acetone but lower than water. Finally, separate water from the mixture by distilling the remaining liquid, as water has the highest boiling point of the three compounds.
Ammonia is the answer. It is the only basic compound here.
Carboxylic acid > alcohol > ester > hydrocarbon. Carboxylic acids have the highest boiling points due to hydrogen bonding between molecules. Alcohols have the next highest boiling points due to hydrogen bonding as well. Esters have lower boiling points because they do not form hydrogen bonds as strongly. Hydrocarbons have the lowest boiling points as they have no functional groups to facilitate intermolecular forces.
Fractions with the highest boiling points leave the fractional distillation tower at the bottom. This is because the fractions are separated based on their boiling points, with the highest boiling point fractions condensing and collecting at the bottom of the tower.
The compound with the highest boiling point among the options provided.
To separate water, alcohol, and acetone, you can use fractional distillation. First, heat the mixture to vaporize the acetone, which has the lowest boiling point. Then cool and condense the acetone vapor, which can be collected separately. Next, heat the remaining liquid to vaporize the alcohol, which has a higher boiling point than acetone but lower than water. Finally, separate water from the mixture by distilling the remaining liquid, as water has the highest boiling point of the three compounds.
Ammonia is the answer. It is the only basic compound here.
The liquid with the highest rate of evaporation would generally be the one with the lowest boiling point. This means that substances like acetone or ethanol, which have low boiling points, will evaporate more quickly than water or oil.
Methanol is the most volatile compound among the options listed. It has the lowest boiling point and highest vapor pressure compared to acetone, 2-butanone, and t-butyl chloride.
Carboxylic acid > alcohol > ester > hydrocarbon. Carboxylic acids have the highest boiling points due to hydrogen bonding between molecules. Alcohols have the next highest boiling points due to hydrogen bonding as well. Esters have lower boiling points because they do not form hydrogen bonds as strongly. Hydrocarbons have the lowest boiling points as they have no functional groups to facilitate intermolecular forces.
The correct increasing order of evaporation is: water, alcohol, kerosene, petrol. Water evaporates the fastest due to its low boiling point, followed by alcohol, kerosene, and then petrol, which has the highest boiling point.
Rhenium has the highest boiling point: 5 596 0C.
Fractions with the highest boiling points leave the fractional distillation tower at the bottom. This is because the fractions are separated based on their boiling points, with the highest boiling point fractions condensing and collecting at the bottom of the tower.
The compound with the highest boiling point among the options provided.
The molecule with the highest boiling point is the one with the strongest intermolecular forces.
helium has the least density, xenon has the highest.
No it does not.