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∙ 13y agoSea water has a higher boiling point than water, meaning that it will have to be heated more then pure water to boil. This temperature depends on the concentration of the salt in the salt water.
The boiling point of normal water at normal pressure is 100C/212 F while for sea water it is 2 C higher or more depending on the salt concentration/impurities in the sea water. The difference in the boiling points would be 2 C or greater.
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∙ 13y agoSea water has a higher boiling point compared to normal water due to the presence of dissolved salts and minerals. The dissolved solids in sea water increase the boiling point by creating stronger bonds that require more energy to break. This is why sea water boils at a higher temperature than pure water.
The normal boiling point is the temperature at which a liquid boils at atmospheric pressure, while other boiling points refer to the temperature at which a liquid boils under different pressures. Normal boiling point is a standardized reference point for comparison between different substances.
The difference between boiling points is exploited.
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.
The main reason for the difference in boiling points between methanal (formaldehyde) and ethanal (acetaldehyde) is the difference in molecular weight and size. Ethanal has a larger molecular size and weight compared to methanal, which leads to stronger intermolecular forces such as van der Waals forces, resulting in a higher boiling point for ethanal.
The separation of liquids is based on the difference of boiling points.
The difference between the freezing and boiling points vary from substance to substance.
Yes
The key difference between fractional and simple distillation is that fractional distillation is used when the components in the mixture have closer boiling points, while simple distillation is used when the components in the mixture have a large difference in their boiling points
The normal boiling point is the temperature at which a liquid boils at atmospheric pressure, while other boiling points refer to the temperature at which a liquid boils under different pressures. Normal boiling point is a standardized reference point for comparison between different substances.
The difference between boiling points is exploited.
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.
The main reason for the difference in boiling points between methanal (formaldehyde) and ethanal (acetaldehyde) is the difference in molecular weight and size. Ethanal has a larger molecular size and weight compared to methanal, which leads to stronger intermolecular forces such as van der Waals forces, resulting in a higher boiling point for ethanal.
Distillation relies on the difference in boiling points of the substances in a mixture to separate them. By heating the mixture, the component with the lower boiling point vaporizes first, and then condenses back into liquid form. This process allows for the separation of different components based on their boiling points.
Distillation relies on the difference in boiling points of the components in a solution. By heating the solution, the component with the lower boiling point will vaporize first, allowing it to be collected and separated from the rest of the solution.
Water boils at 212°F. Iron's boiling point is 5,182°F. Quite a difference.
It is not possible; filtration as a separating method is based on the difference between boiling points.
The separation of liquids is based on the difference of boiling points.