Would you have affected the freezing point of water as much as you affected the freezing...

Would you have affected the freezing point of water as much as you affected the freezing point of benzene? Explain using the Df for each solvent as part of your explanation.

Expert Solution

No

water scenario is different from benzene

The point of freezing or softening purpose of water is the temperature at which water changes stage from a fluid to a strong or the other way around. The point of solidification portrays the fluid to strong move while the liquefying point is the temperature at which water goes from a strong (ice) to fluid water. In principle, the two temperatures would be the same, however fluids can be supercooled past their solidifying focuses with the goal that they don't cement until well beneath the point of solidification. Conventionally the point of solidification of water is 0° C or 32° F. The temperature might be lower if supercooling happens or if there are pollutions display in the water which could bring about the point of solidification gloom to happen

As the barometrical weight diminishes, the breaking point of a fluid declines since it takes less weight for the atoms to leave the fluid. So the outcome is that at high height, the breaking point is lower than adrift level. Diminishing weight likewise expands the point of solidification, just not by in particular

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freezing point constant for benzene =5.12 °C/m benzene is the solvent and volatile

queen_honey_blossom answered 1 year ago

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