because it has less salt than the sea water
Water boils faster on top of a mountain than at sea level because the boiling point of water is reduced with reduced atmospheric pressure.
No, salt water does not evaporate faster than tap water. The evaporation of water is slower when molecules are dissolved in the water. Sea water is very salty and so will evaporate more slowly than tap water or pure water. If you have a very small amount of salt dissolved in water, then it has a small effect on evaporation. Tap water has a very small amount of salt and other things dissolved in it, but that also varies enormously depending on where the tap water comes from. The rate of evaporation also depends on considerations other than whether there something dissolved in the water, but as a rule of thumb, the more material dissolved in the water the slower the evaporation. This could easily be demonstrated in a science experiment by dissolving varying amounts of salt and then waiting for several days or weeks. One would have to assure that temperature and wind currents were the same for all samples tested. (Note that as water evaporates, salt will become encrusted on the exposed sides of the container and that will alter the concentration of the remaining salt, so appropriate accommodations in the design of the experiment will be needed if more quantitative measures are desired.)
You can use evaporation, which is where you boil the water until all of it evaporates. Another way is to freeze water, leaving the salt on top.
Even if you simply air dry the sea water, you can easily find the salt. You have many alternatives too. You can also boil the water till all the water evaporates to find the salt as a residue.
There's a smaller column of air pressing down at high altitudes, so air pressure is less.
Regular water is evaporated faster.
sea water doesnt freeze faster than fresh water, fresh water freezes faster than sea water as it has a lower freezing point than sea water has as sea water contains salt which makes the boiling/freezing points increase therefore making the sea water freeze at a lower temperature.
an example is that when sea water evaporates,it becomes salt.
Yes, a coin does sink slightly faster in pure water than it does in sea water. The dissolved salts in sea water make the water denser, and as a result, objects immersed in sea water will experience greater buoyancy than they do in fresh water.
Beacause sea water has lots of impurities and disolve salt
Water boils faster on top of a mountain than at sea level because the boiling point of water is reduced with reduced atmospheric pressure.
Sodium
because the temperature at which water evaporates is lower than that of salt, so the water effectively leaves the salt behind.
Yes
No, salt water does not evaporate faster than tap water. The evaporation of water is slower when molecules are dissolved in the water. Sea water is very salty and so will evaporate more slowly than tap water or pure water. If you have a very small amount of salt dissolved in water, then it has a small effect on evaporation. Tap water has a very small amount of salt and other things dissolved in it, but that also varies enormously depending on where the tap water comes from. The rate of evaporation also depends on considerations other than whether there something dissolved in the water, but as a rule of thumb, the more material dissolved in the water the slower the evaporation. This could easily be demonstrated in a science experiment by dissolving varying amounts of salt and then waiting for several days or weeks. One would have to assure that temperature and wind currents were the same for all samples tested. (Note that as water evaporates, salt will become encrusted on the exposed sides of the container and that will alter the concentration of the remaining salt, so appropriate accommodations in the design of the experiment will be needed if more quantitative measures are desired.)
The water evaporates when the sun is shining at it. Like in the sea. When the sun shines at the sea, the water evaporates and go to the clouds. When the clouds get heavier and heavier it will rain and repeat the process again.
Salt remain as a crystallized residue.