Salt has been a proposed chemical to use in a process known as cloud seeding. This means that airplanes would fly through the clouds and disperse salt particles within them, which allow the water molecules to bind to them, become denser than the surrounding air and then fall as rain. While silver iodide and dry ice have been historically more popular in this type of geoengineering, salt is becoming more frequently used in the practice.
because of the water in the atmosphere
Because salt doesn't exist in the composition of atmosphere.
The property of a salt that enables it to absorb water from the atmosphere is known as hygroscopicity.
By evaporation water is gone in the atmosphere and crystallized salt remain.
Salt enters the atmosphere through processes like sea spray, volcanic eruptions, and the evaporation of salty water bodies like oceans and seas. Winds can also pick up salt particles from the Earth's surface and transport them into the atmosphere.
The principal source of sodium chloride in the atmosphere are saline waters: the aerosols from the water surface are spread in the atmosphere.
By evaporation water is gone in the atmosphere and crystallized salt remain.
the ocean
because there is alot more salt found in the ocean rather than the amount of salt in the atmosphere
Glauber's salt will absorb moisture from the atmosphere and form a solution. Over time, it will dissolve completely into the water and lose its crystalline structure.
Salt can become a particulate in the atmosphere when it is transported through processes such as sea spray from ocean waves, volcanic eruptions, or dust storms. These salt particles can contribute to air pollution and affect air quality.
1 atmosphere is 33.9 feet of water.