heat warmth the sun get it
Yes water cycle depends on evaporation. It is the first step of water cycle.
The evaporation rate of liquid carbon dioxide is relatively high compared to other liquids, as it easily changes from a liquid to a gas at standard temperature and pressure. The rate of evaporation will depend on factors such as temperature, pressure, and surface area exposed to air.
Evaporation.
it depends on the current humidity, if the humidity is high the water will have trouble evaporating because it has no where to go, temperature and atmospheric pressure also play some part.
Two types of evaporation are solar evaporation, which occurs when water is heated by the sun, and mechanical evaporation, which involves the use of machines to heat water and accelerate the evaporation process.
The latent heat of evaporation of water - the evaporation of sweat.
Yes water cycle depends on evaporation. It is the first step of water cycle.
sweat and evaporation
Yes, it is true.
That would depend on what you are doing.
The most important factors are temperature and pressure.
These processes are involved in water cycle. Water first evaporates and then condenses.
The rate of evaporation depends on factors such as temperature, humidity, surface area, and air movement. Higher temperatures and lower humidity levels typically result in faster evaporation rates. A larger surface area exposed to the air and increased air movement can also accelerate the evaporation process.
The rate of evaporation of sulfuric acid at 60°C will depend on factors such as the surface area, concentration, and air flow over the liquid. Generally, higher temperatures lead to faster evaporation rates due to increased kinetic energy of the molecules.
The evaporation rate of liquid carbon dioxide is relatively high compared to other liquids, as it easily changes from a liquid to a gas at standard temperature and pressure. The rate of evaporation will depend on factors such as temperature, pressure, and surface area exposed to air.
It depends on the specific goal. Crystallization is often preferred when purity is important, as it allows for the separation of a pure solid compound from a solution. Evaporation is more commonly used for concentrating solutions or recovering dissolved solids. Ultimately, the choice between crystallization and evaporation will depend on the desired outcome of the process.
Evaporation rates primarily depend on surface area, not volume. All that really matters is the square feet of surface area that are exposed. Evaporation rates in Florida can range from 1/10 of an inch per day in the winter to upwards of 3/4 of an inch in the summer.