Evaporation is the slow process of liquid molecules turning into gas and escaping from the fluid. Because the molecules need a place to escape evaporation can only occur at the surfaces of the fluid that are not contained, e.g., to top of a glass of water which is exposed to the air. Therefore, (1) the exposed surface area is important at determining the rate. Volume or the amount of fluid does not change the rate of evaporation. Granted it will take longer for a larger volume of fluid to evaporate, but the rate at which it looses mass will be irrespective of volume assuming other influencing variables are held constant. Again, this is because the liquid molecules are not escaping from the volume everywhere at once, they are escaping only at the surface exposed to air. (2) Heat will effect the rate of evaporation. The molecules of a hot fluid are vibrating more frequently and with more energy than in a cool fluid. The added energy of heat therefore makes it easier for a given molecule to escape the fluid. (3) What the fluid is comprised of will influence the rate of evaporation as well. If the fluid is made up of large charged molecules, the molecules will escape at a slower rate because more energy is required to lift their mass and overcome their electromagnetic interactions with each other to allow the molecules to escape. Also, a mixed fluid can evaporate faster or slower depending on how the different molecules interact with each other. (4) The amount of the molecules already in the gas phase surrounding the liquid will also influence the rate of evaporation. For example, at the surface of water there are molecules going from liquid to gas but ALSO from gas back to liquid. The rate of evaporation is determined by the difference between these two processes. If there are a lot of water molecules in gas phase surrounding the area of fluid that is exposed, a greater number by chance will replace the molecules that are escaping the fluid. So the if you measuring the rate at which the mass of water changes over time (which is the same as measuring the rate of evaporation), it will be slowed down if fluid is surrounded by more water molecules in the gas state. Accordingly, the fastest way to evaporate a fluid would be to have it in a vacuum that immediately removes the gas before it could go back into the liquid state.
This response is terrible:
"The amount of water being evaporated, the environment surrounding the body of water, the sun's heat level (whether environmental conditions such as clouds hinder the rate of heat), and the time of day (whether the sun is present or not). I suppose those are four fairly hypothesized guesses."
Two factors that affect the behavior of liquids are temperature and pressure. Temperature influences the movement of molecules within the liquid, affecting viscosity and evaporation rate. Pressure can influence the boiling point and compressibility of the liquid.
Factors affecting the rate of evaporation include temperature, humidity, surface area, air movement, and the presence of solutes in the liquid. Higher temperatures and lower humidity levels generally increase the rate of evaporation, as does increasing the surface area of the liquid. Air movement helps to remove water vapor from the surface, while solutes can decrease the rate of evaporation by inhibiting the escape of water molecules.
Factors affecting evaporation include temperature (higher temperatures increase evaporation), humidity (lower humidity increases evaporation), surface area exposed to air, and wind speed (increased wind speed can enhance evaporation). Additionally, the presence of impurities in the liquid can also affect the rate of evaporation.
The main factors that influence evaporation are temperature, surface area, and humidity levels. For condensation, temperature, humidity, and availability of particles for condensation to occur on are the key factors.
Guppies typically grow about 1-2 inches in their first few months of life. Factors that can influence their growth rate include water temperature, food availability, genetics, and overall health.
it takes about 2 weeks
The evaporation rate of water in atmospheric conditions can vary significantly based on factors such as temperature, humidity, wind speed, and surface area. On average, evaporation rates can range from about 2 to 10 mm per day in typical conditions. In hotter, drier, and windy environments, this rate can be higher, while in cooler, more humid conditions, it may be lower.
The three basic factors that influence the required rate of return for an investor are the risk-free rate of return, the expected return from the investment, and the risk premium associated with the investment. Investors typically demand a higher rate of return for riskier investments.
Tree roots typically grow at a rate of 1 to 2 feet per year, but this can vary depending on factors such as soil quality, moisture levels, temperature, and the availability of nutrients. Factors that influence root growth rate include the tree species, environmental conditions, and the presence of obstacles like rocks or other roots.
It is the process of conversion of liquid into vapour at any temperature below its boiling point. Factors are: 1.Temperature 2.Surface Area 3.Wind Speed 4.Humidity
Approx. 1.5" to 2" per wk.
you won