Evaporation is a process that takes place at the surface of a liquid, therefore the rate of evaporation is directly related to the surface area. Twice as much surface area will give you twice as much evaporation.
Yes, it is.
There is no direct relationship.
In general, the dissolution rate is directly proportional to surface area. This is because the surface area tells you how much solute is exposed to the solvent. The greater the surface area, the more solute molecules that can bind to the solvent molecules, which means more dissolution.
Well, If the surface area is small, say 1 m2 . And the temperature is 1000C You lose only 2% of your heat. But if the surface area is big/largel, say 10 m2 . And the temperature is still 1000C You lose only 20% of your heat. So the bigger your surface area the bigger your heat loss is. Warning: It is a example, the calculation is not correct!
It is that area is measured in square units.
The larger the area the faster the evaporation.
The larger the exposed surface area - the faster evaporation occurs.
The bigger the surface area of water the more evaporation will take place.
Yes, it is.
That's because evaporation occurs at the surface.
the difference between this is that surface area
The bigger the surface area of water the more evaporation will take place.
The greater the surface area, the greater the rate of evaporation under identical atmospheric conditions.
There is no direct relationship.
-temperature -surface area -vapour pressure
The relationship between the surface areas of cylinders, cones, and spheres is that the surface area of a cylinder is equal to the sum of the areas of its two circular bases and its curved surface area, the surface area of a cone is equal to the sum of the area of its circular base and its curved surface area, and the surface area of a sphere is equal to four times the area of its circular base.
Evaporation is sometimes called a surface phenomenon. The molecules on the surface of the liquid tend to suspend themselves in the atmosphere. To change these liquid molecules to gaseous form they require heat energy. They take energy called latent heat from the surrounding particles and thus change themselves to gas molecules. That is why evaporation is called surface phenomenon. As it takes latent heat from the surrounding particles it also causes cooling.