the color of an object will affect the rate of cooling e.g black objects cool down faster than shiny objects, the temperature around the object will also affect the rate of cooling, if the surrounding is cold, a hot object will cool faster than when the surrounding is hot.
Surface area affects the rate of cooling because the larger the exposed surface, the quicker heat will be released.
Increased surface area increases cooling. Cooling occurs by convection of air above the soup and water vapour loss.
No. Actually evaporation is the vaporisation from the surface of liquid, so its not matters that how much volume is the water of, because the rate of evaporation is depends upon the area of surface.
The rate of osmosis is dependent on factors such as temperature, particle size (surface area), and the concentration gradient and time given for osmosis to occur
The rate of diffusion increases with temperature. The rate of diffusion also increases with the concentration gradient and the surface area.
larger crystals
Yes. Other things being equal, the cooling rate should be more or less proportional to the surface area.
Increased surface area increases cooling. Cooling occurs by convection of air above the soup and water vapour loss.
more surface area= faster rate of weathering
The surface area of a rock has a big affect on the rate of weathering. The higher the surface area of the rock in proportion to its overall mass will result in a quicker rate of weathering of the rock.
Surface area affect the reaction rate because the contact between finely divided particles is improved.
more surface area= faster rate of weathering
How does slope affect the rate of weathering
Surface area affects collision rate because the larger the surface area the more air resistance is acting on it, therefor a larger surface area can slow down collision rate.
The bigger the surface area of water the more evaporation will take place.
Temperature difference and surface area are the biggest factors.
How does slope affect the rate of weathering
The rate of evaporation is directly related to both.