Surface area does not really affect temperature. It affects heat transfer. A car's radiator has thousands of fins that increase the surface area to increase heat transfer between the air and water. The radiator is a heat exchanger that follows the rules found here
Based on heat transfer, surface area can indirectly affect temperature. If your house is surrounded by a paved road the temperature will not be as warm as if it were located in the center of a huge parking lot. The larger parking lot area can convert more radiant energy from the sun and release more to the air surrounding your house.
Concentration, surface area, and temperature all affect the rate of chemical reactions. Increasing concentration increases the number of reactant particles colliding, larger surface area allows for more contact between reactants, and higher temperature provides more energy for particles to react.
Three main factors that affect diffusion are temperature (higher temperature increases rate of diffusion), concentration gradient (greater difference in concentration leads to faster diffusion), and surface area (larger surface area allows for more diffusion to occur).
The temperature affects the color of a star.
The four factors that affect how fast a substance dissolves are: particle size (smaller particles dissolve faster), temperature (higher temperatures increase dissolution rate), agitation (stirring or shaking speeds up dissolution), and surface area (larger surface area enhances dissolution).
Surface area affect the reaction rate because the contact between finely divided particles is improved.
Temperature and surface area
there is no effect of either
How does the angle of light affect the temperature of a surface?
Surface area can affect water temperature by influencing the rate at which water can absorb or release heat from the surrounding environment. A larger surface area allows for more heat exchange with the air, causing water to cool down or warm up faster. Conversely, a smaller surface area results in slower temperature changes.
Concentration, surface area, and temperature all affect the rate of chemical reactions. Increasing concentration increases the number of reactant particles colliding, larger surface area allows for more contact between reactants, and higher temperature provides more energy for particles to react.
the factors that affect sollubilty are * stirring * temperature * state of subdivision * the surface area
Three factors that affect the rate of evaporation are temperature (higher temperature increases evaporation rate), humidity (lower humidity increases evaporation rate), and surface area (larger surface area increases evaporation rate).
As the temperature rises, surface tension decreases.
Three main factors that affect diffusion are temperature (higher temperature increases rate of diffusion), concentration gradient (greater difference in concentration leads to faster diffusion), and surface area (larger surface area allows for more diffusion to occur).
Factors that affect condensation include temperature decrease, presence of condensation nuclei, humidity levels, and surface area for condensation to occur. Factors affecting evaporation include temperature increase, humidity levels, air movement, and surface area available for evaporation.
The factors that affect the evaporation rate of boiling water include temperature, surface area, humidity, and air movement. A higher temperature, larger surface area, lower humidity, and increased air movement can all lead to a faster evaporation rate.
The surface area of the potato and the temperature of its' surroundings