increasing of temperature >> increasing concentration
Wikipedia lists a surface temperature of 4300 K.
There is no such thing as "surface area" of "solubility" since the latter refers to the maximum concentration in the solution of a solid (or liquid) in a liquid. "Surface area", as applied to such a phenomenon is meaningless. However, by *increasing* the surface area of, say, a salt, by grinding it, will increase its solubility. Maybe *that* is what the questioner meant.
The Rubner rule apples to animals that maintain their body temperature at a steady level. Their metabolic rate is approximately proportional to the surface area of the body.The Rubner rule apples to animals that maintain their body temperature at a steady level. Their metabolic rate is approximately proportional to the surface area of the body.The Rubner rule apples to animals that maintain their body temperature at a steady level. Their metabolic rate is approximately proportional to the surface area of the body.The Rubner rule apples to animals that maintain their body temperature at a steady level. Their metabolic rate is approximately proportional to the surface area of the body.
The surface area of the liquid can decrease when there is increase in the temperature of the day,what is called evaporation is been taking place in the surface of the liquid,wchich decreases the liquid area.
I think its depends on the nature of the liquid, the surrounding environment like (Gravitational acceleration ) and temperature
They can all affect the rate of a chemical reaction.
more catalysts, surface area, concentration, or temperature
The rate of diffusion increases with temperature. The rate of diffusion also increases with the concentration gradient and the surface area.
Factors that effect the solvation rate include temperature, concentration, surface area, concentration of solvent, and stirring.
concentration,catalyst, temperature and surface area effect
Diffusion refers to the process where substances from a highly concentrated area move to a place with a lower concentration. The three factors that affect the rate of diffusion are temperature, concentration gradient and the molecular weight of the substances.
Through temperature, concentration, surface area, and the use of catalists. Temperature - most reaction go faster with a higher temperature (not always the case) So you raise or lower the temperature to control the speed. Concentration - this can be calculated. The higher the concentration the faster the outcome and the more product you get. Catalists will always make it faster. More catalist, fater reaction. Surface Area-The more surface area, the faster the reaction. for example, if you break up an antacid tablet (alka seltzer) it will dissolve faster than a whole one because it has more surface area
Concentration of aqueous solutions. Temperature of aqueous solutions. Electrode surface area.
Increasing the temperature, lighter particles, higher surface area to volume ratio and a steeper concentration gradient.
Relative molar mass, temperature, and concentration difference/gradient.
Factors that may affect Diffusion rates are: Temperature, Concentration, Different tissue types, Molecular size, Surface area to volume ratio.
Enzymes EDIT from a different person: No! Catalysts, Temperature, Pressure, Concentration, Surface Area.