Because the concentration is directly proportional to the rate of reaction (the rate will increase but k will remain the same), with an increase in concentration the activation energy will stay because the activation energy does not account for the concentration.
Increase the concentration of SO2
Evaporating water the concentration of salts increase and so the density increase.
concentration of glucose in the urine decreases.
heat.
ciggarete commercials
Ireland dublin 1693
Increase the concentration of salt and acid or base. If you are not suppose to increase concentration use more volume of buffer.
Reaction rate increase when the concentration increase.
In a nutshell, yes. The water will go from a higher concentration to a lower concentration to increase the entropy of the lower concentration area. The increase in entropy of the lower concentration area would be greater than the loss of entropy of the higher concentration giving you a NET increase in total entropy.
As you increase the concentration of the solution, the concentration of H+ does not change. Meaning, the concentration ionized does not change. Just the original concentration increases. Since percent ionization = (concentration ionized)/(original concentration) , and the original concentration is increased, the percent ionization therefore decreases.
Nothing
The reaction rate increase with reactants concentration.
Because the concentration is directly proportional to the rate of reaction (the rate will increase but k will remain the same), with an increase in concentration the activation energy will stay because the activation energy does not account for the concentration.
Increase the concentration of SO2
After evaporation the concentration of salts increase.
pH is the negative logarithm of the hydrogen ion concentration; so an increase in hydrogen ion concentration give a reduction in pH. A reduction in hydrogen ion concentration causes an increase in pH.