a and c
The strong acid could cause an exothermic reaction (produce a lot of heat) Weak acid do the same, but do not produce such a strong exothermic reaction. Acid in Water might be a thrill Water in Acid could be rather unpleasant. Regards.
One major difference between the two processes is that solvolysis is a chemical reaction in which strong bonds are formed between. The solute & solvent. However, solvation although a chemical reaction can be regarded as a mere association or interaction of the solute and the solvent resulting in weak chemical bonding... Uju(Nig)
Solutions that resist change in pH when added to a strong acid or base are known as buffer solutions.
When they are mixed together, a chemical reaction occurs. This chemical reaction is called neutralisation reaction. It is called so because they both neutralise each other to produce a salt and water. Also remember the following points.When a strong acid and weak base are mixed, the salt formed is an acidic salt.When a strong base and weak acid are mixed, the salt formed is a basic salt.When both the acid and base are strong, then the salt formed is a neutral salt .
It is difficult to determine the end point of such a titration, because the titration produces a buffer solution that changes its pH very slowly at the end point, in contrast to reaction between a strong acid and strong base.
The buffer capacity of a strong base is directly proportional to the concentration of hydroyxl ions. Buffer capacity = 2.303 x [OH-]
The strong acid could cause an exothermic reaction (produce a lot of heat) Weak acid do the same, but do not produce such a strong exothermic reaction. Acid in Water might be a thrill Water in Acid could be rather unpleasant. Regards.
No, NaOH is a strong base and NaCl is the salt of a strong acid and a strong base and so has no acidic or basic properties. A buffer solution requires an acidic or basic salt and the corresponding weak acid or base.
One major difference between the two processes is that solvolysis is a chemical reaction in which strong bonds are formed between. The solute & solvent. However, solvation although a chemical reaction can be regarded as a mere association or interaction of the solute and the solvent resulting in weak chemical bonding... Uju(Nig)
This does not make a buffer because HBr is a STRONG acid, and for a buffer you need a WEAK acid and the salt of the acid.
Solutions that resist change in pH when added to a strong acid or base are known as buffer solutions.
When they are mixed together, a chemical reaction occurs. This chemical reaction is called neutralisation reaction. It is called so because they both neutralise each other to produce a salt and water. Also remember the following points.When a strong acid and weak base are mixed, the salt formed is an acidic salt.When a strong base and weak acid are mixed, the salt formed is a basic salt.When both the acid and base are strong, then the salt formed is a neutral salt .
It is difficult to determine the end point of such a titration, because the titration produces a buffer solution that changes its pH very slowly at the end point, in contrast to reaction between a strong acid and strong base.
It is difficult to determine the end point of such a titration, because the titration produces a buffer solution that changes its pH very slowly at the end point, in contrast to reaction between a strong acid and strong base.
A buffer solution is one involving a weak base/weak acid with its conjugate acid/base. In a buffer solution, the pH must be changed to only a small amount. Thus, any solution with a STRONG acid or a STRONG base is not a successful buffer solution because there would be a relatively large change in the initial pH.
It is directly proportional to the concentration of hydrogen ions. Buffer capacity = 2.303 x [H3O+]
You think probable to a solution with a high concentration of the solute.