The pH that results when a strong acid and strong base are mixed will depend on the moles of acid and moles of base present. One cannot predict the pH without knowing, or being able to calculate, the moles of each.
No, a strong acid and a weak base will not produce a neutral salt. Instead, the resulting salt will be acidic because the anion from the weak base does not fully neutralize the strong acid. This typically leads to a solution that is acidic when the salt is dissolved in water.
Dimethylamine is actually a weak base, not a strong acid. It is a derivative of ammonia and can accept protons in solution, making it a base.
Dissolved carbon dioxide in water (carbonic acid) is weak acid.
1.FeSO4 dissociation in water produces more H ions which is acidic. 2.FeSO4 is formed by strong acid and weak base. 3.Sulfuric acid is strong acid and ferric hydroxide is weak base. 4.As the strong acid and weak base combines it results in the formation of acidic salt. H2SO4+Fe(OH)2 gives FeSO4+2H2O
When mixing a strong base with a weak acid, the strong base will completely neutralize the weak acid, resulting in the formation of water and a salt. The pH of the solution will be higher than 7 due to the remaining excess of hydroxide ions from the base.
NaHCO3 is a weak base, with a conjugate acid of H2CO3+.
It is the product of a strong acid and a weak base, but is itself a mildly acidic salt.
If acid is strong then its conjugate base must be weak, if conjugate base is strong it again accept the H+ ions so acid can neither be strong, similarly if base is strong its conjugate acid must be weak.
The solution at the endpoint of an acid-base titration involving a weak acid and a strong base will be alkaline. This is because the weak acid will have been neutralized by the strong base, resulting in excess hydroxide ions in the solution causing it to be alkaline.
CH3COOH is a acid. It is a weak acid.
b) The conjugate acid of a weak base is a weak acid. When a base accepts a proton to form its conjugate acid, it tends to be a weak acid because it does not easily donate a proton back. This relationship is governed by the principles of acid-base equilibrium.
Acetic acid (CH3COOH) is a weak acid and sodium hydroxide (NaOH) is a strong base.
When a weak acid and a strong base combine, the resulting solution will be basic because the strong base will completely neutralize the weak acid. The pH of the solution will be higher than 7.
CoCO3 (Cobalt II carbonate) would be a weak base.
NH3 is a weak base, but H2CO3 ( carbonic acid ) is not a strong acid. It is a weak acid.
it is a non electrolyte C2H5OH is not a base, its an alcohol, ETHYL ALCOHOL so its just an alcohol
A weak acid can be neutralized effectively by adding a strong base to it. The strong base will react with the weak acid to form water and a salt, which will result in the neutralization of the acid.