They form water and a salt which is either soluble thus ionised, or as insoluble precipitate.
The ionic compound produced when a strong acid and strong base react is called a salt. It is formed as a result of the neutralization reaction between the acid and base, where the H+ ions from the acid combine with the OH- ions from the base to form water, leaving behind the positively and negatively charged ions of the salt.
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.
A strong acid dissolves to form H+ and an anion, and a strong base dissolves in water to form OH- and a cation. When they react, the H+ and OH- react, forming water (and usually a large amount of heat) the anion and cation may either react to form a precipitate (if the reaction yields an insoluble compound) or they remain suspended (if their compound would yield an already soluble compound). A strong acid when react with a strong base, a neutral compound is formed with the evolution of heat.
The pH at the equivalence point of a strong acid-strong base titration is 7, which is considered neutral because the strong acid (e.g., HCl) and strong base (e.g., NaOH) react completely to form water and a salt.
Buffers contain both one weak acid and its coupled weak base, that can not react with each other (they are a so-called conjugated system). When you add strong acid it will react with the base part of this buffer, when strong base (hydroxide) is added it will react with the acid.
They react by forming water and a salt which is either soluble thus ionised, or as insoluble precipitate.
The ionic compound produced when a strong acid and strong base react is called a salt. It is formed as a result of the neutralization reaction between the acid and base, where the H+ ions from the acid combine with the OH- ions from the base to form water, leaving behind the positively and negatively charged ions of the salt.
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.
A strong acid dissolves to form H+ and an anion, and a strong base dissolves in water to form OH- and a cation. When they react, the H+ and OH- react, forming water (and usually a large amount of heat) the anion and cation may either react to form a precipitate (if the reaction yields an insoluble compound) or they remain suspended (if their compound would yield an already soluble compound). A strong acid when react with a strong base, a neutral compound is formed with the evolution of heat.
When a strong acid and a strong base mix, all acidic protons will react with every basic molecule until one or the other runs out. The curve for a titration of a strong acid with a strong base will change slowly at first, and dramatically when the equivalence point (where the number of moles of acid is equal to the number of moles of base) is reached. The reaction, like all acid-base reactions, is fast.
The pH at the equivalence point of a strong acid-strong base titration is 7, which is considered neutral because the strong acid (e.g., HCl) and strong base (e.g., NaOH) react completely to form water and a salt.
Buffers contain both one weak acid and its coupled weak base, that can not react with each other (they are a so-called conjugated system). When you add strong acid it will react with the base part of this buffer, when strong base (hydroxide) is added it will react with the acid.
neutralized
When equivalent amounts of a strong acid and a strong base react, they neutralize each other to form water and a salt. The pH of the resulting solution will be 7, indicating it is neutral.
Yes, weak acids require more base to neutralize because they do not fully dissociate in solution, resulting in fewer available acid molecules to react with the base. Strong acids, on the other hand, fully dissociate in solution, providing more acid molecules to react with the base.
they form a neutralized substance.They form the salt.
When a strong acid mixes with a weak base, the acid will fully dissociate into ions while the weak base will partially react, leading to the formation of water and a salt. The resulting solution will be more acidic than basic due to the excess of hydrogen ions from the acid.