When an acid reacts with an alkali, it produces water and a salt. In some cases, this reaction may also produce carbon dioxide gas, depending on the specific acid and alkali involved.
To neutralize an acid, you can add a base. For example, mixing vinegar (an acid) with baking soda (a base) creates carbon dioxide gas and water. To neutralize an alkali, you can add an acid. For instance, mixing a solution of sodium hydroxide (an alkali) with hydrochloric acid would form water and a salt.
Adding an acid to an alkali produces a salt and water through a neutralization reaction. The H+ ions from the acid react with the OH- ions from the alkali to form water, while the anion from the acid combines with the cation from the alkali to form a salt.
Lithium hydroxide is considered a strong alkali because it readily dissociates in water to produce hydroxide ions, which makes the solution basic. It does not act as an acid in aqueous solutions.
Neutralization involves mixing an alkali with an acid to form a salt and water. The pH value of the alkali will decrease as the acid neutralizes the alkalinity, resulting in a decrease in pH towards a more neutral level closer to 7.
When an acid reacts with an alkali, it produces water and a salt. In some cases, this reaction may also produce carbon dioxide gas, depending on the specific acid and alkali involved.
To neutralize an acid, you can add a base. For example, mixing vinegar (an acid) with baking soda (a base) creates carbon dioxide gas and water. To neutralize an alkali, you can add an acid. For instance, mixing a solution of sodium hydroxide (an alkali) with hydrochloric acid would form water and a salt.
Neutralize, you mean :) An equal amount of an acid and an alkali will neutralize to produce water and a corresponding salt. ;)
Adding an acid to an alkali produces a salt and water through a neutralization reaction. The H+ ions from the acid react with the OH- ions from the alkali to form water, while the anion from the acid combines with the cation from the alkali to form a salt.
Lithium hydroxide is considered a strong alkali because it readily dissociates in water to produce hydroxide ions, which makes the solution basic. It does not act as an acid in aqueous solutions.
Neutralization involves mixing an alkali with an acid to form a salt and water. The pH value of the alkali will decrease as the acid neutralizes the alkalinity, resulting in a decrease in pH towards a more neutral level closer to 7.
it is complete alkali
it is complete alkali
acid
Actually, when an acid and alkali react, it is called a neutralization reaction. This reaction results in the formation of water and a salt. Combustion involves the reaction of a substance with oxygen to produce heat and light.
alkali is used to reduce acid and acid is used to reduce alkali
No, an alkali is not an acid. Alkalis are compounds that can neutralize acids, while acids are substances that release hydrogen ions in a solution.