NH4NO3 is not an acid; it is an ammonium salt of nitric acid. When dissolved in water, NH4NO3 dissociates into ammonium ions (NH4+) and nitrate ions (NO3-), making it a neutral salt solution.
No, the conjugate of a strong base is a weak acid. The conjugate base of a strong acid is weak, while the conjugate acid of a strong base is weak.
When an acid is strong, its conjugate base will be weak, and vice versa. Similarly, when a base is strong, its conjugate acid will be weak, and when a base is weak, its conjugate acid will be strong. This relationship is known as the principle of conjugate pairs in acid-base reactions.
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.
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.
NH4NO3 is not an acid; it is an ammonium salt of nitric acid. When dissolved in water, NH4NO3 dissociates into ammonium ions (NH4+) and nitrate ions (NO3-), making it a neutral salt solution.
No, the conjugate of a strong base is a weak acid. The conjugate base of a strong acid is weak, while the conjugate acid of a strong base is weak.
When an acid is strong, its conjugate base will be weak, and vice versa. Similarly, when a base is strong, its conjugate acid will be weak, and when a base is weak, its conjugate acid will be strong. This relationship is known as the principle of conjugate pairs in acid-base reactions.
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 is neither a strong acid nor a weak acid, but it is considered a weak base. It is the chemical formula for calcium carbonate, which can react with acids to form salt and water.
CH3NH3 is a weak acid and exists in equilibrium with its conjugate base, CH3NH2. It does not fully dissociate in water.
it is a non electrolyte C2H5OH is not a base, its an alcohol, ETHYL ALCOHOL so its just an alcohol
BR- is a weak base since it is the conjugate base of a weak acid. It can accept protons in a reaction, making it a base.