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 strength of a weak acid is inversely related to the strength of its conjugate base. If an acid is weak, its conjugate base will be stronger and vice versa. This relationship follows the principle of the acid-base equilibrium constant, where the stronger the acid, the weaker its conjugate base.
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.
No, a strong base does not have a strong conjugate acid. Strong bases typically have weak conjugate acids since the strength of an acid-base pair is inversely related - strong acids have weak conjugate bases, and strong bases have weak conjugate acids.
A conjugate acid or base is typically strong if its parent compound is weak. For example, if an acid is strong (e.g., HCl), its conjugate base (Cl-) will be weak. Conversely, if an acid is weak (e.g., CH3COOH), its conjugate base (CH3COO-) will be strong. This relationship is based on the relative stability of the species after donating or accepting a proton.
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 strength of a weak acid is inversely related to the strength of its conjugate base. If an acid is weak, its conjugate base will be stronger and vice versa. This relationship follows the principle of the acid-base equilibrium constant, where the stronger the acid, the weaker its conjugate base.
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.
No, a strong base does not have a strong conjugate acid. Strong bases typically have weak conjugate acids since the strength of an acid-base pair is inversely related - strong acids have weak conjugate bases, and strong bases have weak conjugate acids.
A conjugate acid or base is typically strong if its parent compound is weak. For example, if an acid is strong (e.g., HCl), its conjugate base (Cl-) will be weak. Conversely, if an acid is weak (e.g., CH3COOH), its conjugate base (CH3COO-) will be strong. This relationship is based on the relative stability of the species after donating or accepting a proton.
No, NaH2PO4 is not a strong base. It is actually a weak acid and its conjugate base, Na2HPO4, is a weak base.
Yes, the conjugate acid of a strong base is typically stronger than water as strong bases have weak conjugate acids. The stronger the base, the weaker its conjugate acid is in comparison to water.
Assuming you are asking about the base I-, the conjugate acid is HI, hydroiodic acid. Since hydroiodic acid is a strong acid, it can be concluded that iodide (I-) is a weak conjugate base.
No, NO3- (nitrate ion) is a weak conjugate base of a strong acid (HNO3), so it does not exhibit any basic properties. It is a neutral ion in solution.
Yes, the conjugate base of a strong acid is typically a weak base because strong acids fully dissociate in solution, leaving behind a neutral species that does not readily accept protons to act as a base.
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.
NaH is a weak acid and therefore considered a strong conjugate base