Advertisements
Advertisements
प्रश्न
Identify the conjugate acid-base pair for the following reaction in an aqueous solution.
\[\ce{NH^+_4 + CO^{2-}_3 ⇌ NH3 + HCO^-_3}\]
Advertisements
उत्तर
| Acid (Acid1) |
Conjugate base (Base1) |
Base (Base2) |
Conjugate acid (Acid2) |
|
| Forward reaction | \[\ce{NH^+_4}\] | \[\ce{NH3}\] | \[\ce{CO^{2-}_3}\] | \[\ce{HCO^-_3}\] |
| Backward reaction | \[\ce{HCO^-_3}\] | \[\ce{CO^{2-}_3}\] | \[\ce{NH3}\] | \[\ce{NH^+_4}\] |
APPEARS IN
संबंधित प्रश्न
Answer the following in one sentence :
Why cations are Lewis acids?
For a reaction \[\ce{HCl_{(aq)} + H2O_{(l)} ⇌ H3O^+_{ (aq)} + Cl^-_{ (aq)}}\]
Which of the following is a conjugate acid-base pair?
The conjugate acid of \[\ce{HSO^-_4}\] is ____________.
According to the Bronsted-Lowry theory, an acid is a substance that ____________.
Which of these is not likely to act as Lewis base?
Discuss the Lowry – Bronsted concept of acids and bases.
Identify the conjugate acid-base pair for the following reaction in an aqueous solution.
\[\ce{HPO^{2-}_4 + SO^{2-}_3 ⇌ PO^{3-}_4 + HSO^-_3}\]
Define conjugate acid-base pair.
Vinegar contains ______ acid.
Define acids according to Bronsted-Lowry theory.
