Which concentration of a weak acid (HA) and its conjugate base (A-) will make a buffer solution whose pH value is equal to its pKa?
(HA) = 0.05 M, (A-) = 0.07 M
HA = 0.05 M, (A-) = 0.05 M
more than one answer is correct
HA = 0.05 M, (A-) = 0.01 M
Here is the solution of your question.If you have any doubt please comment in comment box.

Which concentration of a weak acid (HA) and its conjugate base (A-) will make a buffer...
19. A buffer contains a weak acid, HA, that is twice the concentration of its conjugate base, A. If the value of K, for HA is 1.0 x 10-5, what is the pH of the buffer?
u lal g uid. 19. A buffer contains a weak acid, HA, that is twice the concentration of its conjugate base, A . If the value of K, for HA is 1.0 x 10-5, what is the pH of the buffer? ale polution2
A buffer solution has pH=5 and pKa=5.3. a.What is the ratio of the weak acid concentration to its conjugate base that is needed to make a buffer of the given pH, [HA (aq)]/[A ̅ (aq)]? b.Propose what concentrations of acid and base you need to achieve that ratio?
Question 1 (2 points) The relationship between a weak acid and its conjugate base at the 1/2 neutralization point is: the weak acid's concentration is greater than the conjugate base concentration. the weak acid's concentration is less than the conjugate base's concentration the weak acid's concentration is 1/2 the concentration of the conjugate base's concentration the weak acid and conjugate base have the same concentration. Question 2 (3 points) ✓ Saved The pka of acid is 4.8. Determine the acid's...
A buffer solution is 0.151 M in a weak acid, and 0.371 M in its conjugate base. The pKa of the weak acid is 8.025. What is the pH of the buffer? Report your answer with 2 decimal places.
Consider a buffer composed of the weak acid HA and its conjugate base A?. Part A Which pair of concentrations results in the most effective buffer? Which pair of concentrations results in the most effective buffer? 0.90 M HA; 0.10 M A? 0.50 M HA; 0.50 M A? 0.10 M HA; 0.10 M A? 0.10 M HA; 0.90 M A?
When the concentrations of weak acid [HA] and its conjugate base [A-] are equal, what is the relationship between the pH and pKa based on the Henderson-Hasselback equation? pH < pKa pH = pKa pH > pKa
A buffer is made having a weak acid concentration of 0.50 M and a conjugate base concentration of 0.67 M. If the weak acid has a Ka of 4.5 x 10-6, what is the pH of the buffer? Answer with 3 sig figs.
A buffer containing 0.50 M of an acid (HA) and 0.10 M of its conjugate base (A–) has a pH of 10.30. Which of the following solutions will make a buffer with a pH of 11.30? A. A solution with [HA] = 0.25 M and [A–] = 0.10 M. B. A solution with [HA] = 0.50 M and [A–] = 0.50 M. C. A solution with [HA] = 0.10 M and [A–] = 0.50 M. D. A solution with [HA]...
Calculate the amounts in grams of weak acid and conjugate base
needed to make the buffer.
Buffers Concentration Volume Weak Acid Conjugate Base sodium acetate pH Ka acetic acid Buffer 1 500 mL 4.75