5.3 Acids, Bases & Buffers

Which of the following statements is/are correct?

1. The initial concentration of H₂CO₃ can be used to calculate K_a.
2. When calculating the K_a of H₂CO₃, [H⁺] equals [A^-] at equilibrium.
3. The value of K_a is independent of temperature. 

X g of potassium ethanoate was added to ethanoic acid to form a buffer solution with a final volume of 250 cm³ and a pH of 4.70. The final concentration of ethanoic acid was 0.40 mol dm^-3. K_a for ethanoic acid is 1.8 x 10^-5 mol dm^-3.

What was the mass of potassium ethanoate added?

A student has 0.72 mol dm^-3 of potassium hydroxide solution, a solution of sodium hydroxide with a pH of 13.4 and a solution of hydrogen cyanide with a pH of 4.20 and a K_a of 6.2 x 10^-10 mol dm^-3.

K_w = 1.00 x 10^-14 mol² dm^-6.

What is the pH of potassium hydroxide, the concentration of sodium hydroxide (mol dm^-3) and the concentration of hydrogen cyanide (mol dm^-3) respectively?

What is the pH of a buffer solution formed when 2.5 g of NaOH is added to 1.0 dm³ of 0.15 mol dm^-3 solution of ethanoic acid? K_a for ethanoic acid is 1.74 x 10^-5 mol dm^-3.

Which of the following is the pH of 0.08 mol dm^-3 Ba(OH)₂? 

(K_w = 1.00 x 10^-14 mol² dm^-6 at 25 ℃)

What is the pH of ethanoic acid with a concentration of 0.75 mol dm^-3 at 25 ^oC? 

(K_a of ethanoic acid at 25 ℃ = 1.78 x 10^-5 mol dm^-3)

The pH range of four different indicators are:

Which indicator would be suitable for a titration involving hydrochloric acid and ammonia?

What is the pH of a buffer solution containing 0.0413 moles of ethanoic acid and 0.0398 moles of sodium ethanoate in 500 cm³ at 25 ^oC? 

(K_a of ethanoic acid at 25 ℃ = 1.78 x 10^-5 mol dm^-3)

Which statement is correct for the following equation?

NH₄⁺ + OH^– ⇌ H₂O + NH₃

25.00 cm³ of 0.25 mol dm⁻³ nitric acid is added to 12.50 cm³ of 0.10 mol dm⁻³ sodium hydroxide.

What is the pH of the resulting mixture?