A buffer solution is made by adding 1.00M weak acid (pKa=4.45) to 1.25M solution of its conjugate base to make 100 mL of buffer solution. Calculate the pH after 75.0 mL of 0.725 M strong acid has been added.
Given that:
A buffer solution is made by adding 1.00M
weak acid (pKa=4.45) to 1.25M solution of its conjugate base to
make 100 mL of buffer solution.
A buffer solution is made by adding 1.00M weak acid (pKa=4.45) to 1.25M solution of its...
A buffer solution is made by adding 1.00 M weak acid (pKa = 4.45) to 1.25 M solution of its conjugate base to make 100 mL of buffer solution. Calculate the pH after 75.0 mL of 0.725 M strong acid has been added.
A buffer is a solution that is a mixture of either a weak acid and its conjugate base or a weak base and its conjugate acid. When strong acids or strong bases are added, buffers either accept protons when they are in excess or donate protons when they have been depleted to minimize changes in pH. Which of the statements correctly describe the properties of a buffer? Select one or more: a. The weak base of an alkaline buffer will...
Calculate pH of a weak acid/conjugate base buffer solution. 1. a) Calculate the pH of 650. mL of a 0.211-M solution of acetic acid before and after the addition of 0.123 mol of potassium acetate. pH befor addition = pH after addition = 1 b) Calculate pH of a weak base/conjugate acid buffer solution. A 0.190-M aqueous solution of C2H5NH2 (ethylamine) has a pH of 11.9. Calculate the pH of a buffer solution that is 0.190 M in C2H5NH2 and...
Design a buffer that has a pH of 4.45 using one of the weak base/conjugate acid systems shown below. Weak Base Kb Conjugate Acid Ka pKa CH3NH2 4.2×10-4 CH3NH3+ 2.4×10-11 10.62 C6H15O3N 5.9×10-7 C6H15O3NH+ 1.7×10-8 7.77 C5H5N 1.5×10-9 C5H5NH+ 6.7×10-6 5.17 How many grams of the chloride salt of the conjugate acid must be combined with how many grams of the weak base, to produce 1.00 L of a buffer that is 1.00 M in the weak base? grams chloride...
A buffer solution is made by adding 75.52 mL of 1.00 M phosphoric acid (H3PO4, pKa = 2.12) with 10.00 mL of 1.00 M sodium dihydrogen phosphate (NaH2PO4, pKa = 7.21). What is the pH of the buffer solution?
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.
1.A buffer solution is made using a weak acid, HA , that has a pKa of 5 . If the pH of the buffer is 8 , what is the ratio of [A−] to [HA] ? 2. A buffered solution containing dissolved aniline, C6H5NH2, and aniline hydrochloride, C6H5NH3Cl, has a pH of 5.40. A. Determine the concentration of C6H5NH3+ in the solution if the concentration of C6H5NH2 is 0.320 M.. The pKb of aniline is 9.13. B. Calculate the change...
A buffer solution is made by adding 10 mL of 2M NaOH to 50mL of a weak acid HA. The pKa of HA is 3.42, and the activity coefficient of the weak acid is 1.6 and the activity coefficient of the weak base is 0.75. If the pH of the resulting solution is 4.59, what was the concentration of the original HA solution?
A buffer system (pKa = 5) is composed of 0.1 moles of weak acid and 0.05 moles of the conjugate base. What is the pH of the system after the addition of 0.07 moles of a strong base?
A buffer is made by adding 0.350 mol lactic acid, CH3CH(OH)COOH, and 0.350 mol potassium lactate, CH3CH(OH)COOK, to enough water to make 1.10 L of solution. The pKa is equal to 4.24. Calculate the pH of this solution after 3.0 mL of 3.0 M KOH is added to the buffer.