Determine the pH of the following solutions.
(a) 0.00881 M LiOH
(b) 0.0616 M perchloric acid
(c) 0.151 M benzoic acid Ka 6.5*10^-5
(d) 0.257 M aniline Kb 3.9*10^-10
(e) 1.25 M NaCN
(f) 2.02 M C5H5NHCl
Determine the pH of the following solutions. (a) 0.00881 M LiOH (b) 0.0616 M perchloric acid...
Determine the pH of each of the following solutions. (a) 0.410 M propionic acid (weak acid with Ka = 1.3e-05). (b) 0.122 M benzoic acid (weak acid with Ka = 6.3e-05). (c) 0.867 M pyridine (weak base with Kb = 1.7e-09).
Determine the pH of each of the following solutions. (a) 0.492 M carbonic acid (weak acid with Ka = 4.3e-07). (b) 0.770 M benzoic acid (weak acid with Ka = 6.3e-05). (c) 0.697 M pyridine (weak base with Kb = 1.7e-09).
Determine the pH of each of the following solutions. (a) 0.213 M boric acid (weak acid with Ka = 5.8e-10). (b) 0.394 M phenol (weak acid with Ka = 1.3e-10). (c) 0.869 M pyridine (weak base with Kb = 1.7e-09).
Determine the pH of each of the following solutions. (a) 0.532 M phenol (weak acid with Ka = 1.3e-10). (b) 0.277 M hypobromous acid (weak acid with Ka = 2.5e-09). (c) 0.713 M pyridine (weak base with Kb = 1.7e-09).
Determine the pH of each of the following solutions. (a) 0.416 M hypobromous acid (weak acid with Ka = 2.5e-09). pH = ___________ (b) 0.644 M ascorbic acid (weak acid with Ka = 8e-05). pH = ___________ (c) 0.703 M pyridine (weak base with Kb = 1.7e-09). pH = ___________
Determine the pH of each of the following solutions. (a) 0.607 M hydrosulfuric acid (weak acid with Ka = 9.5e-08). (b) 0.155 M hypoiodous acid (weak acid with Ka = 2.3e-11). (C) 0.549 M pyridine (weak base with Kb = 1.7e-09).
Determine the pH of each of the following solutions. (a) 0.571 M carbonic acid (weak acid with Ka = 4.3e-07). (b) 0.332 M propionic acid (weak acid with Ka = 1.3e-05). (c) 0.308 M pyridine (weak base with Kb = 1.72-09).
Determine the pH of each of the following solutions. (a) 0.807 M hypochlorous acid (weak acid with Ka = 3e-08). (b) 0.672 M hypoiodous acid (weak acid with Ka = 2.3e-11). (c) 0.807 M pyridine (weak base with Kb = 1.7e-09).
1. Complete an ICE table and calculate the pH for the following solutions. a. 0.50 M HC,H,O2 (benzoic acid, Ka = 6.5 x 10) b. 0.10 M CH3NH2 (methylamine, Kb 4.4 x 10) c. 0.50 M NaC7H,O2 (Sodium benzoate) d. 0.10 M CH3NH3CI (methylammonium choride) e. 0.10 M Na2SO4 (sodium sulfate; Ka2 for H2SO4 0.012) 2. What is an amphoteric species? Provide an example of an amphoteric species and write balanced equations that show why it's amphoteric.
A benzoic acid/potassium benzoate buffer solution has a pH = 4.25. The concentration of benzoic acid (C6H5COOH, Ka = 6.5 × 10-5) in the solution is 0.54 M. What is the concentration of potassium benzoate (KC6H5COO, Kb = 1.5 × 10-10) in this buffer solution?