2. The pH of a 1.53 M solution of a weak base B is measured to be 10.74 Determine Kb of the base Determine K, of the weak bases's conjugate acid, HB* Determine (H+] in a 2.00 M solution of the chloride salt, HBCI Determine the pH of a 2.00 M solution of the chloride salt, HBCI
2. The pH of a 1.79 M solution of a weak base B is measured to be 11.64 Determine Kb of the base Determine Ka of the weak bases's conjugate acid, HB+ Determine [H+] in a 2.00 M solution of the chloride salt, HBCl M Determine the pH of a 2.00 M solution of the chloride salt, HBCl
9.34 correct 1/1 2. The pH of a 1.66 M solution of a weak base B is measured to be 10.51 Determine Kb of the base no answer given 0/1 Determine K, of the weak bases's conjugate acid, HB no answer given 0/1 Determine [H*] in a 2.00 M solution of the chloride salt, HBCI M no answer given 0/1 Determine the pH of a 2.00 M solution of the chloride salt, HBCI no answer given 0/1 Your grade will...
1.A 1.76 M solution of a weak acid HA is found to have a pH of 2.22 Determine Kg of the acid Determine Kb of its conjugate base, A Determine [OH'] in a 2.00 M solution of the weak acid's sodium salt, NaA M Determine the pH of a 2.00 M solution of the sodium salt, NaA 2.The pH of a 1.93 M solution of a weak base B is measured to be 10.82 Determine Kp of the base Determine...
1.A 1.76 M solution of a weak acid HA is found to have a pH of 2.22. Determine K, of the acid 0.000021 correct 1/1 Determine Kb of its conjugate base, A .00000000 incorrect 0/1 Determine (OH') in a 2.00 M solution of the weak acid's sodium salt, NaA 0.000031 M correct 1/1
Need help with part c and d 1. A 1.67 M solution of a weak acid HA is found to have a pH of 2.37 Determine K2a of the acid 1.1E-5 correct 1/1 Determine Kb of its conjugate base, A 9.2E-10 correct 1/1 Determine [OH] in a 2.00 M solution of the weak acid's sodium salt, NaA 8.96 M incorrect 0/1 Determine the pH of a 2.00M solution of the sodium salt, NaA 1.10E-9 incorrect 0/1
1. A 2.03 M solution of a weak acid HA is found to have a pH of 2.10. Determine K, of the acid Determine Kb of its conjugate base, A Determine (OH') in a 2.00 M solution of the weak acid's sodium salt, NaA M Determine the pH of a 2.00 M solution of the sodium salt, NaA
1. A 1.57 M solution of a weak acid HA is found to have a pH of 2.30. Determine K, of the acid Determine Ko of its conjugate base, A Determine (OH) in a 2.00 M solution of the weak acid's sodium salt, NaA Determine the pH of a 2.00 M solution of the sodium salt, NaA
1. A 1.31 M solution of a weak acid HA is found to have a pH of 2.09. Determine K, of the acid Determine K of its conjugate base, A Determine OH Jin a 2.00 M solution of the weak acid's sodium salt, NaA Determine the pH of a 2.00 M solution of the sodium salt, NaA
a)Calculate the pH of a weak base solution ([B]0 > 100 • Kb). Close Problem Calculate the pH of a 0.289 M aqueous solution of triethanolamine (C6H15O3N, Kb = 5.8×10-7) and the equilibrium concentrations of the weak base and its conjugate acid. pH = [C6H15O3N]equilibrium = M [C6H15O3NH+]equilibrium = M b) Calculate the pH of a 0.0338 M aqueous solution of dimethylamine ((CH3)2NH, Kb = 5.9×10-4) and the equilibrium concentrations of the weak base and its conjugate acid. pH = ...