HBRO (aq) + H2O (1) = H3O* (ag) + BrO" (aq) a) Hypobromous acid dissociates in water according to the above process. In a 0.50 M HBRO (aq) solution [BrO"] was found to be 3.5 x 10$ M at 25°C. I. Find the Ka value for hypobromous acid, HBRO at 25°C. [H30][Bro] [HB O] [3.5x10 s] Co.50] II. Find the K, value for the Bro" ion at 25°C. Kb= [0.so] [3. Sx10-s] III. Calculate the pH of the solution. - log 0.s 3. Sx10

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HBRO (aq) + H20 (1) H30* (ag) + BrO (aq) a) Hypobromous acid dissociates in water according to the above process. In a 0.50 M HBrO (aq) solution [BrO] was found to be 3.5 x 10³ M at 25°C. I. Find the Ka value for hypobromous acid, HBRO at 25°C. [H;0][Bro] [3.5x10-S [HB O] Co.s0] II. Find the K, value for the BrO" ion at 25°C. Kb= [0.s0] [3. Sx10-s] II. Calculate the pH of the solution. - log 3. Sx10-s 0.S IV. f1.00 L of 1.0 M acetic acid (Ka = 1.8 x 10° at 25°C) was mixed with 1.00 L of 1.0 M hypobromous acid, which conjugate base would have the highest concentration? Justify your answer. alue

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c) Solid potassium fluoride is added to water. I. Write the chemical equation for the reaction that occurs. KF + H20 → KH, + FO П. Will the final solution be acidic or basic? Justify your answer. The solution would be more basic because addmg water will dilute the acid