Use the solubility-product constant for Cr (OH) 3 ( Kp = 6.7 × 10-31) and the formation constant for Cr (OH) , trom the following table to determine the concentration of Cr (OH) , in a solution that is buffered at pH= 10 and is in equilibrium with solid Cr (OH) 3. Table Formation Constants for Some Metal Complex lons in Water at 25 °C

Use the solubility-product constant for CrCr (OH)(OH) 33 ( KspKsp = 6.7×10−316.7×10−31) and the formation constant for CrCr (OH)(OH) −44− from the following table to determine the concentration of CrCr (OH)(OH) −44− in a solution that is buffered at pHpH= 10 and is in equilibrium with solid CrCr (OH)(OH) 33.
Table Formation Constants for Some Metal Complex Ions in Water at 25 ∘C

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Chrome File Edit View History Bookmarks Profiles Tab Window Help 37% Fri 7:41 AM Pre Lab 7 MyLab and Mastering (1337) Todavia Me An X× Assignments Search results for 'Use th × X Mathway | Precalculus Pr X + A openvellum.ecollege.com/course.html?courseld=16955174&OpenVellumHMAC=de4201dd8d22adfcbf5f054e6ab39d50#10301 Update : Apps Gmail YouTube Maps Reading List KHomework Ch17 - Attempt 1 Assignments Problem 17.101 10 of 15 > Scores Use the solubility-product constant for Cr (OH) 3 (Ksp = 6.7 × 10-31) and the formation constant for Cr (OH) ī from the following table to determine the concentration of Cr (OH) , in a solution that is buffered at pH= 10 and is in equilibrium with solid Cr (OH) 3. Table Formation Constants for Some Metal Complex lons in Water at 25 ° C 4 Course Tools > Custom eText Complex lon Equilibrium Equation Gradebook Ag(NH3); 1.7 x 107 |Ag+ (aq) + 2NH3 (ag) = Ag(NH3), (aq) Ag(CN), Ag(S2O3); 2.9 x 1013 Ag* (aq) + 2S20 (aq) = Ag(S,03) (aq) CdBr 1 x 1021 Ag* (ag) + 2CN (ag) = Ag(CN), (ag) User Settings Instructor Tools 5 x 103 Cd²+ (ag) + 4B1¯ (aq) = CdBr (ag) Cr(OH), 8 x 1029 Cr3+ (aq) + 40H¯ (aq) = Cr(OH), (aq) Co(SCN);- |1× 103 Cu(NH3),+ 5 x 1012 Co²+ (ag) + 4SCN (aq) = Co(SCN); (ag) Cu?+ (ag) + 4NH3 (ag) = Cu(NH3);* (ag) Cu(CN);- 1 x 1025 Cu?+ (ag) + 4CN (ag) = Cu(CN); (ag) Ni(NH3);+ 1.2 x 10° Ni²+ (ag) + 6NH3 (ag) = Ni(NH3),* (aq) Fe(CN); Fe(CN); 4– Fe?+ (ag) + 6CN (ag) = Fe(CN3) (aq) Fe(CN), (ag) 1 × 1035 1 × 1042 Fe+ (aq) + 6CN (aq) Express your answer using two significant figures. ΑΣφ ? C = M Pearson 咖T0 OCT 1 PAGES 15 SIMCITY DELUXE LO