Write the equation for Keq for the following as a homogeneous equilibrium (only the aqueous phase) Complete the reaction Al(OH)3(s) <-> Al+3, + (aq) Calculate the Ksp for Al(OH)3(s), which is only slightly soluble in water, if a saturated solution contains [Al+³] = 0.110 M and [OH-¹] = 0.330 M [ ][ 1³ Ksp = Keq Ksp = ( X( the concentration of [OH-¹] is cubed because its coefficient is 3 b. hydrochloric c. phosphoric d. Al+3 a. acetic g. HF(aq) h. CaCO3(s) K. SO4² n. HPO42 0. H₂PO4-1 u. H₂O(liq) aa. 0.110 v. H₂CO3 bb. 0.330 hh. 11.3010 i. OH-1 p. CO3-² W. PO4³ cc. 3 ii. 0.01250 j. H30+1 q. HCO3-1 x. HC₂H302 dd. 2 jj. 0.22100 13 = ee. 1 kk. 0.05656 e. CO₂ I. Mg+2 S. HS-1 r. H₂S y. C₂H30₂-1 f. CaF2(aq) m. Cl-1 t. S-² Z. 1 x 10-14 ff. 2.000 x 10-3 gg. 3.95 x 10-3

Write the equation for Keq for the following as a homogeneous equilibrium (only the aqueous phase) Complete the reaction Al(OH)3(s) <-> Al+3, + (aq) Calculate the Ksp for Al(OH)3(s), which is only slightly soluble in water, if a saturated solution contains [Al+³] = 0.110 M and [OH-¹] = 0.330 M [ ][ 1³ Ksp = Keq Ksp = ( X( the concentration of [OH-¹] is cubed because its coefficient is 3 b. hydrochloric c. phosphoric d. Al+3 a. acetic g. HF(aq) h. CaCO3(s) K. SO4² n. HPO42 0. H₂PO4-1 u. H₂O(liq) aa. 0.110 v. H₂CO3 bb. 0.330 hh. 11.3010 i. OH-1 p. CO3-² W. PO4³ cc. 3 ii. 0.01250 j. H30+1 q. HCO3-1 x. HC₂H302 dd. 2 jj. 0.22100 13 = ee. 1 kk. 0.05656 e. CO₂ I. Mg+2 S. HS-1 r. H₂S y. C₂H30₂-1 f. CaF2(aq) m. Cl-1 t. S-² Z. 1 x 10-14 ff. 2.000 x 10-3 gg. 3.95 x 10-3

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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