BaF_2(s) dissolves in water to form Ba^2+_aq and F^-_aq with a solubility constant K_sp = 1.7...
Write a solubility product constant expression, K_sp, for an equilibrium in a saturated aqueous solution of the slightly soluble salts Magnesium fluoride, MgF_2 Zinc phosphate, Zn_3(PO_4)_2 Chromium(II) hydroxide, Cr(OH)_3 Strontinum sulfate, SrSO_4. Calculate the solubility in g/L for calcium carbonate, CaCO_3, in pure water given the K_sp = 2.8 times 10^-9. Calculate the solubility in g/L for CaCO_3, in 0.050 M Na_2CO_3.
Hydroxylapalite. Ca_10(PO_4)_6(OH)_2, has a solubility constant of K_sp = 2.34 times 10^-59, and dissociates according to Solid hydroxylapalite is dissolved in water to form a saturated solution. What is The concentration a Ca2* in this solution if [OH^-] is somehow fixed at 6.80 times 10^-6 M?
A student dissolves calcium carbonate solids, CaCO_3(s) in distilled water. K_sp = 5.0 times 10^-9 a) Calculate the molar solubility of calcium carbonate in distilled water. Express your answer in gram per litre b) How would the answers in a) change if the student dissolved CaCO_3 in 0.01 mol/L solution of Na_2CO_3(aq) c) The student mixes 0.0140 g of CaO solids with 0.0265 g of Na_2CO_3 solids in 1.0 L of water solids are soluble in water). Predict whether precipitate...
The solubility product constant for Ba(IO3)2 is 1.57×10-9 at 25 oC. What is the molar concentration of IO3- ions in a saturated solution of Ba(IO3)2? Assume an ideal solution at 25 oC. How many grams of Ba(IO3)2 (487.1 g/mol) can be dissolved in 1000 mL of pure water at 25 oC? How many grams of Ba(IO3)2 can be dissolved in 1000 mL of a 0.100 M KIO3 solution at 25 oC? Use activities for this calculation.
A determination the molar solubility and the K_sp calcium hydroxide was completed according to the experimental procedure. The following data were collccicd for Trial 1 (Sec Repon sheet. minations. Record the calculated values to the correct number of significant ligures. A. Molar Solubility and Solubility Product of Calcium Hydroxide 1.Volume of saturated Ca(OH)_2 solution (mL) 2.Molar concentration of standard HCI solution (mol/L) 3.Buret reading, initial (mL) 4.Buret reading, final (mL) 5.Volume of HCI added (mL) 6.Moles of HCI added (mol)...
The solubility of CaCO_3 is pH dependent, Calculate the molar solubility of CaCO_3 (K_sp = 4.5 times 10^-9) neglecting the acid-base character of the carbonate Ion. Use the K_b expression for the CO_3^2- ion to determine the equilibrium constant for the reaction CaCO_3(s) + H_2O(l) equilibrium Ca^2 (aq) + HCO_3^-(aq) + OH^- (aq) If we assume that the only sources of Ca^2+, HCO_3^-, and OH^- ions are from the dissolution of CaCO_3, what is the molar solubility of CaCO_3 using...
The molarity of SO_4^-2 in a saturated solution of Gd_2 (SO_4)_3 is: (K_sp = 1.4 times 10^-4) 0.56 0.2M 0.056M 0.42M e) 0 The vapor pressure of an aqueous solution of glucose (C_6H_12O_6) is equal to vapor pressure of water less than vapor pressure of pure water more than vapor pressure of pure water none of above Standard hydrogen electrode (SHE) has an arbitrarily fixed potential 1.00 volt 0.00 volt 0.10 volt 10 volt
A) A student measures the molar solubility of calcium carbonate in a water solution to be 6.35×10-5 M. Based on her data, the solubility product constant for this compound is B) A student measures the CrO42- concentration in a saturated aqueous solution of calcium chromate to be 2.74×10-2 M. Based on her data, the solubility product constant for calcium chromate is
Hydroxyapatite, Ca10(PO4)6(OH)2 , has a solubility constant of Ksp = 2.34×10−59 , and dissociates according to Ca10(PO4)6(OH)2(s)↽−−⇀10Ca2+(aq)+6PO3−4(aq)+2OH−(aq) Solid hydroxyapatite is dissolved in water to form a saturated solution. What is the concentration of Ca2+ in this solution if [OH−] is fixed at 1.40×10−6 M ?
Hydroxyapatite, Ca10(PO4)6(OH)2 , has a solubility constant of Ksp = 2.34×10−59 , and dissociates according to Ca10(PO4)6(OH)2(s)↽−−⇀10Ca2+(aq)+6PO3−4(aq)+2OH−(aq) Solid hydroxyapatite is dissolved in water to form a saturated solution. What is the concentration of Ca2+ in this solution if [OH−] is fixed at 6.20×10−6 M ? [Ca2+]=