a saturated solution of mg(oh)2is prepared and allowed to equilibriate at 25 C. a 25 mL sample of the 25 C solution is titrated with .00508M HCL solution. 1.38 mL of the HCL solution are required to fully react the solution sample
A. Determine the molar solubility of mg(oh)2
B. Calculate Ksp for mg(oh)2
C. Calculate ∆G for mg(oh)2
D. what additional measurements would be required in order to determine ∆H and ∆S for mg(oh)2
a saturated solution of mg(oh)2is prepared and allowed to equilibriate at 25 C. a 25 mL...
A titration is performed with a 25 mL analyze saturated solution of manganese (II) hydroxide with methyl orange indicator, titrated with .0045 M HCl. The end point was reached after 8.72 mL of HCl was added. a) What is the molar concentration of OH b) Calculate Ksp for the magnese hydroxide c) What is the molar solubility of the manganese hydroxide?
Trial 1 Data 1. Volume of saturated Ca(OH)2 solution (mL) 25.00 2. Molar concentration of standard HCl solution (mL) 0.0480 3. Buret reading, initial (mL) 1.70 4. Buret reading, final (mL) 13.90 Calculate the molar solubility and Ksp for calcium hydroxide based on the table information provided. Molar Solubility Ksp For trials 2 and 3, the Ksp of Ca(OH)2 was and respectively. What is the percent relative standard deviation (%RSD) of the three trials?
a Saturated solution of magnesium hydroxide is prepared and the excess solid magnesium hydroxide is allowed to settle. A 25ml aliquot of the saturated solution is withdrawn and transferred to an Erlenmeyer flask, and two drops of methyl orange indicator are added. A 0.00053 M HCl solution(titrant) is dispensed from a buret into the solution (analyte). The solution turns from yellow to a very faint red-orange after the addition of 13.2ml a. How many moles of hydroxide ion are neutralized...
A saturated solution of manganese(II) hydroxide was prepared, and an acid–base titration was performed to determine its Ksp at 25 °C. The endpoint was reached when 75.00 mL of the manganese(II) hydroxide solution was titrated with 2.21 mL of 0.0030 M HCl solution. What is the Ksp of manganese(II) hydroxide?
A saturated solution of manganese(II) hydroxide was prepared, and an acid–base titration was performed to determine its Ksp at 25 °C. The endpoint was reached when 75.00 mL of the manganese(II) hydroxide solution was titrated with 2.00 mL of 0.0040 M HCl solution. What is the Ksp of manganese(II) hydroxide?
A saturated solution of manganese(II) hydroxide was prepared, and an acid–base titration was performed to determine its Ksp at 25 °C. The endpoint was reached when 60.00 mL of the manganese(II) hydroxide solution was titrated with 4.33 mL of 0.0030 M HCl solution. What is the Ksp of manganese(II) hydroxide?
A saturated solution of manganese(II) hydroxide was prepared, and an acid–base titration was performed to determine its Ksp at 25 °C. The endpoint was reached when 35.00 mL of the manganese(II) hydroxide solution was titrated with 4.23 mL of 0.0050 M HCl solution. What is the Ksp of manganese(II) hydroxide?
A saturated solution of manganese(II) hydroxide was prepared, and an acid–base titration was performed to determine its Ksp at 25 °C. The endpoint was reached when 45.00 mL of the manganese(II) hydroxide solution was titrated with 4.31 mL of 0.0020 M HCl solution. What is the Ksp of manganese(II) hydroxide?
A saturated solution of manganese(II) hydroxide was prepared, and an acid–base titration was performed to determine its Ksp at 25 °C. The endpoint was reached when 75.00 mL of the manganese(II) hydroxide solution was titrated with 4.95 mL of 0.0010 M HCl solution. What is the Ksp of manganese(II) hydroxide?
A saturated solution of manganese(II) hydroxide was prepared, and an acid-base titration was performed to determine its Ksp at 25 degrees C. The endpoint was reached when 40.00 mL of the manganese(II) hydroxide solution was titrated with 3.34 mL of 0.0020 M HCl solution. What is the Ksp of manganese(II) hydroxide?