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19 Nov 2019
how do i do question #4?
Calculate the molar mass of oxalic acid dihydrate H_2C_2O_4 2H_2O. Rememberthat water molecules in a hydrate are part of the crystal structure and must be included when calculating molar mass. Use the molar mass to calculate the mass of oxalic acid dihydrate required to prepare mL of 0.050 M oxalic acid solution. Use the molar mass of oxalic acid calculated in question 1(a) to calculate the concentration (M) of a solution prepared by dissolving 1.587 g of oxalic acid dihydrate in sufficient eiomze water to prepare 250.0 mL of solution. A 25.00 mL portion of the solution prepared in the preceding problem is titrated to the end point with 13.60 mL of sodium hydroxide. Use the balanced chemical equation for the titration reaction, the concentration and volume of the oxalic acid solution and the end point of the titration to calculate the concentration of the sodium hydroxide solution. A 0.429 g portion of a monoprotic (one readable hydrogen ion) solid acid was dissolved in approximately 25 mL of water in an Erlcnmeycr flask. After the addition of one drop of phcnolphthalein indicator solution, the titrand solution was titrated with the standardized NaOH solution described in problem 3. The end point of the titration was 17.65 mL. a) By using HA to represent the acid, write the balanced chemical equation for the titration reaction, b) Use the concentration of NaOH calculated in problem 3 and the endpoint volume to calculate the number of moles of the titrated acid, c) Use the mass of the weighed acid and the number of moles of the acid to calculate the molar mass of the acid.
how do i do question #4?
Calculate the molar mass of oxalic acid dihydrate H_2C_2O_4 2H_2O. Rememberthat water molecules in a hydrate are part of the crystal structure and must be included when calculating molar mass. Use the molar mass to calculate the mass of oxalic acid dihydrate required to prepare mL of 0.050 M oxalic acid solution. Use the molar mass of oxalic acid calculated in question 1(a) to calculate the concentration (M) of a solution prepared by dissolving 1.587 g of oxalic acid dihydrate in sufficient eiomze water to prepare 250.0 mL of solution. A 25.00 mL portion of the solution prepared in the preceding problem is titrated to the end point with 13.60 mL of sodium hydroxide. Use the balanced chemical equation for the titration reaction, the concentration and volume of the oxalic acid solution and the end point of the titration to calculate the concentration of the sodium hydroxide solution. A 0.429 g portion of a monoprotic (one readable hydrogen ion) solid acid was dissolved in approximately 25 mL of water in an Erlcnmeycr flask. After the addition of one drop of phcnolphthalein indicator solution, the titrand solution was titrated with the standardized NaOH solution described in problem 3. The end point of the titration was 17.65 mL. a) By using HA to represent the acid, write the balanced chemical equation for the titration reaction, b) Use the concentration of NaOH calculated in problem 3 and the endpoint volume to calculate the number of moles of the titrated acid, c) Use the mass of the weighed acid and the number of moles of the acid to calculate the molar mass of the acid.
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Beverley SmithLv2
19 Nov 2019