Question 1 (continued) In the second experiment, a student is given 2.94 g of a mixture containing anhydrous MgCl2 and KNO3. To determine the percentage by mass of MgCl2 in the mixture, the student uses excess AgNO3 (ag) to precipitate the chloride ion as AgCl (s). (d) Starting with the 2.94 g sample of the mixture dissolved in water, briefly describe the steps necessary to quantitatively determine the mass of the AgCl precipitate. (e) The student determines the mass of the AgCl precipitate to be 5.48 g. On the basis of this information, calculate each of the following. (i) The number of moles of MgCl2 in the original mixture (ii) The percent by mass of MgCl2 in the original mixture

Please answer parts d) and e). I already have the answers for parts a) to c).

Thank you!

Transcribed Image Text:

Question 1 (continued) In the second experiment, a student is given 2.94 g of a mixture containing anhydrous MgCl2 and KNO3. To determine the percentage by mass of MgCl2 in the mixture, the student uses excess AgNO3 (aq) to precipitate the chloride ion as AgCl (s). (d) Starting with the 2.94 g sample of the mixture dissolved in water, briefly describe the steps necessary to quantitatively determine the mass of the AgCl precipitate. (e) The student determines the mass of the AgCl precipitate to be 5.48 g. On the basis of this information, calculate each of the following. (i) The number of moles of MgCl2 in the original mixture (ii) The percent by mass of MgCl2 in the original mixture

Transcribed Image Text:

1) Answer the following question related to gravimetric analysis. This question continues on the next page. In the first of two experiments, a student is assigned the task of determining the number of moles of water in one mole of a hydrate of magnesium chloride. The student collects the data shown in the following table. 22.347 g Mass of empty container Mass of sample and container Mass of sample and container after first heating Mass of sample and container after second heating Mass of sample and container after third heating 25.825 g 23.982 g 23.976 g 23.977 g (a) Explain why the student can correctly conclude that the hydrate was heated a sufficient number of times in the experiment. (b) Use the data above to perform the following: (i) Calculate the total number of moles of water lost when the sample was heated. (ii) Determine the formula of the hydrated compound. (c) A different student heats the hydrate in an uncovered crucible, and some of the solid spatters out of the crucible. What effect will this spattering have on the calculated mass of the water lost by the hydrate? Justify your answer.