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Monday, April 15, 2019

Limiting Reagents Lab Essay Example for Free

Limiting Reagents lab EssayProblem What mass of precipitate will form when 1.69g of CuCl2.2H20 reacts with 1.31g of aluminium? reflexion 3 Materials one hundred fifty mL beaker Erlenmeyer Flask 100ml Graduated Cylinder Funnel Scoopula Electronic Balance Stir Rod aluminum Foil CuCl2.2H20 Distilled WaterProcedure mean solar day 1 scrub beakerwith distilled water. plenitude 1.69g of CuCl2.2H2O. Add to beaker and add 50mL of distilled water. peck aluminum. Fold in 1/2 coil loosely. Place in beaker and let sit overnight. Day 2 Pull out Aluminum and rinse into beaker Mass percolate paper, put name on it Put paper in funnel and funnel into the Erlenmeyer flas. Pour in mixture. Rinse beaker three times. Rinse funnel and paper twice. Remove Paper and let dry overnight.Day 3 Mass filter paper data Collection and Processing (DCP)Aspect 1 Recording Raw DataMass of CuCl2.2H2O 1.93gMass of Al ? (The massing of the aluminum was bury) observational mass of precipitate = .69gAspect 2 Pr ocessing Data2Al(s) + 3CuCl2.2H2O 3Cu(s) + 6H2O(l) + 2AlCl3(aq)m Al=1.93gM Al= 26.98 g/ gram bulwarkeculem 3CuCl2.2H2o = 1.69 gM 3CuCl2.2H2o = 152.47 g/mol (Chem 20 Data Booklet)m Cu = ?n CuCl2.2H2O = 1.93g / 170.49 g/moln CuCl2.2H2O = .011320312 mol3 mol CuCl2.2H2O = 3 mols Cun Cu = .011320312 molm Cu = .011320312 mol x 63.55 g/molm Cu = .719g% yield = .69 / .719 = 96%Aspect 3Experimental mass of Cu(s) precipitate = .69gTheoretical mass of Cu (s) precipitate = .719g% yield = 96%Conclusion and military rating (CE)Aspect 1 Conclusion The mass of precipitate that forms when 1.93g of CuCl2.2H20 reacts with 1.31g of aluminum is .69 g. The % yield was 96%. The massing of aluminum was forgotten but when another piece was massed and the numbers were worked out, it was shown that there was an excess of aluminum and that the CuCl2.2H2O was the limiting reagent.Aspect 2 Evaluate There were .029g of Cu precipitate less than expected. It is likely that some of the copper went into the Erlenmey er or was stuck on the funnel. Despite thorough rinsing of the filter paper, some of the precipitate got through the filter paper and into the Erlenmeyer.Aspect 3 Improving Experimental Design Instead of one piece of filter paper, two pieces should be used. This would lead to less precipitate going into the Erlenmeyer. Also, the water in the Erlenmeyer could be re-filtered.

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