Empirical Formula of magnesium oxide Date: Aim: The aim of this experiment was to determine the empirical formula of magnesium oxide. Equipment: . Balance. Crucible and lid.
Bunsen burner. magnesium ribbon (0. 2 g).
Steel wool. Crucible tongs.
Pipe clay triangle. Tripod Procedure: 1. Obtain a clean, dry crucible and lid, then heat them for approximately 5 minutes over a Bunsen burner 2. Clean the surface of a 20 cm strip of magnesium ribbon using steel wool 3. Coil the magnesium ribbon, so that it fits into the crucible 4. Weigh crucible and lid on a balance, and record the mass 5.
Place magnesium ribbon into crucible, replace the lid and weigh once more 6. Heat the crucible and its content with the lid off until the magnesium begins to glow 7. Replace the lid and heat the crucible strongly 8. Continue to heat the crucible, occasionally lifting the lid with tongs to provide oxygen for the reaction 9. When all magnesium has reacted, remove the lid and heat strongly for 5 minutes 10. Replace crucible lid and allow to cool 11.
The Term Paper on Magnesium Oxide Chemistry Report
In chemistry, compounds can be distinguished by using the empirical formula. The formula provides the simplest positive integer ratio of elements in a compound. The empirical formula is largely useful in determining the ratio of elements within ionic compounds where the structure is of a non-directional nature of bonding where any ion at any time could be surrounded by 4, 6, or 8 oppositely ...
Reweigh the crucible with its contents and lid Observations: Once the magnesium was in the crucible and was being heated by the Bunsen burner, it glowed for a brief time. It then caught fire before the lid was placed on top. When it came into contact with the oxygen, the magnesium started glowing extremely bright, and intensely white. The glow became orange after some time.
The magnesium ribbon then turned white. Results: Mass of crucible and lid 29. 9 g Mass of crucible, lid and magnesium 30. 1 g Mass of magnesium 0. 2 g Mass of crucible, lid and magnesium oxide 30. 3 g Mass of magnesium oxide 0.
4 g Mass of oxygen combined with magnesium 0. 2 g Questions: 1. a) The mass of magnesium which reacted was 0. 2 grams. b) The mass of oxygen that combined with the magnesium was 0. 2 g.
2. What is the empirical formula of magnesium oxide? Mg 0. 2 g 0. 224.
310. 0080. 0081 = 2 O 0. 2 g 0. 2160. 01250.
0081. 56 = 3 Thus the empirical formula of Magnesium Oxide is Mg O. 3. Why are the crucible and lid heated at the beginning of the experiment before being weighed? The crucible and lid are heated at the beginning of the experiment before being weighed so that any moisture in the crucible is burned away. Moisture is heavy, and thus it can change the results of the experiment, as we only want the weight of magnesium and the magnesium oxide. 4.
What are the possible sources of error in this experiment? Possible sources of error in this experiment include the inaccuracy of measurements, as correct measurements are vital for the experiment. The loss of magnesium oxide smoke can also be counted as a possible source of error: if you should lose some of the smoke, there would be a less amount of magnesium oxide than expected at the end of the experiment. Another possible source of error would be the fact that the magnesium ribbon at the start of the experiment was not cleaned properly. This would mean that not all the magnesium reacted to form magnesium oxide, and so there would be a smaller mass of magnesium oxide than expected.
The reaction not properly finishing should also be counted as a possible source of error. If you did not burn the magnesium in the crucible for the right amount of time, some of the magnesium would not have time to react and form magnesium oxide; thus, there would be less magnesium oxide at the end of the experiment than expected. This would contribute to the inaccuracy of the results.
The Essay on Magnesium Oxide Lab Report
... magnesium hydroxide to magnesium oxide. 6. Allow the crucible to cool. Weigh the crucible, its lid, ... mass of the crucible and the lid with magnesium in the crucible before the heating process. Average of mass of magnesium: (Crucible + Lid + Magnesium) — (Crucible + Lid) Average of mass of magnesium = 0.036± 0.01g The mass ... balancer. Repeat measurements during experiments, to reduce random error ...