INTRODUCTION For this experiment we studied an oxidization-reduction play offion of atomic number 12 and hydrochloric acid solution. We compared the experimental measured amount of a outlet and the amount predicted by the theoretical calculation of a adapt equation: Mg (s) + 2HCl (aq) ? MgCl2 (aq) + H2 (g) PROCEDURE First we obtained a dismantle of pre-cut milligram ribbon, cleaned it with steel wool to remove any signs of oxidation from the s rouse (which would alter our results), and then weighed it (individual masses of the milligram strips for individually trial can be found in add-in I below). We filled a large beaker more than half(a) representation full with warm tap weewee. We allowed the water to bait for a while to bring it to agency temperature. While the water equalized, we obtained a 100ml- gradatory cylinder and filled it with tap water (also at room temperature), and created with a hat of plastic wrap. It was important when creating this lid that no air bubbles formed downstairs the lid. Then we change the graduated cylinder in the beaker full of water and guardedly remote the lid. We folded up our milligram ribbon and wrapped it with a bunco raise of copper wire so the magnesium would react and not break off during the reaction.
We put this magnesium piece at the bottom of the beaker underneath the graduated cylinder. using a thistle tube we gently propped the end of the tube up under the inverted graduated cylinder and then poured 10ml HCl into it. As the magnesium began to react, we slowly pulled the tube out and waited as the be dire ctionless bubbles began to displace the wate! r in the cylinder. After all the magnesium was consumed, we moved the graduated cylinder up and down in the water to equalize the water levels. Once we had accomplished... If you want to trip up a full essay, order it on our website:
OrderCustomPaper.comIf you want to get a full essay, visit our page:
write my paper
No comments:
Post a Comment