aBr solutions.Materials;24-well plateForcepsTest tubes, 13 X 100mmTest tube rackCork stoppers for test tubesCopperCopper (II) nitrate, 0.1 MZincZinc nitrate, 0.1 MMagnesiumMagnesium nitrate, 0.1 MLeadLead (II), 0.1 MSilver nitrate, 0.1 MChlorine waterSodium chloride, 0.1 MBromine waterSodium bromide, 0.1 MIodine waterPotassium iodide, 0.1 MMineral oilMethod;In the three parts of the lab, you will be using two methods, for the first section you will be using a microscale technique. For the remaining two experiments you will be using a solvent extraction technique.Data tables;Cu (aq)Mg (aq)Pb (aq)Zn (aq)Ag (aq)Cu (s) XNoNoNoYesMg (s)Yes XYesYesYesPb (s)YesYes XYesYesZn (s)YesNoYes XYesCl (aq)Br (aq)I (aq)Cl (aq) XClear-YellowClearBr (aq)Clear-Yellow XClear-YellowI (aq)ClearPink-Clear XMineral OilYellow-ClearClearPink-PurpleNaClKINaBrBr (aq)ClearClear XI (aq)Clear XClearConclusion;I believe that this experiment though very rough in nature has completed the purpose of administering the methods of determining activity series in metals through a microscale technique, and determining an activity series for halogens using a solvent extraction technique. All reactions occurred as predetermined by their placement on a textbook reactivity series, and no errors occurred in the collection of data. The experiment contained no possibility of error, the reactions either work or do not work.Discussion;1.) Write balanced net ionic equations for all reactions that occurred with metals.Cu (s) + 2Ag (aq) Cu (aq) + 2Ag (s)Mg (s) + Cu (aq) Mg (aq) + Cu (s)Mg (s) + Pb (aq) Mg (aq) + Pb (s)Mg (s) + Zn (aq) Mg (aq) + Zn (s)Mg (s) + 2Ag (aq) Mg (aq) + 2Ag (s)Pb (s) + Cu (aq) Pb (aq) + Cu (s)Pb (s) + Mg (aq) Pb (aq) + Mg (s)Pb (s) + Zn (aq) Pb (aq) + Zn (s)Pb (s) + 2Ag (aq) Pb (aq) + 2Ag (s)Zn (s) + Cu (aq) Zn (aq) + Cu (s)Zn (s) + Pb (aq) Zn (aq) + Pb (s)Z...
