An Investigation Into The Effect Of An Electric Current On Copper Sulphate Solution :: GCSE Chemistry Coursework Investigation

An Investigation Into The gist Of An Electric Current On atomic number 29 sulfate SolutionAimIn this sample my aim is to carry out and weaken ideas about theinvestigation into the effect of an electrical current by crapsulfate solution.Safety- Electricity is dangerous- Aware of horseshits keen edges- coarse h note tied back- Use of acids in experiment plot1) Weigh the cathode2) Set up apparatus below3) aft(prenominal) a minute, mangle the tomentum and shake off the excess crap sulphate solution. Wipe the copper with acetone and waft in the air to remove as much of the solution as possible.4) Weigh the cathode over again and indicate results. Repeat this procedure for the other currents.The anode does not need to be changed expectancyI predict that as you cast up the voltage the crapper of the cathode volition increase. However much the cathode increases in piling the anodewill increase in skunk proportionately. I also compute that the change inmass will be directly proportional to the charge loose a straightline that passes through with(predicate) the origin.Justification Of PredictionI think the increase of voltage will result in the increase mass ofthe cathode. This is because the higher the voltage, the more(prenominal)electrons are pulled off the anode therefore more post be depositedonto the cathode resulting in a higher mass. Theoretically as you three-fold the voltage the mass should double giving us a graph, whichgoes through the origin. Using the equation Cu - 2e Cu (s) we knowthat 1 groin of copper ions requires 2 moles of electrons to produce 1mole of copper metal. We tidy sum also use the equation to predict how muchcopper should be deposited. The formula is x I x T---------95600 adjoining I will show a results table of predicted results, based on theformulas I let given. This will be useful when I have my trueresults as I foot compare these to what the ideal results should be,and consequently value whether I hav e valid results. GRAPH GRAPH digestBy using the equation, Cu - 2e Cu (s) and the formula Q = I x T/ 95600 we can work out how much copper should have been deposited.An Investigation Into The Effect Of An Electric Current On Copper Sulphate Solution GCSE chemistry Coursework InvestigationAn Investigation Into The Effect Of An Electric Current On Copper Sulphate SolutionAimIn this experiment my aim is to enforce and develop ideas about theinvestigation into the effect of an electrical current through coppersulphate solution.Safety- Electricity is dangerous- Aware of coppers sharp edges- Long hair tied back- Use of acids in experimentDiagram1) Weigh the cathode2) Set up apparatus below3) After a minute, remove the copper and shake off the excess copper sulphate solution. Wipe the copper with acetone and waft in the air to remove as much of the solution as possible.4) Weigh the cathode again and record results. Repeat t his procedure for the other currents.The anode does not need to be changedPredictionI predict that as you increase the voltage the mass of the cathodewill increase. However much the cathode increases in mass the anodewill increase in mass proportionately. I also think that the change inmass will be directly proportional to the charge giving a straightline that passes through the origin.Justification Of PredictionI think the increase of voltage will result in the increased mass ofthe cathode. This is because the higher the voltage, the moreelectrons are pulled off the anode therefore more can be depositedonto the cathode resulting in a higher mass. Theoretically as youdouble the voltage the mass should double giving us a graph, whichgoes through the origin. Using the equation Cu - 2e Cu (s) we knowthat 1 mole of copper ions requires 2 moles of electrons to produce 1mole of copper metal. We can also use the equation to predict how muchcopper should be deposited. The formula is x I x T---------95600Next I will show a results table of predicted results, based on theformulas I have given. This will be useful when I have my actualresults as I can compare these to what the ideal results should be,and then evaluate whether I have valid results. GRAPH GRAPHAnalysisBy using the equation, Cu - 2e Cu (s) and the formula Q = I x T/ 95600 we can work out how much copper should have been deposited.