Determining the Mole Ratios in a Chemical Reaction Essay

The purpose of this laboratory was to doctor the mole symmetrys of the reactants hypochlorite ion (OCI ) and thiosulfate (S O ) when reacted in a chemical reply. A chemical equation gives the mole ratios of the reactants and products involved in the chemical reaction. When roughly formulas of the products are not known, experimental measurements can be made to determine those ratios. During this reaction, hypochlorite ions oxidize the thiosulfate ions according to the unbalanced and incomplete reaction below.A OCI + B S O productsThe reactions are all exothermic, so the vex produced lead be directly proportional to the amount of reaction that occurs. Theres an objective of this experiment and its Measure the enthalpy change of a serial of reactionsDetermine the stoichiometry of an oxidation-reduction reaction in which the reactants are known moreover the products are unknown MaterialsLab QuestLab Quest AppTemp. essayTwo 10mL graduated cylindersTwo 25mL graduated cylindersTw o 50 mL graduated cylindersThree 250mL beakers0.50 M sodium hypochlorite, NaOCI0.50 M sodium thiosulfate, Na S O0.2 M sodium hydroxide, NaOHStyrofoam CupsProcedureSubmitted as the carbon-less likeness of the pre-lab outline (see attached) Results and DiscussionDuring this experiment we first, prepared the solutions of the reactants in which the concentrations are known. Second, we mixed the solutions a number of times using different ratios of reactants. Third, the change of temperature is the keeping that needs to be measured. All the reactions are all exothermic, so heat thats produced will be directly proportional to the amount of reaction that occurs.The experiment was designed so that the volume of solution is a unbroken for all measurements, the temperature change will also be proportional to the amount of money of reactants consumed. The total number of moles of reactants is also kept a constant for the serial publication of measurements. Considering that each measuremen t is made with a different mole ratio of reactants.The optimum ratio (determined after the results of the trials are graphed) is the stoichiometric ratio in the equation, which concludes that it should consume the greatest amount of reactants, form the greatest amount of products, and bring forth the most heat and maximum temperature change.