Chemistry TAS Report Essay Example for Free

Chemistry TAS Report Essay1. Experiment Number 10 2. see 18/01/2008 3. Title Determination of the equipoise unending for the reaction Fe3+(aq) + SCN-(aq) = FeSCN2+(aq) 4. Aims/Objective To determine the equilibrium constant for the reaction Fe3+(aq) + SCN-(aq) = FeSCN2+(aq) 5. Introduction / Theory In this experiment, the equilibrium constant for the formation of a complex ion, FeSCN2+(aq), is determined. entangled ions, thiocyanatoiron(III) ions, are formed from iron(III) ions and thiocyanate ions in aqueous solution Fe3+(aq) + SCN-(aq) = FeSCN2+(aq) (1). see morechemistry matriculation notes semester 1The equilibrium constant for this reaction isKc = FeSCN2+(aq) (2) Fe3+(aq)SCN-(aq) The product complex ion is the only one of the three species which has an considerable color (blood-red). 6. Relevant Equations/Chemical Reactions Involved Fe3+(aq) + SCN-(aq) = FeSCN2+(aq) 7. Chemicals 0. 002 M KSCN(aq) 50 cm3 0. 2 M Fe(NO3)3(aq) 20 cm3 8. tool and equipment Boiling piping 5 Dropper 2 10 cm3 measuring cylinder 1 Lamp 1 25 cm3 measuring cylinder 1 Wash bottle 1 Safety spectacle 1 250 cm3 beaker 1 9. Procedure 1. 0. 2 M Fe(NO3)3(aq) was used and 10 cm3 of 0. 08 M, 0. 032 M, 0. 0128 M, 0. 00512 M Fe(NO3)3(aq) were prepared respectively.The solutions were added by using 10 cm3 measuring cylinder to 5 clean boiling tubes in a rack as below. pipage No. 1 2 3 4 5 SCN-(aq) / cm3 10 10 10 10 10 Fe3+(aq) / cm3 10(0. 2 M) 10(0. 08 M) 10(0. 032 M) 10(0. 0128 M) 10(0. 00512 M) 3. Tubes 1 and 2 were wrapped around with a strip of paper so that light was excluded from the side. 4. The solutions towards the lamp were looked vertically down to compare the vividness intensity. 5. Some of the solution from the standard tube 1 was removed with a dropper until the colour intensities of solutions in both tubes were the same. And the removed liquid was put into a clean and dry beaker.6. The skill of the solution in tube 1 was then measured. 7. Steps 3 to 6 were repeated with tubes 1 and 3, 1and 4 and finally 1and 5. 10. Observations The colour intensities of the solutions in the cardinal tubes being observe were the same. 11. Data, Calculation and Results prime of solution in original tube 1 = 59 mm upside of solution in tube 1 having the same colour intensity as tubes 2, 3, 4 and 5 are Same colour intensity as 2 3 4 5 Height of solution in tube 1 (mm) 45 35 28 23 12. Conclusion The equilibrium constant for the reaction Fe3+(aq) + SCN-(aq) = FeSCN2+(aq) was found to be 82.1 M-1. 13. Discussion 1. By M1V1 = M2V2, For tube 1, initial parsimony of SCN-(aq) = 0. 001 M initial concentration of Fe3+(aq) = 0. 1 M For tube 2, initial concentration of SCN-(aq) = 0. 001 M initial concentration of Fe3+(aq) = 0. 04 M For tube 3, initial concentration of SCN-(aq) = 0. 001 M initial concentration of Fe3+(aq) = 0. 016 M For tube 4, initial concentration of SCN-(aq) = 0. 001 M initial concentration of Fe3+(aq) = 0. 0064 M For tube 5, initial c oncentration of SCN-(aq) = 0. 001 M initial concentration of Fe3+(aq) = 0. 00256 M 2.Concentration of FeSCN2+ in tube 1 = 0.001 M 3. Ratio of depth in the colour equation with tube 2 = 45 /59 = 0. 763 Ratio of depth in the colour comparison with tube 3 = 35 /59 = 0. 593 Ratio of depth in the colour comparison with tube 4 = 28 /59 = 0. 475 Ratio of depth in the colour comparison with tube 5 = 23 /59 = 0. 390 Equilibrium concentration of thiocyanoiron(III) ions In tube 2 = 0. 001 x (45 / 59) = 7. 63 x 10-4 M In tube 3 = 0. 001 x (35 / 59) = 5. 93 x 10-4 M In tube 4 = 0. 001 x (28 / 59) = 4. 75 x 10-4 M In tube 5 = 0. 001 x (23 / 59) = 3. 90 x 10-4 M 4. Fe3+equil = Fe3+initial FeSCN2+equil = 0. 04 7.63 x 10-4 = 0. 0392 M SCN-equil = SCN-initial FeSCN2+equil = 0. 001 -7. 63 x 10-4 = 2. 37 x 10-4 M 5. Room temperature = 16 oC K = FeSCN2+equil / (Fe3+equilSCN-equil) = 7. 63 x 10-4 / (0. 0392)(2. 37 x 10-4) = 82. 1 M-1 6. There are few sources of error in this experiment. (1) Determina tion of colour intensity in the two tubes observed might not be accurate. (2) Taking reading when measuring the depth of liquid. Error regard When taking initial reading, error is + 0. 05 cm3. When taking final reading, error is also + 0. 05 cm3. Therefore, error is + 0. 1 cm3.