Sasmsung Poter 5 Forces Free Essays

CHM1022 Lab Report 1 Rate Law of an Iodine Clock Reaction Name: Sashini Naomi Wijesekera Student ID: 23877847 Lab Partner: Zahiya Imam Lab Session: Monday 9. 00am Aim The point of the investigation is to decide the elements that influence the pace of a response, by playing out the iodine clock response and rehashing it changing distinctive introductory conditions so as to gauge and think about the pace of response for each analysis and tentatively decide the rate law. Technique Allude CHM1022 Laboratory Manual, Semester 1 2013. We will compose a custom paper test on Sasmsung Poter 5 Forces or on the other hand any comparative theme just for you Request Now Results and Calculations-Part A-Calculations of rate for one lot of conditions 1. n(S2O32-)=CV =0. 0025M*(10/1000)L =2. 50*10-5mol Molar proportion of I2 : S2O32-= 1 : 2 n(I2)=0. 5*n(S2O32-) =0. 5*(2. 50*10-5mol) =1. 25*10-5mol Mean time taken for blue shading to show up = (131sec+135sec+145sec)/3 =137seconds Rate of reaction=n(I2)/t =(1. 25*10-5mol/137sec) =9. 12*10-8mols-1 [H2O2]: C1V1=C2V2 0. 8*1=C2*99 C2=8. 8*10-3M [I-]: C1V1= C2V2 0. 025*10=C2*99 C2=2. 53*10-3M [H30+]: C1V1= C2V2 0. 36*35=C2*99 C2=0. 127M [S2O32-]: C1V1= C2V2 0. 0025*10=C2*99 C2=2. 53*10-4M Part B-Results and counts B4 (I) n(S2O32-) = 0. 0025*(5/1000) = 1. 25*10-5mol Molar proportion of I2 : S2O32-=1: 2 n(I2)=0. 5*n(S2O32-) n(I2)= 0. 5*(1. 25*10-5) =6. 25*10-6mol B4 (ii) n(S2O32-)= 0. 0025*(20/1000) = 5*10-5mol Molar proportion ofI2: S2O32-=1:2 n(I2)=0. 5*n(S2O32-) n(I2)=0. 5*(5. 0*10-5) =2. 5*10-5mol Part B-Results and estimations | |Time/s |n(I2)/mol |Rate/mol s-1 |Concentration/M | | |1 |2 |3 |4 |5 |6 |Mean t ime/s | |B1[H202] (i)higher (ii)lower | 66 | 63 | 61 | 67 | 69 | 60 | 64 | 1. 5*10-5 | (1. 25*10-5)/64=1. 95*10-7 |[H2O2]: C1V1= C2V2 0. 8*2=C2*99 C2=0. 016 | 249 | 287 | 242 | 262 | 252 | 260 | 259 | 1. 25*10-5 | (1. 25*10-5)/259=4. 83*10-8 |[H2O2]: C1V1= C2V2 0. 8*0. 5=C2*99 C2=4. 0*10-3 | |B2[I-] (i)higher (ii)lower | 78 | †| 78 | 87 | †| †| 81 | 1. 25*10-5 | (1. 25*10-5)/81=1. 54*10-7 |[I2]: C1V1= C2V2 0. 025*20=C2*99 C2=5. 1*10-3 | †| 252 | 288 | 261 | †| †| 267 | 1. 25*10-5 | (1. 25*10-5)/267=4. 68*10-8 |[I2]: C1V1= C2V2 0. 025*5=C2*99 C2=1. 26*10-3 | |B3[H30+] (i)higher (ii)lower | 91 | †| 92 | 94 | †| †| 92 | 1. 25*10-5 | (1. 25*10-5)/92=1. 36*10-7 |[H30+]: C1V1= C2V2 0. 36*70=C2*99 C2=0. 55 | 206 | 226 | 221 | 207 | †| †| 215 | 1. 25*10-5 | (1. 25*10-5)/215=5. 81*10-8 |[H30+]: C1V1= C2V2 0. 36*17. 5=C2*99 C2=0. 064 | |B4[S2032-] (i)lower (ii)higher | 61 | 67 | 71 | 69 | †| †| 67 | 6. 25*10-6 | (6. 25*10-6)/67= 9. 33*10-8 |[S2032-]: C1V1= C2V2 0. 0025*5. 0=C2*99 C2=1. 26*10-4 | 230 | 245 | †| 244 | †| †| 240 | 2. 5*10-5 | (2. 5*10-5)/240=1. 04*10-7 |[S2032-]: C1V1= C2V2 0. 0025*20=C2*99 C2=5. 05*10-4 | |B5(Temp) (i)warmer (ii)colder | 65 | 60 | 58 | †| †| †| 61 | 1. 25*10-5 | (1. 25*10-5)/61=2. 05*10-7 | T=450C | †| 288 | 310 | 303 | †| †| 300 | 1. 25*10-5 | (1. 25*10-5)/300=4. 17*10-8 | T=150C | The most effective method to refer to Sasmsung Poter 5 Forces, Papers