Based on the stoichiometry of Equations (1) and (4) mole(s) of S,o, are consumed
ID: 1029764 • Letter: B
Question
Based on the stoichiometry of Equations (1) and (4) mole(s) of S,o, are consumed for every molels) of pr0, that react. Therefore, the values of a and b in the relative rate expression: are a-and b a At b At Use your concentration and time data from the previous page to calculate the rate that S,O, is consumed in each of your four mixtures. Then use the values of a and b in the relative rate expression above to determine the corresponding initial rate of reaction in terms of the change in concentration of BrOs reacted. Relative Rates of Reaction: MixtureAA Show sampie calculations below lustrating how you amived at the values for Reaction Mixture 1Explanation / Answer
For every mole of BrO3- = 3 moles of I2 is produced.
Also, 3 moles of I2 combine with 6 moles of S2O32-.
So, every mole of BrO3- that react requires 6 moles of S2O32- for the fast reaction to take place.
Also, from the given reactions it can be seen that:
a= 1 and b=6.
For the remaining question, the concentration and time data is not given in the question, so only the first two parts are solved.