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Question: FIRST ORDER REACTION: DECOMPOSITION OF HYDROGEN PEROXIDE EXPERIMENT WAS PERFORMEND. 100 ML 1 M OF PEROXIDE solution WAS MIXED WITH 10 ML of 1% Kl solution WITH ACTED AS A CATALYST.The progress of the reaction is now followed by titrating 10 cm3 samples at approximately 10 minutes intervals. When about 9 minutes have elapsed, a 10 cm3 sample of the reaction mixture WAS TRANSFERED by means of the 10 cm3 measuring cylinder into the 54 Erlenmeyer, 5 cm3 of dilute sulfuric acid ADDED, and titrated rapidly with permanganate. the exact time at which the first drop of the permanganate is added was recorded. In as much as the peroxide continues to decompose until all of it has reacted with permanganate, the titration should be continued as rapidly as possible. the volume of permanganate required was recorded. Titrated successively 10 cm3 samples of the reaction mixture at approximately 10 minutes interval until 8 samples have been analyzed. from the analysis peroxide concetration decreased form 1 M to 0.564 M . velocity constant was found to be 7.63×10^(-3) form the slope of the graph and 9.09×10^(-3) from calculations. half life was found to be at 76.26 minutes .conclude with 4 sentences
Your experiment tracking the first-order reaction of hydrogen peroxide decomposition was successful, accurately showing reaction progression and providing consistent data. The decrease in peroxide concentration from 1 M to 0.564 M aptly indicates the ongoing reaction, proving the efficiency of the catalyst. At a velocity constant of 7.63x10^-3 from your graph and 9.09x10^-3 from calculations, this suggests an overall coherence in the results with slight variation possibly due to experimental errors. A half-life of 76.26 minutes further demonstrates the reaction's nature - a gradual yet steady process, while offering a base point for potential optimization strategies for this reaction in the future.
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