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Table 2. Conditions for Reaction Rate Study. Volume solution, mL Vessel Solution Mixture 1 Mixture 2...
Can this information be enough to help me get the answers for table 2? I don't know within the basic idea on how to do this. Table 1. Reaction Time Data for Iodination of Acetone Mixture Trial 1, s Trial 2, s Trial 3, s Average Time, s 1 306 297 311 2 185 201 192 3 97 112 116 4 77 63 65 Validated Dry Lab Table 2. Reaction Conditions and Rate of Reaction. Initial Mixture [CH3COCH3], Initial [H*],...
A solution was prepared by adding 12.00 ml 3.00 mL of 0.130 M KNO_3, 5.00 mL of 0.0100 M Na_2S_2O_3, 1.00 mL of starch solution, and 15.00 mL of 0.130 M (NH_4)_2 S_2O_8. Assuming the volumes of the components are additive, calculate the concentration (M) of I^- in the final mixture before the chemical reaction. Show the calculation. Calculate the concentration (M) of S_2O_8^2- in the mixture prior to the reaction. Show the calculation. Calculate the concentration (M) of S_2O_3^2-...
please use the tables to solve the questions 2. Write the rate law for the reaction based on the Part 1 experimentally determined exponents rounded to the nearest integer. Specify the order of the reaction for each of the components and the overall order. 3. Calculate the rate constant, k, with appropriate units for each reaction mixture using the experimental rate law. All work must be shown for Mixture 1 in order to receive complete credit. Complete Table Ri, below....
Part 1 Calculations 1. Using the data in Table 2, determine the values of x, y, and z in the rate law for the iodination of acetone. Indicate the mixtures used for each and show all work. Show both the unrounded value and the value rounded to the nearest integer for the values of the exponents calculated. Rate = k[CH,COCHL_[" Exponent "x" Exponent "y" Exponent "z." Table 2. Reaction Conditions and Rate of Reaction. Initial Mixture Initial [H], Initial [12],...
How do I calculate the Rate of Reaction and the Relative Rate of Reaction? 0.04M 0.1M Initial I Concentration Initial S2082- Concentration Show a calculation of how you calculated the rate of reaction Rate of Reaction Use M/s to represent (mol/L)/s Show a calculation of how you calculated the relative rate of reaction Relative Rate of Reaction Reaction 1 Save&Continue Time to Colour Change 948 Numeric answers include a number followed by units. Nothing else. Pay attention to precision. Use...
please help answer questions for mixture 1 AND mixture 2 thank you! Table 23.1 Test Tube Number 1 2 3 4 5 5,00 1.00 5.00 2.00 Volume Fe(NO), solution (ml.) Volume KSCN solution (ml.) Volume H,O (ml.) 5.00 3.00 2.00 5.00 4.00 5.00 5.00 0.00 4.00 3.00 1.00 Mixture 2 3 4 5 Absorbance 0.079 0.165 0.246 0.311 0.400 In order to convert the absorbance values provided below into equilibrium concentrations of FeSCN?, you will need to know the slope...
Please help me solve page 2 and 3 Data Table 1 Mixture 4 Mixture1 Mixture 2 Mixture 3 Volume of 4.00M Acetone (C3H6O) Volume of 1.0OM HCI Volume of 0.00500M I Volume of H20 10.0ml 20.0mL 10.0mL 10.0mL 10.0mL 20.0mL 10.0mL 10.0mL 5.0mL 10.0ml 10.0mL 10.0mL 10.0mL 25.0mL 10.0mL 20.0mL 50.0mL 50.0mL Total Volume (mL) 50.0mL 50.0mL ec 2.07m4.2 sec 2-24 mi21344s 24-8 5%0 4-51 mine 270-66e 241 218K-24-852 Reaction Time (s) 24-65C 24 850C Mixture Temperature (°C) Concentration and...
For each run of the iodine clock reaction, 5.00 mL of a 2.02×10-2 M arsenious acid solution is added to the reaction mixture. The total volume of the reaction mixture is 100.0 mL. What is the initial rate of the reaction if the solution turns blue after 68 seconds?
If a mixture was prepared by diluting 7.0 mL of the Blue#1 solution with water to a final volume of 10.0 mL and mixing this with 2.0 mL of diluted bleach how many seconds would it require for the mixture to have an absorbance of 0.120? Use your measured values of eb and of the average rate constant, k to answer this question. Show all work. eb= 0.1138 k= -0.035 first order reaction Concentration of Blue Solution= 15 M
Date Section Code Data Sheet Table 11.1. Time-temperature data. A. Volume of HCl solution (mL) Molarity of HCl solution (M) Volume of NaOH solution (mL) Molarity of NaOH solution (M) Initial temperature of HCl solution (°C) Initial temperature of NaOH solution (°C) Temperatures of solution (°C) at 0.25-min. (15-sec.) intervals 0.25 Run 1 Run 2 49.5 49.8 12.119 2.119 53.2 53.6 2.087 2.087 18.9°C 18.8°C a.oc 18ợc. . 29.9 29.8 32.3 3107 0.50 0.75 1.00 1.25 1.50 1.75 2.00 2.25...