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Data is collected for the gas phase reaction 2 A+B+ 3 C - Products at 470...
Data is collected for the gas phase reaction 2 A + B + 3 C → Products at 470 K. What is the order of the reaction with respect to B? Trial [A]. (M) [B]. (M) (C). (M) Rate (M/min) 1 0.016 0.200 0.150 0.0357 2 0.016 0.200 0.450 0.1072 3 0.048 0.200 0.450 0.1071 4 0.048 0.350 0.450 0.3277 5 0.064 0.350 0.150 0.1092
For the reaction 3A(g) + 2B(g) → 2C(g) + 2D(g) the following data was collected at constant temperature. Determine the correct rate law for this reaction and value of rate constant. Trial Initial [A] Initial [B] Initial Rate (mol/L) (mol/L) (mol/(L• min)) 1 0.200 0.200 1.20 × 10–1 2 0.200 0.100 6.00 × 10–2 3 0.100 0.200 3.00 × 10–2 Predict the rate of reaction for Trial #4 using the correct rate law and rate constant. 4 0.300 0.200 ?????????
ate data for the reaction: 2 NO (g) + Br2 (g) → 2 NOBr (g) n below Fl. M 0.100 0.200 0.300 0.300 INH,J.M Initial Rate, M/min Experiment 2 4 0.200 0.200 0.150 0.050 0400mm 0.80 2.55 0.850 rate law for this reaction, and determine the value of K. Show reasoning! (8 points)
Question # 3 (10 points) The isothermal, isobaric elementary gas phase reaction A+B -+ 2C is performed in a Plug Flow Reactor. The feed contains A-20% and B=80%. The total feed flows at 100 mol/min and 5 m/min. The rate constant, k-0.16m/(mol. min). Calculate the volume of the reactor at 70% conversion of component A for the following cases: a- Case 1: Assume B is an excess reactant b- Case 2: B is NOT an excess reactant C- Compare the...
The following data are obtained for the reaction A ? products: t = 0 min. [A] 0.250 M, t 4.22 min, [A 0.210 Mt 6.60 min, [Al 0.188 M; t-10.61 min, [A]-0.150 M; t-14.48 min, [A 0.114 M, t 18.00 min, [A] 0.083 M. What are the order of this reaction and its rate constant, k?
Search 1. The following gas phase rearrangement reaction: D- C 3-(vinyloxy)prop-1-ene pent-4-enal Has a rate constant of 6.015 x 10-5 s-at 420 K and a rate constant of 2.971 x 10-3 si at 470 K. a. Calculate the Arrhenius parameters A and Ea b. Calculate the values of AH and ASt at 420 K (assume ideal gas behavior) c. What is the name of this rearrangement? What is the main thermodynamic driving force in the reaction?
Question 11: Gas phase reactions in a Batch Reactor A gas phase reaction, shown below, is to be performed isothermally in a batch reactor of constant volume. The reactor is filled with 20 moles of pure A and its volume is 20 litres (a) If the temperature is 127 C, what is the initial total pressure? (b) What would be the final pressure assuming the reaction goes to completion? (c) If the reaction is first order, with a rate constant...
For the Reaction: A+B-C Use the Initial Rates Method to determine the rate law and the value for the rate constant including units Trial [A](M) [B] (M) Initial Rate (Ms) 0.100 0.150 0.250 0.100 0.300 1.000 0.200 0.150 0.500
6. (20 pts) The data below were collected for the following reaction at 25 °C: NO2(g) + CO(g) ? NO(g) + CO2(g) [NO2Initial 0.100 M 0.200 M 0.200 M 0.400 M COJinitial 0.100 M 0.100 M 0.200 M 0.100 M Initial rate 0.0021 Ms 0.0082 Ms 0.0083 Ms 0.033 M s a. (8 pts) What is the rate law for this reaction? (in the form Rate k[NOJ'icoj) b. (6 pts) What is the value of K? (Be careful with units...
Consider the table of data collected for the reaction A → Products. Determine the magnitude (value) of the reaction rate constant by graphing the data appropriately. Time (s) 0.00 0.50 1.00 1.50 2.00 2.50 3.00 3.50 4.00 [A] (M) 0.750 0.665 0.575 0.490 0.410 0.320 0.235 0.150 0.060