Help on these two plz A student obtained the following data for the decomposition of hydrogen iodide on a gold surface at 150 °C.HI(g) →→→ H₂(g) + ½ I₂(g)[HI], Mseconds0.38900.1955209.75x10-27814.88x10-2912(1) What is the half-life for the reaction starting at t=0 s?What is the half-life for the reaction starting at t=520 s?Does the half-life increase, decrease or remain constant as the reaction proceeds? [(2) Is the reaction zero, first, or second order?(3) Based on these data, what is the rate constant for the reaction?vSSquestion.Ms 1 A student obtained the following data for the gas phase decomposition of nitrosyl chloride at 400 K.NOCI(g) NO(g) + ½ Cl₂(g)[NOCI], Mseconds0.10705.35x10-21.81x1042.68x10-25.42x1041.34×10-21.26x105S(1) What is the half-life for the reaction starting at t=0 s?What is the half-life for the reaction starting at t=1.81×104 s?Does the half-life increase, decrease or remain constant as the reaction proceeds?(2) Is the reaction zero, first, or second order?(3) Based on these data, what is the rate constant for the reaction?SM-15-1

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A student obtained the following data for the decomposition of hydrogen iodide on a gold surface at 150 °C. HI(g) ½ H₂(g) + ½ I₂(g) [HI], M seconds 0.389 0 0.195 520 9.75x10-2 781 4.88x10-2 912 (1) What is the half-life for the reaction starting at t=0 s? What is the half-life for the reaction starting at t=520 s? Does the half-life increase, decrease or remain constant as the reaction proceeds? [ (2) Is the reaction zero, first, or second order? (3) Based on these data, what is the rate constant for the reaction? v S S Ms1

A student obtained the following data for the decomposition of hydrogen iodide on a gold surface at 150 °C. HI(g) ½ H₂(g) + ½ I₂(g) [HI], M seconds 0.389 0 0.195 520 9.75x10-2 781 4.88x10-2 912 (1) What is the half-life for the reaction starting at t=0 s? What is the half-life for the reaction starting at t=520 s? Does the half-life increase, decrease or remain constant as the reaction proceeds? [ (2) Is the reaction zero, first, or second order? (3) Based on these data, what is the rate constant for the reaction? v S S Ms1

Chemistry: An Atoms First Approach

2nd Edition

ISBN:9781305079243

Author:Steven S. Zumdahl, Susan A. Zumdahl

Publisher:Steven S. Zumdahl, Susan A. Zumdahl

Chapter11: Chemical Kinetics

Section: Chapter Questions

Problem 75E: One mechanism for the destruction of ozone in the upper atmosphere is a. Which species is a...

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