. For the gas-phase reaction A + A → A2, the experimental rate con- stant, kr, has been fitted to the Arrhenius equation with a frequency factor A = 4.07 × 105 dm³ mol-'s-l at 300 K and an activation energy of 65.4 kJ mol-. Calculate A#S, A¥H, and A³G for the reaction. assume k = 1.

. For the gas-phase reaction A + A → A2, the experimental rate con- stant, kr, has been fitted to the Arrhenius equation with a frequency factor A = 4.07 × 105 dm³ mol-'s-l at 300 K and an activation energy of 65.4 kJ mol-. Calculate A#S, A¥H, and A³G for the reaction. assume k = 1.

Fundamentals Of Analytical Chemistry

9th Edition

ISBN:9781285640686

Author:Skoog

Publisher:Skoog

Chapter8: Sampling, Standardization, And Calibration

Section: Chapter Questions

Problem 8.19QAP

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Question

Due 12/17TTZU21, submit througn eciass
1. For the gas-phase reaction A + A → A2, the experimental rate con- stant, kr, has been
fitted to the Arrhenius equation with a frequency factor A = 4.07 × 10$ dm³ mol·'s-l at
300 K and an activation energy of 65.4 kJ mol-l. Calculate AS, A¥H, and A#G for the
reaction. assume K = 1.

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