The reaction rate as a function of initial reactant pressures was investigated for the following reaction 2A(g) + 3B (g) = C (g) and the following data were obtained: In the first run, the initial pressures of A and B are 20.5kPa and 25.5kPa, respectively, and the rate of reaction is 0.06kPa/s; In the second run, the initial pressures of A and B are 41.0kPa and 25.5kPa, respectively, and the rate of reaction is 0.24kPa/s; In the third run, the initial pressures of A and B are 41.0kPa and 51.0kPa, respectively, and the rate of reaction is 0.48kPa/s. The rate law expression for this reaction V=
The reaction rate as a function of initial reactant pressures was investigated for the following reaction 2A(g) + 3B (g) = C (g) and the following data were obtained: In the first run, the initial pressures of A and B are 20.5kPa and 25.5kPa, respectively, and the rate of reaction is 0.06kPa/s; In the second run, the initial pressures of A and B are 41.0kPa and 25.5kPa, respectively, and the rate of reaction is 0.24kPa/s; In the third run, the initial pressures of A and B are 41.0kPa and 51.0kPa, respectively, and the rate of reaction is 0.48kPa/s. The rate law expression for this reaction V=
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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![QUESTION 1
The reaction rate as a function of initial reactant pressures was investigated for the following reaction 2A(g) + 3B (g) = C (g) and the following data were obtained: In the first run, the
initial pressures of A and B are 20.5kPa and 25.5kPa, respectively, and the rate of reaction is 0.06kPa/s; In the second run, the initial pressures of A and B are 41.0kPa and 25.5kPa,
respectively, and the rate of reaction is 0.24kPa/s; In the third run, the initial pressures of A and B are 41.0kPa and 51.0kPa, respectively, and the rate of reaction is 0.48kPa/s. The
rate law expression for this reaction is v=
O K[A][B]
O K[A]²[B]
K[A][B]²
O K[A]²[B]²](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd47fc2c3-8f4b-4085-b234-bc909be774e3%2Fe65184e8-c7b5-42b0-9e4c-d897e2f3eae7%2F4ojgbf_processed.jpeg&w=3840&q=75)
Transcribed Image Text:QUESTION 1
The reaction rate as a function of initial reactant pressures was investigated for the following reaction 2A(g) + 3B (g) = C (g) and the following data were obtained: In the first run, the
initial pressures of A and B are 20.5kPa and 25.5kPa, respectively, and the rate of reaction is 0.06kPa/s; In the second run, the initial pressures of A and B are 41.0kPa and 25.5kPa,
respectively, and the rate of reaction is 0.24kPa/s; In the third run, the initial pressures of A and B are 41.0kPa and 51.0kPa, respectively, and the rate of reaction is 0.48kPa/s. The
rate law expression for this reaction is v=
O K[A][B]
O K[A]²[B]
K[A][B]²
O K[A]²[B]²
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