For the reactionsI+I+ M → I2 + MBr + Br + M → Br2 + Mthe rate laws are[I]Pdtk[I}[M]d[Br]ks:[Br]*[M]dtThe ratio k/kBr at 500°C is 3.0 when M is an Ar molecule.Initially, [I], = 2[Br]o, while [M] is the same for both reac-tions and is much greater than [I]o. Čalculate the ratio of the time required for [I] to decrease to half its initial valueto the same time for [Br] at 500°C.

The rate of a chemical reaction depends on the rate constant for that reaction, and the order of…

Answered: For the reactions I+I+ M → I2 + M Br +…

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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:) Using the ideal gas model, show that () (), ӘР ЭТ T V =-1
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PROBLEM 9. A bottle of milk was taken from a refrigerator and put in a bowl of hot water to warm. According to Newton's empirical law of cooling, change of temperature of the milk in the bottle M(t) and change of temperature of water in the bowl W (t) can be described by the differential equations dM dt = -k, (M – W) dW dt :-k2(W – Ta) – k3( – M), where t is time (in minutes), Tą is the ambient temperature, k, = 0.1, k2 = 0.03, and kg = 0.18 are constants of proportionality. The temperature in the refrigerator is 5°C, the room temperature is 20°C and the initial temperature of the water in the bowl is 80°C. a) Find the solution of the nonhomogeneous system X(t)=X.(t) + Xp(t) if the particular solution Xp(t) is given by: 20 20 b) Find the temperature of milk and water as function of time. c) Find the values of W (t) and M(t) when t → o.
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