A second-order chemical reaction involves the interaction of onc molccule of a substance Pwith one molecule of another substance Q to produce one molecule of another substance X. Supposethat p and q are the initial concentrations of P and Q and let r(t) be the concentration of X at timet. Then p- I(t) and q -r(t) are the concentrations of P and Q at time t, and the rate at which thereaction occurs is given by the equationdr*(I - b)(I – d)o=dtwhere a is a positive constant. Solve the initial value problem with r(0) = 0 assuming p # q.Answ: r(t) = Pq(e®(q-p)t _1qea(q-p)t-p, you may nced to manipulate your answer to get this.

In this question, we solve the given initial value problem dxdt=α(p-x)(q-x)withx(0)=0.

Answered: dr = a(p- 1)(q-), dt

Math

Advanced Math

dr = a(p- 1)(q-), dt

Calculus For The Life Sciences

2nd Edition

ISBN:9780321964038

Author:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.

Publisher:GREENWELL, Raymond N., RITCHEY, Nathan P., Lial, Margaret L.

Chapter11: Differential Equations

Section11.CR: Chapter 11 Review

Problem 12CR

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Question

100%

A second-order chemical reaction involves the interaction of onc molccule of a substance P
with one molecule of another substance Q to produce one molecule of another substance X. Suppose
that p and q are the initial concentrations of P and Q and let r(t) be the concentration of X at time
t. Then p- I(t) and q -r(t) are the concentrations of P and Q at time t, and the rate at which the
reaction occurs is given by the equation
dr
*(I - b)(I – d)o=
dt
where a is a positive constant. Solve the initial value problem with r(0) = 0 assuming p # q.
Answ: r(t) = Pq(e®(q-p)t _1
qea(q-p)t-p
, you may nced to manipulate your answer to get this.

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