Question

An nth-order rate law is often used to model chemical reactions that solely depend on the concentration of a single reactant:


where c = concentration (mole), t = time (min), n = reaction order (dimensionless), and k = reaction rate (min-1 mole1-n). The differential method can be used to evaluate the parameters k and ra. This involves applying a logarithmic transform to the rate law to yield,


Therefore, if the nth-order rate law holds, a plot of the log(-dc/dt) versus log c should yield a straight line with a slope of n and an intercept of log k. Use the differential method and linear regression to determine k and n for the following data for the conversion of ammonium cyanate to urea:

t,min

0

5

15

30

45

c,mole

0.750

0.594

0.420

0.291

0.223

Step-by-step solution:

Step 1 of 5

Following is the given table:

t, min

c, mole

0

0.75

5

0.594

15

0.420

30

0.291

45

0.223

Following is given equation for pressure gradient for laminar flow


Applying logarithmic transformation to the rate law we get
An nth-order rate law is often used to model chemical reactions that solely depend on the concentration of a single reactant:


where c = concentration (mole), t = time (min), n = reaction order (dimensionless), and k = reaction rate (min-1 mole1-n). The differential method can be used to evaluate the parameters k and ra. This involves applying a logarithmic transform to the rate law to yield,


Therefore, if the nth-order rate law holds, a plot of the log(-dc/dt) versus log c should yield a straight line with a slope of n and an intercept of log k. Use the differential method and linear regression to determine k and n for the following data for the conversion of ammonium cyanate to urea:

t,min

0

5

15

30

45

c,mole

0.750

0.594

0.420

0.291

0.223

Step-by-step solution:

Step 1 of 5

Following is the given table:

t, min

c, mole

0

0.75

5

0.594

15

0.420

30

0.291

45

0.223

Following is given equation for pressure gradient for laminar flow

Applying logarithmic transformation to the rate law we get

Please solve it

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Answer 1

Answer:

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