Calculate Doubling Period of Bacteria Population

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The discussion focuses on calculating the doubling period of a bacteria population that grows from 200 to 4080 in five minutes. One participant initially attempts to find the growth rate using an incorrect method involving k, while others suggest using the differential equation approach to model exponential growth. The correct formula involves using the relationship P = P0 * 2^(t/T) to find T, where T is the doubling time. By taking logarithms, the participants aim to solve for T, ultimately leading to the correct estimation of the doubling period. The conversation emphasizes the importance of using proper mathematical models for exponential growth calculations.
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There are initially 200 bacteria in a culture. After five minutes, the population has grown to 4080 bacteria. Estimate the doubling period.

I DID THIS:

4080=200(k)^5\\\frac{4080}{200}=k^5\\k=1.82

IS THIS CORRECT?
 
Last edited:
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I'm not quite sure what your doing here, but when solving exponential growth problems one should generally start with a differential equation such as;

\frac{dN}{dt} = kN

Where N is the number of bacteria. Do you know the solution to this differential?
 
no your using derivative crap...not that way
 
thomasrules said:
no your using derivative crap...not that way
How do you propose to solve it?
 
damnit how do u start a new line in latex
 
Type a double backslash like this: \\
 
I DID!:

[.tex]4080=200(k)^5\\\frac{4080}{200}=k^5\\k=1.82[.tex]

i'm aware of the .
 
ok:
4080=200(k)^5

4080/200}=k^5

k=1.82
 
thomasrules said:
ok:
4080=200(k)^5

4080/200}=k^5

k=1.82
This is not correct.
 
  • #10
\frac{dN}{dt} = kN. The solution of this equation is N_{0}e^{kt}. We know that N(0) = 200. So N= 200e^{kt}.

4080 = 200e^{5k}.k = .6031

To find the doubling time, look at t = 1.
 
Last edited:
  • #11
Y look at 1 minute. It's not answering the question for doubling time. If you are starting with 200, then double would be 400. and the question is what is the time for that. so it would be 400=200e^(0.6031*t). solve for t.
 
  • #12
yes, my fault. you are correct
 
  • #13
thomasrules said:
There are initially 200 bacteria in a culture. After five minutes, the population has grown to 4080 bacteria. Estimate the doubling period.

I DID THIS:

4080=200(k)^5\\\frac{4080}{200}=k^5 \\ k=1.82

IS THIS CORRECT?
Yes, that's a correct calculation but I don't see any point in doing it. The problem did not ask for "k".
If T is the time (in minutes) to double, then the population would be multiplied by 2 every T minutes: in t minutes, you will have doubled t/T times: P= P_02^{\frac{t}{T}}. If, after 5 minutes the population has increased from 200 to 4080, you want to find T such that
2^{\frac5}{T}}= 4080/200= 20.4
Take the logarithm of both sides to solve for T.
 

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