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The doubling period of a bacterial population is 15 minutes. At time t=120 minutes, the bacterial population was 60000.A) What was the initial population at time t=0?B) Find the size of the bacterial population
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The doubling period of a bacterial population is 15 minutes. At time t=120 minutes, the bacterial population was 60000.A) What was the initial population at time t=0?B) Find the size of the bacterial population after 3 hours

User Mahmoud Taghinia
by
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1 Answer

7 votes

If you follow the formula


y=ab^t

Where y is the total amount of bacteria, a is the initial bacterial at time 0, and b is the growth factor.

A) At t=120 minutes. This would be 15 minutes 8 times. So the time for t=8:


\begin{gathered} 60000=a(2)^8 \\ 60000=a(256) \\ (60000)/(256)=(a(256))/(256) \\ a=234.375 \end{gathered}

Answer a: the initial population = 234.375

B) The equation is given by:


y=234.375(2)^t

After 3 hours (15 minutes, 12 times), or at t = 12 you would get:


y=234.375(2)^(12)=960000

Answer b: the bacterial population = 960000

User Ajith S
by
5.7k points
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