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13 December, 01:11

Suppose that the concentration of a bacteria sample is 100000 bacteria per milliliter. If the concentration doubles every 2 hours how long will it take for the concentration to reach 380000 bacteria per milliliter?

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  1. 13 December, 01:36
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    3.85 hours

    Step-by-step explanation:

    We have that the model equation in this case would be of the following type, being "and" the concentration of bacteria:

    y = a * e ^ (b * t)

    where a and b are constants and t is time.

    We know that when the time is 0, we know that there are 100,000 bacteria, therefore:

    100000 = a * e ^ (b * 0)

    100000 = a * 1

    a = 100000

    they tell us that when the time is 2 hours, the amount doubles, that is:

    200000 = a * e ^ (b * 2)

    already knowing that a equals 100,000

    e ^ (b * 2) = 2

    b * 2 = ln 2

    b = (ln 2) / 2

    b = 0.3465

    Having the value of the constants, we will calculate the value of the time when there are 380000, that is:

    380000 = 100000 * (e ^ 0.3465 * t)

    3.8 = e ^ 0.3465 * t

    ln 3.8 = 0.3465 * t

    t = 1.335 / 0.3465

    t = 3.85

    That is to say that in order to reach this concentration 3.85 hours must pass
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