Answer:
a) 20%
b) 945
c) 2571
Explanation:
(a) To find the relative rate of growth of the bacterium population, we need to find the derivative of the given function with respect to time t:
n(t) = 945e^0.2t
Taking the derivative of both sides with respect to t, we get:
dn/dt = 945(0.2)e^0.2t
Simplifying this expression, we get:
dn/dt = 189e^0.2t
Now, we can find the relative rate of growth by dividing the derivative by the original function:
Relative rate of growth = (dn/dt) / n(t)
Substituting the expressions we found earlier, we get:
Relative rate of growth = 189e^0.2t / 945e^0.2t = 0.2
Therefore, the relative rate of growth is 0.2 or 20%.
(b) To find the initial population of the culture, we simply need to substitute t = 0 in the given function:
n(0) = 945e^0.2(0) = 945e^0 = 945(1) = 945
Therefore, the initial population of the culture is 945.
(c) To find the number of bacteria in the culture at time t=5, we simply need to substitute t = 5 in the given function:
n(5) = 945e^0.2(5) = 945e = 945(2.71828) = 2571.2266
Therefore, the culture will contain approximately 2571 bacteria at time t=5.