[T] A certain bacterium grows in culture in a circular region. Tire radius of the circle, measured in centimeters, is given by r ( t ) = 6 − [ 5 / t 2 + 1 ] , where f is time measured in hours since a circle of a 1-cm radius of the bacterium was put into the culture. Express the area of the bacteria as a function of time. Find the exact and approximate area of the bacterial culture in 3 hours. Express the circumference of the bacteria as a function of time. Find the exact and approximate circumference of the bacteria in 3 hours.
[T] A certain bacterium grows in culture in a circular region. Tire radius of the circle, measured in centimeters, is given by r ( t ) = 6 − [ 5 / t 2 + 1 ] , where f is time measured in hours since a circle of a 1-cm radius of the bacterium was put into the culture. Express the area of the bacteria as a function of time. Find the exact and approximate area of the bacterial culture in 3 hours. Express the circumference of the bacteria as a function of time. Find the exact and approximate circumference of the bacteria in 3 hours.
[T] A certain bacterium grows in culture in a circular region. Tire radius of the circle, measured in centimeters, is given by
r
(
t
)
=
6
−
[
5
/
t
2
+
1
]
, where f is time measured in hours since a circle of a 1-cm radius of the bacterium was put into the culture.
Express the area of the bacteria as a function of time.
Find the exact and approximate area of the bacterial culture in 3 hours.
Express the circumference of the bacteria as a function of time.
Find the exact and approximate circumference of the bacteria in 3 hours.
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, subject and related others by exploring similar questions and additional content below.
Area Between The Curve Problem No 1 - Applications Of Definite Integration - Diploma Maths II; Author: Ekeeda;https://www.youtube.com/watch?v=q3ZU0GnGaxA;License: Standard YouTube License, CC-BY