Q4) growth of a spherical tumor modeled as a function of the population of germs (g in Million) in tumor, v(g) = 1.5 g2, When the diameter of the tumor is 2v15 , and population of germs is 20m and it is growing at a rate of 2m /day. How fast is the diameter of the tumor changing at that time? point ismaximum.Q4) growth of a spherical tumor modeled as a function of the population of germs (g in Million) intumor, v(g) = 1.5 g², When the diameter of the tumor is 2v15, and population of germs is 20m andit is growing at a rate of 2m /day. How fast is the diameter of the tumor changing at that time?

Given function f(x), we can find the rate of change in f w.r.t to other variable t as dfdt=dfdxdxdt

Q4) growth of a spherical tumor modeled as a function of the population of germs (g in Million) in tumor, v(g) = 1.5 g?, When the diameter of the tumor is 2v15 , and population of germs is 20m and it is growing at a rate of 2m /day. How fast is the diameter of the tumor changing at that time?

Q4) growth of a spherical tumor modeled as a function of the population of germs (g in Million) in tumor, v(g) = 1.5 g?, When the diameter of the tumor is 2v15 , and population of germs is 20m and it is growing at a rate of 2m /day. How fast is the diameter of the tumor changing at that time?

College Algebra

1st Edition

ISBN:9781938168383

Author:Jay Abramson

Publisher:Jay Abramson

Chapter3: Functions

Section3.3: Rates Of Change And Behavior Of Graphs

Problem 3SE: How are the absolute maximum and minimum similar to and different from the local extrema?

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Differential Equations

Have you ever observed the movement of the satellites and rockets or how the planets go around the sun in their orbits? How will you determine their motion? Definitely they follow some scientific laws and these kinds of problems are framed as differential equations.

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Q4) growth of a spherical tumor modeled as a function of the population of germs (g in Million) in tumor, v(g) = 1.5 g2, When the diameter of the tumor is 2v15 , and population of germs is 20m and it is growing at a rate of 2m /day. How fast is the diameter of the tumor changing at that time?

point is
maximum.
Q4) growth of a spherical tumor modeled as a function of the population of germs (g in Million) in
tumor, v(g) = 1.5 g², When the diameter of the tumor is 2v15, and population of germs is 20m and
it is growing at a rate of 2m /day. How fast is the diameter of the tumor changing at that time?

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