### Calculating the Rate of Change of Volume for an Expanding Sphere#### Problem Statement:Assume that the radius $ r $ of a sphere is expanding at a rate of 10 cm/min. The volume of a sphere is given by $ V = \frac{4}{3} \pi r^3 $ and its surface area is $ 4 \pi r^2 $. Determine the rate at which the volume is changing with respect to time at $ t = 2 $ minutes, assuming that $ r = 0 $ at $ t = 0 $.(Use symbolic notation and fractions where needed.)\[\frac{dV}{dt} = \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \,

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tr'and its surface area is 4ar. Determine the rate at which the volume is changing with respect to time at t = 2 min, assuming that r = 0 at Assume that the radius r of a sphere is expanding at a rate of 10 cm/min. The volume of a sphere is V t = 0. (Use symbolic notation and fractions where needed.) dV cm³/min dt

tr'and its surface area is 4ar. Determine the rate at which the volume is changing with respect to time at t = 2 min, assuming that r = 0 at Assume that the radius r of a sphere is expanding at a rate of 10 cm/min. The volume of a sphere is V t = 0. (Use symbolic notation and fractions where needed.) dV cm³/min dt

Advanced Engineering Mathematics

10th Edition

ISBN:9780470458365

Author:Erwin Kreyszig

Publisher:Erwin Kreyszig

Chapter2: Second-order Linear Odes

Section: Chapter Questions

Problem 1RQ

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Concept explainers

Minimization

In mathematics, traditional optimization problems are typically expressed in terms of minimization. When we talk about minimizing or maximizing a function, we refer to the maximum and minimum possible values of that function. This can be expressed in terms of global or local range. The definition of minimization in the thesaurus is the process of reducing something to a small amount, value, or position. Minimization (noun) is an instance of belittling or disparagement.

Maxima and Minima

The extreme points of a function are the maximum and the minimum points of the function. A maximum is attained when the function takes the maximum value and a minimum is attained when the function takes the minimum value.

Derivatives

A derivative means a change. Geometrically it can be represented as a line with some steepness. Imagine climbing a mountain which is very steep and 500 meters high. Is it easier to climb? Definitely not! Suppose walking on the road for 500 meters. Which one would be easier? Walking on the road would be much easier than climbing a mountain.

Concavity

In calculus, concavity is a descriptor of mathematics that tells about the shape of the graph. It is the parameter that helps to estimate the maximum and minimum value of any of the functions and the concave nature using the graphical method. We use the first derivative test and second derivative test to understand the concave behavior of the function.

Question

### Calculating the Rate of Change of Volume for an Expanding Sphere

#### Problem Statement:

Assume that the radius $ r $ of a sphere is expanding at a rate of 10 cm/min. The volume of a sphere is given by $ V = \frac{4}{3} \pi r^3 $ and its surface area is $ 4 \pi r^2 $. Determine the rate at which the volume is changing with respect to time at $ t = 2 $ minutes, assuming that $ r = 0 $ at $ t = 0 $.

(Use symbolic notation and fractions where needed.)

\[
\frac{dV}{dt} = \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \, \,

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