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Calculus 1 : How to find rate of change

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Example Questions

Example Question #3204 : Calculus

A cube is growing in size. What is the ratio of the rate of growth of the cube's surface area to the rate of growth of its diagonal when its sides have length $3\sqrt{5}$ ?

Possible Answers:

$12\sqrt{5}$

$12\sqrt{15}$

$6\sqrt{5}$

$3\sqrt{15}$

$60\sqrt{3}$

Correct answer:

$12\sqrt{15}$

Explanation:

Begin by writing the equations for a cube's dimensions. Namely its surface area and diagonal in terms of the length of its sides:

A=6s^2

$d=s\sqrt{3}$

The rates of change of these can be found by taking the derivative of each side of the equations with respect to time:

$\frac{dA}{dt}=12s\frac{ds}{dt}$

$\frac{dd}{dt}=\sqrt{3}\frac{ds}{dt}$

Now, knowing the length of the sides, simply divide to find the ratio between the rate of change of the surface area and diagonal:

$12s\frac{ds}{dt}=(\phi)\sqrt{3}\frac{ds}{dt}$

$\phi=4s\sqrt{3}$

$\phi =12\sqrt{15}$

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Example Question #3205 : Calculus

A cube is diminishing in size. What is the ratio of the rate of loss of the cube's surface area to the rate of loss of its diagonal when its sides have length 1.81?

Possible Answers:

2.08

10.27

3.13

12.54

8.20

Correct answer:

12.54

Explanation:

Begin by writing the equations for a cube's dimensions. Namely its surface area and diagonal in terms of the length of its sides:

A=6s^2

$d=s\sqrt{3}$

The rates of change of these can be found by taking the derivative of each side of the equations with respect to time:

$\frac{dA}{dt}=12s\frac{ds}{dt}$

$\frac{dd}{dt}=\sqrt{3}\frac{ds}{dt}$

Now, knowing the length of the sides, simply divide to find the ratio between the rate of change of the surface area and diagonal:

$12s\frac{ds}{dt}=(\phi)\sqrt{3}\frac{ds}{dt}$

$\phi=4s\sqrt{3}$

$\phi =12.54$

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Example Question #3204 : Calculus

A cube is diminishing in size. What is the ratio of the rate of loss of the cube's surface area to the rate of loss of its diagonal when its sides have length 7.82?

Possible Answers:

60.84

49.26

13.55

54.18

12.32

Correct answer:

54.18

Explanation:

Begin by writing the equations for a cube's dimensions. Namely its surface area and diagonal in terms of the length of its sides:

A=6s^2

$d=s\sqrt{3}$

The rates of change of these can be found by taking the derivative of each side of the equations with respect to time:

$\frac{dA}{dt}=12s\frac{ds}{dt}$

$\frac{dd}{dt}=\sqrt{3}\frac{ds}{dt}$

Now, knowing the length of the sides, simply divide to find the ratio between the rate of change of the surface area and diagonal:

$12s\frac{ds}{dt}=(\phi)\sqrt{3}\frac{ds}{dt}$

$\phi=4s\sqrt{3}$

$\phi =54.18$

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Example Question #3207 : Calculus

A spherical balloon is being filled with air. What is the volume of the sphere at the instance the rate of growth of the volume is 1.65 times the rate of growth of the surface area?

Possible Answers:

118.818

232.724

218.993

78.912

150.533

Correct answer:

150.533

Explanation:

Let's begin by writing the equations for the volume and surface area of a sphere with respect to the sphere's radius:

$V=\frac{4}{3}\pi r^3$

$A=4\pi r^2$

The rates of change can be found by taking the derivative of each side of the equation with respect to time:

$\frac{dV}{dt}=4\pi r^2 \frac{dr}{dt}$

$\frac{dA}{dt}=8\pi r \frac{dr}{dt}$

The rate of change of the radius is going to be the same for the sphere. So given our problem conditions, the rate of growth of the volume is 1.65 times the rate of growth of the surface area, let's solve for a radius that satisfies it.

$4\pi r^2 \frac{dr}{dt}=(1.65)8\pi r \frac{dr}{dt}$

r =(1.65)2

r=3.3

Then to find the volume:

$V=\frac{4}{3}\pi r^3$

$V=\frac{4}{3}\pi (3.3)^3=150.533$

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Example Question #3205 : Calculus

A spherical balloon is being filled with air. What is the diameter of the sphere at the instance the rate of growth of the volume is 2.08 times the rate of growth of the surface area?

Possible Answers:

8.32

11.22

26.14

4.16

13.07

Correct answer:

8.32

Explanation:

Let's begin by writing the equations for the volume and surface area of a sphere with respect to the sphere's radius:

$V=\frac{4}{3}\pi r^3$

$A=4\pi r^2$

The rates of change can be found by taking the derivative of each side of the equation with respect to time:

$\frac{dV}{dt}=4\pi r^2 \frac{dr}{dt}$

$\frac{dA}{dt}=8\pi r \frac{dr}{dt}$

The rate of change of the radius is going to be the same for the sphere. So given our problem conditions, the rate of growth of the volume is 2.08 times the rate of growth of the surface area, let's solve for a radius that satisfies it.

$4\pi r^2 \frac{dr}{dt}=(2.08)8\pi r \frac{dr}{dt}$

r =(2.08)2

r=4.16

The diameter is thus

d=8.32

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Example Question #3209 : Calculus

A spherical balloon is being filled with air. What is the circumference of the sphere at the instance the rate of growth of the volume is 7.19 times the rate of growth of the surface area?

Possible Answers:

14.38

40.18

103.22

90.35

51.62

Correct answer:

90.35

Explanation:

Let's begin by writing the equations for the volume and surface area of a sphere with respect to the sphere's radius:

$V=\frac{4}{3}\pi r^3$

$A=4\pi r^2$

The rates of change can be found by taking the derivative of each side of the equation with respect to time:

$\frac{dV}{dt}=4\pi r^2 \frac{dr}{dt}$

$\frac{dA}{dt}=8\pi r \frac{dr}{dt}$

The rate of change of the radius is going to be the same for the sphere. So given our problem conditions, the rate of growth of the volume is 7.19 times the rate of growth of the surface area, let's solve for a radius that satisfies it.

$4\pi r^2 \frac{dr}{dt}=(7.19)8\pi r \frac{dr}{dt}$

r =(7.19)2

r=14.38

The circumference is then

$C=2\pi r$

C=90.35

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Example Question #293 : Rate Of Change

A spherical balloon is deflating, while maintaining its spherical shape. What is the surface area of the sphere at the instance the rate of shrinkage of the volume is 10.13 times the rate of shrinkage of the surface area?

Possible Answers:

1289.52

6343.81

2729.43

5158.09

4596.03

Correct answer:

5158.09

Explanation:

Let's begin by writing the equations for the volume and surface area of a sphere with respect to the sphere's radius:

$V=\frac{4}{3}\pi r^3$

$A=4\pi r^2$

The rates of change can be found by taking the derivative of each side of the equation with respect to time:

$\frac{dV}{dt}=4\pi r^2 \frac{dr}{dt}$

$\frac{dA}{dt}=8\pi r \frac{dr}{dt}$

The rate of change of the radius is going to be the same for the sphere. So given our problem conditions, the rate of shrinkage of the volume is 10.13 times the rate of shrinkage of the surface area, let's solve for a radius that satisfies it.

$4\pi r^2 \frac{dr}{dt}=(10.13)8\pi r \frac{dr}{dt}$

r =(10.13)2

r=20.26

Then to find the surface area:

$A=4\pi r^2$

A=5158.09

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Example Question #291 : How To Find Rate Of Change

A spherical balloon is being filled with air. What is the volume of the sphere at the instance the rate of growth of the volume is 128 times the rate of growth of the circumference?

Possible Answers:

$\frac{1024}{3}\pi$

$\frac{512}{3}\pi$

$\frac{2048}{3}\pi$

$\frac{256}{3}\pi$

$\frac{4096}{3}\pi$

Correct answer:

$\frac{2048}{3}\pi$

Explanation:

Begin by writing the equations for the volume and circumference of a sphere with respect to the sphere's radius:

$V=\frac{4}{3}\pi r^3$

$C=2\pi r^$

The rates of change can be found by taking the derivative of each side of the equation with respect to time:

$\frac{dV}{dt}=4\pi r^2 \frac{dr}{dt}$

$\frac{dC}{dt}=2\pi \frac{dr}{dt}$

The rate of change of the radius is going to be the same for the sphere regardless of the considered parameter. Now given the problem information, the rate of growth of the volume is 128 times the rate of growth of the circumference, solve for the radius:

$4\pi r^2 \frac{dr}{dt}=(128)2\pi \frac{dr}{dt}$

$r^2=(128)\frac{1}{2}$

$r =\sqrt{64}$

r=8

Then to find the volume:

$V=\frac{4}{3}\pi r^3$

$V=\frac{2048}{3}\pi$

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Example Question #292 : How To Find Rate Of Change

A spherical balloon is deflating, while maintaining its spherical shape. What is the circumference of the sphere at the instance the rate of shrinkage of the volume is seven times the rate of shrinkage of the circumference?

Possible Answers:

$\pi\sqrt{7}$

$\pi\sqrt{14}$

$7\pi\sqrt{2}$

$2\pi\sqrt{3}$

Correct answer:

$\pi\sqrt{14}$

Explanation:

Begin by writing the equations for the volume and circumference of a sphere with respect to the sphere's radius:

$V=\frac{4}{3}\pi r^3$

$C=2\pi r^$

The rates of change can be found by taking the derivative of each side of the equation with respect to time:

$\frac{dV}{dt}=4\pi r^2 \frac{dr}{dt}$

$\frac{dC}{dt}=2\pi \frac{dr}{dt}$

The rate of change of the radius is going to be the same for the sphere regardless of the considered parameter. Now given the problem information, the rate of shrinkage of the volume is seven times the rate of shrinkage of the circumference, solve for the radius:

$4\pi r^2 \frac{dr}{dt}=(7)2\pi \frac{dr}{dt}$

$r^2=(7)\frac{1}{2}$

$r =\sqrt{\frac{7}{2}}$

The circumference is then

$C=2\pi r$

C=11.75

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Example Question #2184 : Functions

A spherical balloon is deflating, while maintaining its spherical shape. What is the surface area of the sphere at the instance the rate of shrinkage of the volume is fifteen times the rate of shrinkage of the circumference?

Possible Answers:

$30\pi$

$25\pi$

$15\pi$

$700\pi$

$225\pi$

Correct answer:

$30\pi$

Explanation:

Begin by writing the equations for the volume and circumference of a sphere with respect to the sphere's radius:

$V=\frac{4}{3}\pi r^3$

$C=2\pi r^$

The rates of change can be found by taking the derivative of each side of the equation with respect to time:

$\frac{dV}{dt}=4\pi r^2 \frac{dr}{dt}$

$\frac{dC}{dt}=2\pi \frac{dr}{dt}$

The rate of change of the radius is going to be the same for the sphere regardless of the considered parameter. Now given the problem information, the rate of shrinkage of the volume is fifteen times the rate of shrinkage of the circumference, solve for the radius:

$4\pi r^2 \frac{dr}{dt}=(15)2\pi \frac{dr}{dt}$

$r^2=(15)\frac{1}{2}$

$r =\sqrt{\frac{15}{2}}$

The surface area is then:

$A=4\pi r^2$

$A=30\pi$

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Calculus 1 : How to find rate of change

Study concepts, example questions & explanations for Calculus 1

All Calculus 1 Resources

Example Questions

Example Question #3204 : Calculus

Example Question #3205 : Calculus

Example Question #3204 : Calculus

Example Question #3207 : Calculus

Example Question #3205 : Calculus

Example Question #3209 : Calculus

Example Question #293 : Rate Of Change

Example Question #291 : How To Find Rate Of Change

Example Question #292 : How To Find Rate Of Change

Example Question #2184 : Functions

All Calculus 1 Resources

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