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Calculus 1 : How to find rate of change

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Example Questions

Example Question #101 : Rate Of Change

A spherical ball of chocolate is melting on a table at a rate of $0.001 \frac{m^3}{s}$ . What is the rate of change of the surface area of the chocolate when the radius of the chocolate ball is 0.01 m?

Possible Answers:

$-5 \frac{m^2}{s}$

$10\frac{m^2}{s}$

$0 \frac{m^2}{s}$

$-\frac{1}{5} \frac{m^2}{s}$

Correct answer:

$-\frac{1}{5} \frac{m^2}{s}$

Explanation:

To solve for the rate of change of the surface area of the chocolate ball, we must relate that rate to the rate of change of the radius, which we get from the given rate of change of volume:

$V=\frac{4}{3}\pi r^3 , \frac{dV}{dt}=4\pi r^2\frac{dr}{dt}$

$A=4\pi r^2, \frac{dA}{dt}=8 \pi r \frac{dr}{dt}$

Now, using the rate of change of volume, solve for the rate of change of the radius:

$-.001=4\pi (.01)^2 \frac{dr}{dt}$

$\frac{dr}{dt}=-\frac{5}{2\pi}\frac{m}{s}$

Now, plug this into the equation for the rate of change of the surface area, using the given radius:

$\frac{dA}{dt}=8\pi (.01)\left(\frac{-5}{2\pi}\right)=-\frac{1}{5}\frac{m^2}{s}$

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Example Question #102 : How To Find Rate Of Change

The sides of a rectangular prism are defined by the functions

h(t)=2+3t

l(t)=4+2t^2

w(t)=1+t^3 .

What is the rate of change of the surface area of the prism at time t=2 ?

Possible Answers:

$\small 937$

$\small 216$

$\small 782$

$\small 417$

$\small 689$

Correct answer:

$\small 782$

Explanation:

The surface area of a rectangular prism is defined in terms of its sides as follows:

A=2hw+2hl+2wl

The rate of change of the surface area can then be found by taking the derivative of each side of the equation with respect to time:

$\frac{dA}{dt}=2(h\frac{dw}{dt}+w\frac{dh}{dt}+h\frac{dl}{dt}+l\frac{dh}{dt}+w\frac{dl}{dt}+l\frac{dw}{dt})$

For the side functions

h(t)=2+3t

l(t)=4+2t^2

w(t)=1+t^3

$\frac{dh(t)}{dt}=3$

$\frac{dl(t)}{dt}=4t$

$\frac{dw(t)}{dt}=3t^2$

And the rate of change of the area becomes:

$\small \small {\frac{dA(t)}{dt}=2((2+3t)(3t^2)+(1+t^3)(3)+(2+3t)(4t)+(4+2t^2)(3)+(1+t^3)(4t)+(4+t^2)(3t^2))}$

$\small {\frac{dA(2)}{dt}=782}$

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Example Question #102 : Rate Of Change

A rectangle currently has a length of and a width of , though the length is growing at a rate of $0.2\frac{m}{s}$ . The area of the rectangle is not changing at the moment. What is the rate of shrinkage of the width?

Possible Answers:

$-0.10\frac{m}{s}$

$-0.2\frac{m}{s}$

$-0.05\frac{m}{s}$

$-0.15\frac{m}{s}$

$-0.25\frac{m}{s}$

Correct answer:

$-0.15\frac{m}{s}$

Explanation:

The area of a rectangle is given by the function:

A=lw

To compare rates of change between each parameter, take the derivative of each side of this equation with respect to time:

$\frac{dA}{dt}=l\frac{dw}{dt}+w\frac{dl}{dt}$

We are told that w=6m , l=8m , and $\frac{dl}{dt}=0.2\frac{m}{s}$ . If the area is not changing, it follows that $\frac{dA}{dt}=0$ .

This reduces the equation to:

$0=8m\frac{dw}{dt}+6m(0.2\frac{m}{s})$

$8m\frac{dw}{dt}=-1.2\frac{m^2}{s}$

$\frac{dw}{dt}=-0.15\frac{m}{s}$

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Example Question #3012 : Calculus

A right triangle has legs of lengths and . The shorter side is lengthening at a rate of $0.3\frac{m}{s}$ , and the longer side is shrinking at a rate of $0.1\frac{m}{s}$ . At the moment the triangle becomes isosceles, what will be the rate of change of its area?

Possible Answers:

$0.75\frac{m^2}{s}$

$0.3\frac{m^2}{s}$

$0.375\frac{m^2}{s}$

$0.1\frac{m^2}{s}$

$0.2\frac{m^2}{s}$

Correct answer:

$0.375\frac{m^2}{s}$

Explanation:

A triangle is isosceles when two of its sides are equal. Since the hypotenuse will always be greater than the two legs, this question is essentially considering the moment in time when the two legs are equal.

The lengths of the legs at a moment in time can be defined by the functions:

$a=3m+0.3\frac{m}{s}t$

$b=4m-0.1\frac{m}{s}t$

To find when they sides are equal, set their respective equations equal to each other:

$3m+0.3\frac{m}{s}t=4m-0.1\frac{m}{s}t$

$0.4\frac{m}{s}t=1m$

t=2.5s

At this time

a=b=3.75m

The area of a right triangle is given by the formula

$A=\frac{1}{2}ab$

So the rate of change of the area can be found by taking the derivative of each side of the equation with respect to time:

$\frac{dA}{dt}=\frac{1}{2}(a\frac{db}{dt}+b\frac{da}{dt})$

$\frac{dA}{dt}=\frac{1}{2}(3.75m(-0.1\frac{m}{s})+3.75m(0.3\frac{m}{s}))$

$\frac{dA}{dt}=\frac{1}{2}(3.75m(0.2\frac{m}{s}))$

$\frac{dA}{dt}=0.375\frac{m^2}{s}$

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Example Question #3013 : Calculus

The legs of a right triangle are given by the functions a(t)=4-t and b(t)=3+t . What is the minimum value of the hypotenuse?

Possible Answers:

$\frac{5}{2}$

$7\sqrt{2}$

$\frac{7}{2}$

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

Correct answer:

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

Explanation:

The hypotenuse of a right triangle, in terms of the triangle's legs, is given by the Pythagorean theorem as:

c^2=a^2+b^2

For legs a(t)=4-t and b(t)=3+t , the hypotenuse of this problem's triangle can be written as:

c^2(t)=(4-t)^2+(3+t)^2

c^2(t)=t^2-8t+16+t^2+6t+9

$c(t)=\sqrt{2t^2-2t+25}$

To find where this function has maxima/minima, take the derivative with respect to time and set it equal to zero:

$c'(t)=\frac{1}{2}\frac{4t-2}{\sqrt{2t^2-2t+25}}$

$\frac{1}{2}\frac{4t-2}{\sqrt{2t^2-2t+25}}=0$

4t-2=0

$t=\frac{1}{2}$

The derivative is negative at an earlier time and positive at a later time, indicating a minimum.

$c_{min}=c(\frac{1}{2})=\sqrt{2(\frac{1}{2})^2-2(\frac{1}{2})+25}$

$c_{min}=\frac{7\sqrt{2}}{2}$

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Example Question #101 : How To Find Rate Of Change

The length sof the sides of a square at a point in time are given by function $\small s(t)=4+3t-t^2$ . What is the maximum area that the square will achieve?

Possible Answers:

$\small 36$

$\small 54$

$\small 28$

$\small \frac{25}{4}$

$\small \frac{625}{16}$

Correct answer:

$\small \frac{625}{16}$

Explanation:

The area of a square in terms of its sides is given by the function:

$\small A=s^2$

For sides expressed as the function $\small s(t)=4+3t-t^2$ the area is then

$\small A(t)=(4+3t-t^2)^2$

The maximum of the area can be found by taking the derivative of the area function and seeing where it is equal to zero:

To find the derivative use the chain rule and power rule.

Chain Rule: $f(g(x))'=f'(g(x))\cdot g'(x)$

Power Rule: $(x^n)'=nx^{n-1}$

$\small A'(t)=2(3-2t)(4+3t-t^2)$

$\small A'(t)=2(3-2t)(4-t)(1+t)$

So there are two times where the rate of change of the area is zero (dismissing negative times):

$\small t=\frac{3}{2},4$

However, after time $\small t=4$ , the sides of the square take on negative values, which is geometrically impossible.

$\small t=\frac{3}{2}$ corresponds to the time when the area of the square reaches a maximum value of

$\small A_{max}=\small \small A(\frac{3}{2})=(4+3(\frac{3}{2})-(\frac{3}{2})^2)^2$

$\small A_{max}=\frac{625}{16}$

Another method of solving this particular problem would be to find the time when the sides achieve their maximum value and then squaring this value.

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Example Question #104 : Rate Of Change

The sides of a rectangle are given by the functions (in terms of time) $\small w(t)=8-t$ and $\small l(t)=10+3t-t^2$ . What is the maximum area that the rectangle will achieve?

Possible Answers:

$\small 129.329$

$\small 32.115$

$\small 212.408$

$\small 61.896$

$\small 84.753$

Correct answer:

$\small 84.753$

Explanation:

The area of a rectangle can be expressed in terms of its sides as:

$\small A=wl$

For sides $\small w(t)=8-t$ and $\small l(t)=10+3t-t^2$ , the expression in this problem becomes:

$\small A(t)=(8-t)(10+3t-t^2)$

$\small A(t)=t^3-11t^2+14t+80$

The time(s) where the area reaches a maximum or minimum can then be found by taking the derivative of this expression with respect to time:

To find the derivative use the power rule.

Power Rule: $(x^n)'=nx^{n-1}$

$\small A'(t)=3t^2-22t+14$

There are two times when this expession is equal to zero, which can be found using the quadratic formula:

$\small t_{1,2}=\frac{22\pm \sqrt{22^2-4(3)(14)}}{2(3)}$

$\small t_{1,2}=\frac{11\pm \sqrt{79}}{3}$

$\small t_{1,2}=0.704,6.629$

Note that at time $\small t=6.629$ , the length takes a negative value which is impossible. Before time $\small t=0.704$ the derivative is positive, and immediately afterwards the derivative is negative, so it indicates a maximum.

$\small A_{max}=\small A(0.704)=(0.704)^3-11(0.704)^2+14(0.704)+80$

$\small A_{max}=84.753$

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Example Question #105 : Rate Of Change

The legs of a right triangle are defined by the functions a(t)=6-t and b(t)=8+t^2 . What is the minimum length of the hypotenuse?

Possible Answers:

7.231

4.899

11.235

2.996

9.894

Correct answer:

9.894

Explanation:

The hypotenuse can be found in terms of the legs of a right triangle via the Pythagorean Theorem:

a^2+b^2=c^2

For sides a(t)=6-t and b(t)=8+t^2 , the hypotenuse is

c^2(t)=(6-t)^2+(8+t^2)^2

c^2(t)=t^2-12t+36+t^4+16t^2+64

$c(t)=\sqrt{t^4+17t^2-12t+100}$

The maxima and minima of this value can be determined by taking the derivative with respect to time and setting it equal to zero:

To find the derivative use the power rule.

Power Rule: $(x^n)'=nx^{n-1}$

$c'(t)=\frac{4t^3+34t-12}{2\sqrt{t^4+17t^2-12t+100}}$

There is only one real root at time t=0.348 . At an earlier time t=0 , the function is negative and at a later time t=1 the function is positive, indicating that this is a minimum value.

$c_{min}=c(0.348)=\sqrt{(0.348)^4+17(0.348)^2-12(0.348)+100}$

$c_{min}=9.894$

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Example Question #3021 : Calculus

The radius of a circle at a point in time is given by the function r(t)=-t^2+8t+20 . What is the maximum area of the circle?

Possible Answers:

$648\pi$

$1296\pi$

$1784\pi$

$446\pi$

$892\pi$

Correct answer:

$1296\pi$

Explanation:

The area of a circle is given by the function:

$A=\pi r^2$

To find the maximum area, determine the maximum radius.

For the function

r(t)=-t^2+8t+20

The maxima/minima can be found by finding the time when the rate of change is zero, i.e. when r'(t)=0 .

To find the derivative use the power rule.

Power Rule: $(x^n)'=nx^{n-1}$

The derivative is

r'(t)=-2t+8

Setting this equal to zero gives a time of t=4 . Since the function is positive before this time and negative afterwards, this indicates a maximum.

$r_{max}=r(4)=-16+32+20=36$

$A_{max}=\pi (36^2)$

$A_{max}=1296\pi$

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Example Question #3022 : Calculus

The sides of a rectangle are given by the functions w(t)=2t+7 and l(t)=t^2+3 . What is the rate of change of the area of the rectangle at time t=2 ?

Possible Answers:

154

Correct answer:

Explanation:

The area of a rectangle in terms of its sides is given by the function:

A=wl

For sides w(t)=2t+7 and l(t)=t^2+3

A(t)=(2t+7)(t^2+3)

A(t)=2t^3}+7t^2+6t+21

The rate of change of the area can be found by taking the derivative of the equation with respect to time:

To find the derivative use the power rule.

Power Rule: $(x^n)'=nx^{n-1}$

A'(t)=6t^2+14t+6

At time t=2

A'(2)=6(2)^2+14(2)+6

A'(2)=24+28+6

A'(2)=58

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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 #101 : Rate Of Change

Example Question #102 : How To Find Rate Of Change

Example Question #102 : Rate Of Change

Example Question #3012 : Calculus

Example Question #3013 : Calculus

Example Question #101 : How To Find Rate Of Change

Example Question #104 : Rate Of Change

Example Question #105 : Rate Of Change

Example Question #3021 : Calculus

Example Question #3022 : Calculus

All Calculus 1 Resources

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