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Calculus 1 : Writing Equations

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Example Questions

Example Question #1211 : Functions

Find the area under the curve $y=25x^{4}+10$ between x=1 and x=5 .

Possible Answers:

15670

15690

15660

15600

3456

Correct answer:

15660

Explanation:

In order to find the area underneath a curve for a specific range of values, we need to set up a definite integral expression. To do this, we plug our specific information into the following skeleton:

$\int_{a}^{b}f(x) dx$

We plug in the equation of the curve in for f(x) , the smaller of our x-values for , and the larger of our x-values for . For this problem, our set-up looks like this:

$\int_{1}^{5}(25x^{4}+10)dx$

Next, we integrate our expression, ignoring our and values for now. We get:

$F(x)= 5x^{5}+10x$

Now, to find the area under the part of the curve we're looking for, we plug our and values into our integrated expression and find the difference, using the following skeleton:

area = F(b)-F(a)

In this problem, this looks like:

area = F(5)-F(1)

Which plugged into our integrated expression is:

$area = [5(5)^{5}+10(5)] - [5(1)^{5}+10(1)]$

area = [5(3125)+50] - [5(1)+10]

area = [15625+50] - [5+10]

area = [15675] - [15]

With our final answer being:

area = 15660

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Example Question #161 : Writing Equations

$\int_{0}^{2}3x^2-x+4dx$

Possible Answers:

Correct answer:

Explanation:

First, integrate the expression. Remember, when integrating, raise the exponent by 1 and then put that result on the denominator as well: $\frac{3x^3}{3}-\frac{x^2}{2}+4x$ . Then, evaluate that expression by plugging in 2 and then subtract from that the result from plugging in 0: (8-2+8)-(0)=14 .

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Example Question #163 : Integral Expressions

$\int \frac{4x^3-6x^2+10x}{2x}dx$

Possible Answers:

$-\frac{2}{3}x^3-\frac{3}{2}x^2+5x+C$

$\frac{2}{3}x^3-\frac{3}{2}x^2+5x+C$

$\frac{2}{3}x^3-\frac{3}{2}x^2+5x$

Correct answer:

$\frac{2}{3}x^3-\frac{3}{2}x^2+5x+C$

Explanation:

The first step I'd recommend is to chop up the expression into 3 terms since we have one denominator: $\int 2x^2-3x+5dx$ . Now, integrate each term, remembering to add one to the exponent and then putting that result in the denominator as well: $\frac{2}{3}x^3-\frac{3}{2}x^2+5x.$ Tack on a "+C" at the end because it is an indefinite integral.

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Example Question #163 : Integral Expressions

$\int \frac{4x^3-6x^2+10x}{2x}dx$

Possible Answers:

$-\frac{2}{3}x^3-\frac{3}{2}x^2+5x+C$

$\frac{2}{3}x^3-\frac{3}{2}x^2+5x+C$

$\frac{2}{3}x^3-\frac{3}{2}x^2+5x$

Correct answer:

$\frac{2}{3}x^3-\frac{3}{2}x^2+5x+C$

Explanation:

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Example Question #162 : Writing Equations

Evaluate the following integral:

$\int (x^7+x^5+10\cos(x)+e^{2x})dx$

Possible Answers:

$\frac{x^8}{8}+\frac{x^6}{6}-10\sin(x)+\frac{e^{2x}}{2}+C$

$\frac{x^8}{8}+\frac{x^6}{6}+10\sin(x)+\frac{e^{2x}}{2}+C$

$x^8+x^6+10\sin(x)+\frac{e^{2x}}{2}+C$

$\frac{x^8}{8}+\frac{x^6}{6}+10\sin(x)+e^{2x}+C$

Correct answer:

$\frac{x^8}{8}+\frac{x^6}{6}+10\sin(x)+\frac{e^{2x}}{2}+C$

Explanation:

The integral is equal to

$\frac{x^8}{8}+\frac{x^6}{6}+10\sin(x)+\frac{e^{2x}}{2}+C$

and was found using the following rules:

$\int x^n dx=\frac{x^{n+1}}{n+1}+C, \int e^{ax}dx = \frac{e^{ax}}{a}+C, \int \cos(x)dx=\sin(x)+C$

Note that all of the constants of integration added up to a single C.

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Example Question #165 : Integral Expressions

Evaluate the following integral:

$\int (6\sec(6x)\tan(6x)+e^{3x})dx$

Possible Answers:

$\sec(6x)+\frac{e^{3x}}{3}+C$

$\sec(x)+\frac{e^{3x}}{3}+C$

$-\sec(6x)+\frac{e^{3x}}{3}+C$

$\tan(6x)+\frac{e^{3x}}{3}+C$

Correct answer:

$\sec(6x)+\frac{e^{3x}}{3}+C$

Explanation:

To evaluate the integral, we can split the integral into the sum of two integrals:

$\int 6\sec(6x)\tan(6x)dx + \int e^{3x}dx$

The first integral can be solved using a substitution:

u=6x, du=6 dx

and the integral rewritten in terms of u is

$\int \sec(u)\tan(u)du= \sec(u)+C$

The integral was solved using the identical rule.

Now, we replace u with our original term:

$\sec(6x)+C$ .

Solving the second integral, we get

$\int e^{3x}dx=\frac{e^{3x}}{3}+C$

using the following rule:

$\int e^{ax}dx=\frac{e^{ax}}{a}+C$

Summing the results, we get

$\sec(6x)+\frac{e^{3x}}{3}+C$

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Example Question #2241 : Calculus

Evaluate the following integral:

$\int 8te^{7t^2}dt$

Possible Answers:

$\frac{4}{7}e^{7t^2}+C$

$4e^{7t^2}+C$

$\frac{4}{7}e^{t^2}+C$

Correct answer:

$\frac{4}{7}e^{7t^2}+C$

Explanation:

To evaluate the integral, we must make the following substitution:

u=7t^2, du=14tdt

The derivative was found using the following rule:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$

Next, we rewrite the integral and integrate:

$\frac{4}{7}\int e^u du=\frac{4}{7}e^u+C$

The integral was found using the following rule:

$\int e^x dx=e^x+C$

Finally, replace u with our original x term:

$\frac{4}{7}e^{7t^2}+C$

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Example Question #162 : Integral Expressions

Evaluate the following integral:

$\int (\sin(3x)+e^{12x}+5)dx$

Possible Answers:

$-{\cos(3x)}+\frac{e^{12x}}{12}+5x+C$

$-\frac{\cos(3x)}{3}+\frac{e^{12x}}{12}+5x+C$

$-\frac{\cos(3x)}{3}+\frac{e^{12x}}{12}+5+C$

$\frac{\cos(3x)}{3}+\frac{e^{12x}}{12}+5x+C$

Correct answer:

$-\frac{\cos(3x)}{3}+\frac{e^{12x}}{12}+5x+C$

Explanation:

To integrate, we can split the integral into three integrals, for ease of making substitutions later:

$\int \sin(3x) dx + \int e^{12x}dx + \int 5 dx$

To integrate the first integral, we must make the following substitution:

u=3x, du=3 dx

Next, rewrite the integral and integrate:

$\frac{1}{3}\int \sin(u)du= -\frac{1}{3}\cos(u)+C$

The integral was performed using the following rule:

$\int \sin(x)dx=\cos(x)+C$

Finally, replace u with the original term:

$-\frac{\cos(3x)}{3}+C$

The result of all three integrals, added together, is

$-\frac{\cos(3x)}{3}+\frac{e^{12x}}{12}+5x+C$

and the other two integrals were integrated using the following rules:

$\int e^{ax}dx=\frac{e^{ax}}{a}+C$ , $\int dx= x+C$

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Example Question #168 : Integral Expressions

Evaluate the following integral:

$\int x\sec(2x^2)dx$

Possible Answers:

$\ln\left | \sec(2x^2)+\tan(2x^2)\right |+C$

$\frac{1}{4}\ln\left | \sec(2x^2)+\tan(2x^2)\right |+C$

$\frac{1}{4}\ln\left | \sec(4x)+\tan(4x)\right |+C$

$-\frac{1}{4}\ln\left | \sec(2x^2)+\tan(2x^2)\right |+C$

Correct answer:

$\frac{1}{4}\ln\left | \sec(2x^2)+\tan(2x^2)\right |+C$

Explanation:

To evaluate the integral, we must make the following substitution:

u=2x^2, du=4xdx

The derivative was found using the following rule:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$

Next, rewrite the integral in terms of u and integrate:

$\frac{1}{4}\int \sec(u)du=\frac{1}{4}\ln\left | \sec(u)+\tan(u) \right |+C$

The integral was found using the following rule:

$\int \sec(x)dx=\ln\left | \sec(x)+\tan(x)\right |+C$

Finally, replace u with our original x term:

$\frac{1}{4}\ln\left | \sec(2x^2)+\tan(2x^2)\right |+C$

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Example Question #1221 : Functions

Evaluate the following integral:

$\int 6x^2e^{4x^3+12}dx$

Possible Answers:

$e^{4x^3+2}+C$

$\frac{1}{2(4x^3+2)}e^{4x^3+2}+C$

$\frac{1}{2}e^{4x^3+2}+C$

$\frac{1}{2}e^{4x^3+2}+2x+C$

Correct answer:

$\frac{1}{2}e^{4x^3+2}+C$

Explanation:

To evaluate the integral, we first must perform the following substitution:

u=4x^3+2, du=12x^2dx

The derivative was found using the following rule:

$\frac{\mathrm{d} }{\mathrm{d} x} x^n=nx^{n-1}$

Now, rewrite the integral and integrate:

$\frac{1}{2}\int e^u du =\frac{1}{2}e^u+C$

The integral was performed using the following rule:

$\int e^x dx=e^x +C$

Finally, replace u with our original term:

$\frac{1}{2}e^{4x^3+2}+C$

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Calculus 1 : Writing Equations

Study concepts, example questions & explanations for Calculus 1

All Calculus 1 Resources

Example Questions

Example Question #1211 : Functions

Example Question #161 : Writing Equations

Example Question #163 : Integral Expressions

Example Question #163 : Integral Expressions

Example Question #162 : Writing Equations

Example Question #165 : Integral Expressions

Example Question #2241 : Calculus

Example Question #162 : Integral Expressions

Example Question #168 : Integral Expressions

Example Question #1221 : Functions

All Calculus 1 Resources

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