Difference between revisions of "022 Exam 2 Sample A, Problem 2"
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| − | ::<math style="vertical-align: -70%;">\int x^n\,dx\,=\,\frac{x^{n+1}}{n+1} +C,</math>  for <math style="vertical-align: -25%;"> | + | ::<math style="vertical-align: -70%;">\int x^n\,dx\,=\,\frac{x^{n+1}}{n+1} +C,</math>  for <math style="vertical-align: -25%;">n\neq -1.</math> |
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|Also, like derivatives, multiplication by a constant and addition/subtraction are respected by the antiderivative: | |Also, like derivatives, multiplication by a constant and addition/subtraction are respected by the antiderivative: | ||
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<math>\begin{array}{rcl} | <math>\begin{array}{rcl} | ||
\int y\, dx & = & \int3x^{2}-12x+8\, dx\\ | \int y\, dx & = & \int3x^{2}-12x+8\, dx\\ | ||
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& = & 3\cdot \frac{x^3}{3}-12\cdot \frac{x^2}{2}+8x+C\\ | & = & 3\cdot \frac{x^3}{3}-12\cdot \frac{x^2}{2}+8x+C\\ | ||
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| + | & = & x^3-6x^2+8x+C.\end{array}</math> | ||
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|Do <u>'''not'''</u> forget the constant when evaluating an antiderivative (i.e., an integral without upper and lower bounds)! | |Do <u>'''not'''</u> forget the constant when evaluating an antiderivative (i.e., an integral without upper and lower bounds)! | ||
Latest revision as of 06:49, 16 May 2015
Find the antiderivative of
| Foundations: |
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| We only require some fundamental rules for antiderivatives/integrals. We have the power rule: |
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| Also, like derivatives, multiplication by a constant and addition/subtraction are respected by the antiderivative: |
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| Solution: |
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| We can apply the rules listed above to find |
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| Do not forget the constant when evaluating an antiderivative (i.e., an integral without upper and lower bounds)! |
| Final Answer: |
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