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Course: AP®︎ Calculus AB (2017 edition) > Unit 9
Lesson 3: Indefinite integrals: reverse power rule- Reverse power rule
- Reverse power rule
- Reverse power rule: negative and fractional powers
- Indefinite integrals: sums & multiples
- Reverse power rule: sums & multiples
- Rewriting before integrating
- Reverse power rule: rewriting before integrating
- Reverse power rule review
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Reverse power rule review
Review your knowledge of the reverse power rule for integrals and solve problems with it.
What is the reverse power rule?
The reverse power rule tells us how to integrate expressions of the form where :
Basically, you increase the power by one and then divide by the power .
Remember that this rule doesn't apply for .
Instead of memorizing the reverse power rule, it's useful to remember that it can be quickly derived from the power rule for derivatives.
Want to learn more about the reverse power rule? Check out this video.
Integrating polynomials
We can use the reverse power rule to integrate any polynomial. Consider, for example, the integration of the monomial :
Remember you can always check your integration by differentiating your result!
Want to try more problems like this? Check out these exercises:
Integrating negative powers
The reverse power rule allows us to integrate any negative power other than . Consider, for example, the integration of :
Want to try more problems like this? Check out these exercises:
Integrating fractional powers and radicals
The reverse power rule also allows us to integrate expressions where is raised to a fractional power, or radicals. Consider, for example, the integration of :
Want to try more problems like this? Check out these exercises:
Want to join the conversation?
- What would you do if n=-1? What would the integral be of x^-1?(51 votes)
ln(x)
If you have mastered differential calc at KA, then you most likely have come across the derivative ofln(x) = 1/x
.(155 votes)
- Until when is integration going to be fun like this?(9 votes)
- It's fun until you enjoy it. Integrals will get lengthier and will require more methods and thinking, but if you learn to enjoy a subject, no matter how hard concepts get, you'll still have fun doing problems.
Frankly though, integrals in Calc II can get pretty nasty as here, they're testing you on how smart you are when it comes to figuring out a way to integrate. So, they can give you the wackiest integrals on the planet. If/when you reach Calc III, you'll learn about double and triple integrals (Yeah. They exist lol!). Here, you're not tested on how well you can integrate. So, your integrand will be fairly simple. You'll be tested on how well you can visualize and define the region (which is easy in single variable Calculus as there is only one axis to take care of), which is really the hardest part about multiple integrals.(16 votes)
- It's so easy.
Just like differential calculus, integral calculus has its own rules.(15 votes) - how do you integrate sin^2 x?(4 votes)
- How do we go from 1/3 x^3 to 4sqrtx^8?(2 votes)
- 4sqrtx^8 is rewritten as x^2, because (x^2)^4 = x^8
Therefore, the antiderivative of x^2 is:
x^(2+1) / (2+1) + C
x^3 / (3) + C
1/3 x^3 + C(5 votes)
- What is integral of √ax+b dx(1 vote)
- It is ambiguous.....are both ax under the radical or just a?....Let's solve the first case which is the most laborious case....
2*5^(1/2)*x^(3/2)/3 + bx I hope it helps!(5 votes)
- how do you do this(2 votes)
- how do you integrate>> ((4with under root) x^8)(2 votes)
- ((4 with under root) x^8)
= (x^8)^(1/4)
= x^(8/4)
= x^2
Now, if you integrate x^2, you will have x^3/3+c
You can always rewrite ((n with under root)of x) as x^(1/n).(1 vote)
- is it better to write in fractional exponents or roots? which has greater simplification?(1 vote)
- Both are fine as an answer, but if you need to work with them, fractional powers are better as you can directly use exponent laws on them(1 vote)
- how to integrate derivatives like (x+3)^4?(1 vote)