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Integration/ Antiderivative

Integration/ Antiderivative. First let’s talk about what the integral means!. Can you list some interpretations of the definite integral?. Here’s a few facts :. 1. If f(x) > 0, then returns the numerical value of the area between f(x) and the x-axis (area “under” the curve)

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Integration/ Antiderivative

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  1. Integration/Antiderivative

  2. First let’s talk about what the integral means! Can you list some interpretations of the definite integral?

  3. Here’s a few facts: 1. If f(x) > 0, then returns the numerical value of the area between f(x) and the x-axis (area “under” the curve) • = F(b) – F(a) where F(x) is any anti-derivative of f(x). (Fundamental Theorem of Calculus) 3. Basically gives the total cumulative change in f(x) over the interval [a,b]

  4. What is a Riemann Sum? Hint: Here’s a picture!

  5. A Riemann sum is the area of n rectangles used to approximate the definite integral. = area of n rectangles As n approaches infinity… and • So the definite integral sums infinitely many infinitely thin rectangles! (Calculus trivia: as n (number of rectangles) goes to the summation sign becomes the integral sign and x becomes dx)

  6. The indefinite integral = ?

  7. Well…hard to write; easy to say The indefinite integral equals the general antiderivative… = F(x) + C Where F’(x) = f(x)

  8. = ax + C

  9. = + C

  10. = - cos x + C Don’t forget we are going backwards! So if the derivative was positive, the anti-derivative is negative. = sin x + C

  11. = ln |x| +C You need the absolute value in case x<0

  12. where n > 1 Hint:

  13. 1/xn = x-n sooooooo……. the answer is: + C You didn’t say ln(xn) did ya??

  14. = ex + c Easiest anti-derivative in the universe, eh?

  15. Examples:

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