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Integration

Understand the concept of integration by approximating areas under curves with rectangles and observing convergence to the original function. Discover properties of real numbers and functions in this Newton project.

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Integration

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  1. Integration Newton project, Culverhay, Wednesday September 21st

  2. The idea of integration is to find the area under a curve between two ordinates a and b;

  3. The way to do this is to approximate the area by a sequence of rectangles;

  4. Notice, as the width of the rectangles decreases, we get a better approximation to the area;

  5. And that the areas under the rectangles increases;

  6. Finally, the rectangles converge to our original function f(x);

  7. Observe that all the areas, under the rectangles, are bounded by the area under a larger rectangle;

  8. If we divide [a,b] into n intervals of width then the total area under the rectangles is given by; By subdividing each rectangle into halves, at each stage, as shown in the slides, the sequence of areas increases. Moreover, the areas are all bounded by the amount We thus obtain a bounded sequence of increasing real numbers. It is a property of the real numbers, that such a sequence has a limit A, the area under the curve.

  9. More technical questions to consider; (i). Why does the sequence of areas increase, in this example. Can I always refine my partition and define rectangles with this property? (ii). What property of the function, f , ensures that the sequence of rectangles converges to f? (iii). If I choose a different sequence of rectangles, am I guaranteed to obtain the same limit, the area under the curve? The reader interested in doing some independent reading, should look at a textbook on integration to resolve these questions. I would recommend Chapters 1-3 of “Lebesgue Integration and Measure”, by Alan Weir, (CUP).

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