Integration. Darboux Sums. Philippe B. Laval. Today KSU. Philippe B. Laval (KSU) Darboux Sums Today 1 / 13

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Integration Darboux Sums Philippe B. Laval KSU Today Philippe B. Laval (KSU) Darboux Sums Today 1 / 13

Introduction The modern approach to integration is due to Cauchy. He was the first to construct a theory of integration based on approximating the area below a curve. He proved the Fundamental Theorem of Calculus. The modern definition of the integral is attributed to the German mathematician Bernhard Riemann (1826-1866). He modified Cauchy s definition and developed the theory of integration which bears his name. He was also able to find necessary and suffi cient conditions for a real valued bounded function to be integrable. The Dutch mathematician Thomas Jan Stieltjes (1856-1894) improved on the notion developed by Riemann. Though his improvements involved only minor modifications of Riemann s definition, the consequences of these modifications are far reaching. At the beginning of the twentieth century, the French mathematician Henri Lebesgue (1875-1942) introduced the new notion of measure of a set which paved the way to the foundations of the modern theory of integration. Philippe B. Laval (KSU) Darboux Sums Today 2 / 13

Introduction Before getting deeply into the subject, it is necessary to develop additional terminology and concepts. We then define the Riemann integral using a modified approach of Riemann s original definition. This modified approach is due to the French mathematician Jean Gaston Darboux (1842-1917). We will call this integral the Riemann-Darboux integral. We then study Riemann s original definition and show the integral obtained with it is the same as the Rieman-Darboux integral. We then study important theorems and properties about the Riemann integral. We discuss the integral of a function f over the interval [a, b], we assume that f : [a, b] R is defined and bounded on [a, b]. Philippe B. Laval (KSU) Darboux Sums Today 3 / 13

Notion of a Partition Definition (Partition) Let a, b R with a b. 1 A partition P of [a, b] is a finite set of points P = {x 0, x 1, x 2,..., x n } where a = x 0 < x 1 < x 2 <... < x n = b. 2 The width of the ith interval will be denoted d i. In other words, d i = x i x i 1 for each i = 1, 2,..., n. The basic idea is to divide the interval [a, b] into a finite collection of subintervals. In the above definition, we have n + 1 points and n subintervals. The ith interval is the interval [x i 1, x i ]. Not all the intervals need to have the same length. Philippe B. Laval (KSU) Darboux Sums Today 4 / 13

Partition Definition (norm of a partition) Let P = {x 0, x 1, x 2,..., x n } be a partition of [a, b]. The mesh or norm of P, denoted P is defined by: P = max {d 1, d 2,..., d n } The following should be obvious to the reader: 1 If all the subintervals have equal length, then P = b a n n 2 d i = b a i=1 3 The minimum number of subintervals any partition must have is b a and therefore, the minimum number of points such a partition P must have is b a P + 1. Philippe B. Laval (KSU) Darboux Sums Today 5 / 13

Partition Example Find a partition of [ 3, 4] having norm 1 10. Definition Let P and Q be two partitions of [a, b]. We say that Q is a refinement of P if P Q. Saying that Q is a refinement of P means that Q contains all the points of P and some extra points. One way to obtain a refinement of a partition is simply to add some points to that partition. If P and Q are two partitions of [a, b] then P Q is a refinement of both P and Q and P and Q are refinements of P Q. Proposition If Q is a refinement of P, then Q P. Philippe B. Laval (KSU) Darboux Sums Today 6 / 13

Darboux Sums:Definitions Let P = {x 0, x 1,...x n } be any partition of [a, b]. Since f is bounded on [a, b], then it has both a supremum and an infimum on [a, b]. Thus, we can define: and M = sup {f (x) : x [a, b]} m = inf {f (x) : x [a, b]} Also, if f is bounded on [a, b], then it is bounded on each subinterval [x i 1, x i ]. Therefore, we can define and M i = sup {f (x) : x [x i 1, x i ]} m i = inf {f (x) : x [x i 1, x i ]} From the definition, it should be clear that m m i M i M Philippe B. Laval (KSU) Darboux Sums Today 7 / 13

Darboux Sums:Definitions Definition (Darboux Sums) The upper Darboux sum of the function f,corresponding to the partition P, denoted S (f, P), is defined by: S (f, P) = n M i d i. i=1 The lower Darboux sum of the function f,corresponding to the partition P, denoted S (f, P), is defined by: S (f, P) = n m i d i. i=1 Philippe B. Laval (KSU) Darboux Sums Today 8 / 13

Darboux Sums: Properties Darboux sums are very important to what is about to follow. Before we continue, let us make several important remarks. 1 Each Darboux sum depends on the function f and the partition P. This is why we denote them S (f, P) and S (f, P). Since every partition has a finite number of subinterval, and f is bounded on each subinterval, every Darboux sum is finite. 2 In the case f is a positive function on [a, b], the upper Darboux sum corresponds to the sum of the areas of the rectangles above the graph of f. The lower Darboux sum corresponds to the sum of the areas of the rectangles below the graph of f. Thus, these Darboux sums will give an upper and a lower bound for the area below the graph of f. 3 When we are dealing with one bounded function f, we can omit it in the notation for the Darboux sum and simply write S (P) and S (P). Philippe B. Laval (KSU) Darboux Sums Today 9 / 13

Darboux Sums: Properties Lemma If P = {a, b} then S (P) = M (b a) and S (P) = m (b a). Otherwise, if P is an arbitrary partition of [a, b] then m (b a) S (P) S (P) M (b a) This lemma establishes the fact that for a fixed bounded function, the collection of all the upper sums as well as the collection of all the lower sums is bounded below and above. This fact will prove to be crucial for the development of our theory. Philippe B. Laval (KSU) Darboux Sums Today 10 / 13

Darboux Sums: Properties Lemma Let f and g be defined on [a, b], and P be a partition of [a, b]. Then 1 S (cf, P) = cs (f, P) for any constant c 0. 2 S (cf, P) = cs (f, P) for any constant c < 0. 3 S (f, P) S ( f, P) 4 S (f + g, P) S (f, P) + S (g, P) Philippe B. Laval (KSU) Darboux Sums Today 11 / 13

Darboux Sums: Properties We now need to understand what kind of functions will be R-D integrable. We also need to learn how to compute the Riemann-Darboux integral. The next results will help us achieve that. Theorem If f is a bounded function on [a, b] and Q is a refinement of a partition P on [a, b]then S (P) S (Q) S (Q) S (P) This theorem was about a partition and its refinement. The next result is about any two partitions. Theorem If f is a bounded function on [a, b] and P and Q are any two partitions of [a, b], then S (Q) S (P) Philippe B. Laval (KSU) Darboux Sums Today 12 / 13

Exercises See the problems at the end of my notes on Darboux Sums. Philippe B. Laval (KSU) Darboux Sums Today 13 / 13

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