Fundamental Theorem of Calculus Part 1 (FTC 1) We’ll follow the numbering of the two theorems in your text. It’s not too important which theorem you think is the first one and which theorem you think is the second one, but it is important for you to remember that there are two theorems. Different textbooks will refer to one or the other theorem as the First Fundamental Theorem or the Second Fundamental Theorem. While most calculus students have heard of the Fundamental Theorem of Calculus, many forget that there are actually two of them. Video 3 The Fundamental Theorems of Calculus For now, we’ll restrict our attention to easier shapes. Thenįigure 1: A graph of a function f(x) and three shaded regions between it and the x-axis, between x=-2 and x=1įor most irregular shapes, like the ones in Figure 1, we won’t have an easy formula for their areas. Let’s call the area of the blue region, the area of the green region, and the area of the purple region. To determine the value of the definite integral, we would need to know the areas of the three regions. The blue and purple regions are above the -axis and the green region is below the -axis. Figure 1 shows the graph of a function in red and three regions between the graph and the -axis and between and. The following picture, Figure 1, illustrates the definition of the definite integral. The function is still called the integrand and is still called the variable of integration (just like for indefinite integrals in Lesson 1).Ī picture is worth a thousand words. We call the lower limit of integration and the upper limit of integration. That is, if a function is defined on a closed interval, then the definite integral is defined as the signed area of the region bounded by the vertical lines and, the -axis, and the graph if the region is above the -axis, then we count its area as positive and if the region is below the -axis, we count its area as negative. We will not make sense of that definition until we cover Riemann sums in Lesson 21: Approximating areas (link here).ĭefinition: A definite integral is a signed area. Take only a quick look at Definition 1.8 in the text (link here).
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