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4.2 Area. Sigma Notation where i is the index of summation, a i is the ith term, and the lower and upper bounds of summation are 1 and n respectively.

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Presentation on theme: "4.2 Area. Sigma Notation where i is the index of summation, a i is the ith term, and the lower and upper bounds of summation are 1 and n respectively."— Presentation transcript:

1 4.2 Area

2 Sigma Notation where i is the index of summation, a i is the ith term, and the lower and upper bounds of summation are 1 and n respectively The sum of n terms a 1, a 2, a 3, ….an is written

3 Examples:

4 Properties of Summations Summation Formulas

5 Example 1: Find the sum of the first 100 integers.

6 Example 2: Summation Practice

7 Example 3: Limits Review

8 Example 4: Limit of a Sequence

9 Warm-up

10 Definition of the Area of a Rectangle: A=bh Take a rectangle whose area is twice the triangle: A=1/2 bh For any polygon, just divide the polygon into triangles.

11 Area of Inscribed Polygon < Area Circle < Area of Circumscribed Polygon

12 Area of a Plane Region Find the area under the curve of Between x = 0 and x = 2

13 Area of a Plane Region—Upper and Lower Sums Begin by subdividing the interval [a,b] into n subintervals, each of length Endpoints of the subintervals: Because f is continuous, the Extreme Value Theorem guarantees the existence of a min and a max on the interval.

14 Sum of these areas= lower sum Sum of these areas= upper sum

15 Example: Find the upper and lower sums for the region bounded by the graph of

16

17 Example: Find the area of the region bounded by the graph of

18

19

20

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