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Conic Sections Application Problems

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Presentation on theme: "Conic Sections Application Problems"— Presentation transcript:

1 Conic Sections Application Problems

2 Example 1

3 A "whispering room" is one with an elliptically-arched ceiling
A "whispering room" is one with an elliptically-arched ceiling. If someone stands at one focus of the ellipse and whispers something to his friend, the dispersed sound waves are reflected by the ceiling and concentrated at the other focus, allowing people across the room to clearly hear what he said.

4 Suppose such a gallery has a ceiling reaching twenty feet above the five-foot-high vertical walls at its tallest point (so the cross-section is half an ellipse topping two vertical lines at either end), and suppose the foci of the ellipse are thirty feet apart. What is the height of the ceiling above each "whispering point"?

5 Since the ceiling is half of an ellipse (the top half, specifically), and since the foci will be on a line between the tops of the "straight" parts of the side walls, the foci will be five feet above the floor, which sounds about right for people talking and listening: five feet high is close to face-high on most adults.

6 I'll center my ellipse above the origin, so (h, k) = (0, 5)
I'll center my ellipse above the origin, so (h, k) = (0, 5). The foci are thirty feet apart, so c = 15 15 (0, 5)

7 Since the elliptical part of the room's cross-section is twenty feet high above the center, and since this "shorter" direction is the minor axis, then b = Find a2. a2 = b2 + c2 a2 = a2 = 625 20. 20 15 15 (0, 5)

8 Then the equation for the elliptical ceiling is:
20 15 15 (0, 5)

9 I need to find the height of the ceiling above the foci
I need to find the height of the ceiling above the foci. I prefer positive numbers, so I'll look at the focus to the right of the center. The height (from the ellipse's central line through its foci, up to the ceiling) will be the y-value of the ellipse when x = 15. (15, y) 20 15 15 (0, 5) (15, 5)

10 Solve for y in the ellipse equation.

11 Since I'm looking for the height above, not the depth below, I ignored the negative solution to the quadratic equation. The ceiling is 21 feet above the floor.

12 Example 2 An arch in a memorial park, having a parabolic shape, has a height of 25 feet and a base width of 30 feet. Find an equation which models this shape, using the x-axis to represent the ground. State the focus and directrix. 25 ft. x

13 For simplicity, I'll center the curve for the arch on the y-axis, so the vertex is at (h, k) = (0, 25). (0, 25) 25 ft. x

14 Since the width is thirty, then the x-intercepts must be at x = –15 and x = 15.
(0, 25) 25 ft. x (-15, 0) (15, 0)

15 Working backwards from the x-intercepts, the equation has to be of the form y = a(x – 15)(x + 15). Using the vertex to find a. (0, 25) 25 ft. x (-15, 0) (15, 0)

16

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