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Lesson 9.2 Ellipses.

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Presentation on theme: "Lesson 9.2 Ellipses."— Presentation transcript:

1 Lesson 9.2 Ellipses

2 Ellipse Set of all points where the sum of the distances to two fixed points (foci) is constant. 8cm 7cm 5cm 4cm 9cm 3cm 10cm 2cm Focus Focus

3 Other parts of an ellipse:
Major axis Center Minor axis Vertices Major & Minor axis can run in opposite direction:

4 a → distance from center to vertex on major axis
Deriving the Equation for an Ellipse Equation comes from distances: b a c a → distance from center to vertex on major axis b → distance from center to vertex on minor axis c → distance from center to a focus

5 Equation of an ellipse derives from distances:
Relation among a, b, & c: Equation of an ellipse derives from distances: or

6 USING THE EQUATION 1) Center is at h and k 2) a is the larger denominator/ b is smaller (major/minor) Use a, b, and/or c to find missing values using the equations Use a, b, and c distances to find foci and vertices from center If a is under x, the ellipse “goes” Left/Right If a is under y, the ellipse “goes” Up/Down

7 Example Name the foci, center, length of major and minor axes.
Then sketch the ellipse.

8 e close to 1 → more elliptical
Eccentricity where 0 < e < 1 small e → circular e close to 1 → more elliptical Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune orbital eccentricity 0.2056 0.0068 0.0167 0.0934 0.0483 0.0560 0.0461 0.0097

9 Example Find the center, foci, vertices and eccentricity.
9x2 + 4y2 + 36x – 24y + 36 = 0

10 Example Write the equation for the ellipse with foci (0,0), (0,8); and major axis length of 16.

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