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Eccentricity.

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Presentation on theme: "Eccentricity."— Presentation transcript:

1 Eccentricity

2 4/20/17 Eccentricity Aim: I can understand eccentricity. Do Now: What do you think an ellipse is? Does every planet or moon have a circular orbit? Homework: - Exit Project due May 12th Work on your data analysis

3 An Ellipse is an oval shaped orbit.
What is an Ellipse? An Ellipse is an oval shaped orbit.

4 Kepler’s First Law 1. The Law of Orbits: All planets move in elliptical orbits, with the sun at one focus.

5 Within the ellipse are two fixed points called foci.
For the planets in our Solar System the Sun is one of these foci.

6 The degree of flattening or “ovalness” of an ellipse.
What is eccentricity? The degree of flattening or “ovalness” of an ellipse.

7 Ellipses (cont.) If e=0, the ellipse is a circle.
If e=1, the ellipse is a line. As distance between foci increases, eccentricity increases. The Sun is a foci in our Solar System.

8 How do we find eccentricity?
Measure the distance between the two foci. Divide by the length of the major axis.

9 3. The diagram below shows the elliptical orbit of a planet revolving around a star. The star and F2 are the foci of this ellipse. What is the approximate eccentricity of this ellipse? 0.22 0.47 0.68 1.47

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