The Ellipse

I.  Midterm I

II.  Definition of the Ellipse (Geometric)

Let P and Q be two points (the foci) in the plane.  The ellipse is the set of all points R in the plane such that PR + QR  is a fixed constant.  We will construct and ellipse in class using string. Suppose that C = (h,k) is the center of the ellipse and that V is a vertex of the ellipse then

e = CP/CV

is called the eccentricity of the ellipse.  This number tells us how squished the ellipse is.  If the ellipse is close to being a circle e will be close to 1, while if the ellipse is very long and narrow than e will be close to 0.  

If c = CP, a = CV, b is the distance from the center to the vertex on the minor axis, and z is the distance from the focus to the minor axis, then by the definition of the ellipse

2z = (c + a) + (a - c) = 2a

Hence

z = a so that

c² = a² + b²

If the ellipse has center (0,0) then the equation has the form

x²/a² + y²/b² = 1 

If the center is (h,k) then the equation has the form

(x - h)²/a² + (y - k)²/b² = 1

Exercise:

 Draw the ellipse with equation

9x² + 25y² - 36x - 4y + 103 = 0

III.  Applications

Kepler's Law of Planetary Motion

Kepler's law says that any heavenly body in orbit  around the sun follows the path of an ellipse with the sun as one of its foci.  

Exercise:  The earth orbits the sun with eccentricity .0167.  The length of half the major axis is 14,957,000 km.  Find the closest and farthest distance that the sun gets to the earth.

The Capital Building  The ceiling of the building is in the shape of an ellipsoid.  If a word is spoken from a focus, then the  echo of the sound will concentrate at the other focus, hence one senator can whisper to another senator who is far away and only they can hear each other.