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3.1 The laws of planetary motion  (Page 2/17)

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Through his analysis of the motions of the planets, Kepler developed a series of principles, now known as Kepler’s three laws, which described the behavior of planets based on their paths through space. The first two laws of planetary motion were published in 1609 in The New Astronomy . Their discovery was a profound step in the development of modern science.

The first two laws of planetary motion

The path of an object through space is called its orbit    . Kepler initially assumed that the orbits of planets were circles, but doing so did not allow him to find orbits that were consistent with Brahe’s observations. Working with the data for Mars, he eventually discovered that the orbit of that planet had the shape of a somewhat flattened circle, or ellipse    . Next to the circle, the ellipse is the simplest kind of closed curve, belonging to a family of curves known as conic sections ( [link] ).

Conic sections.

This figure illustrates the conic sections. A cone is drawn with the circular base at bottom and the apex at top. From top to bottom: a “Circle” (drawn in orange) is formed when the intersecting plane is parallel to, but does not touch, the base. An “Ellipse” (drawn in red) is formed when the intersecting plane is at an angle to, but does not touch, the base. A “Parabola” (drawn in aqua) is formed when the intersecting plane is at an angle with and also touches the base. A “Hyperbola” (drawn in blue) is formed when the intersecting plane is nearly perpendicular to and also touches the base.
The circle, ellipse, parabola, and hyperbola are all formed by the intersection of a plane with a cone. This is why such curves are called conic sections.

You might recall from math classes that in a circle, the center is a special point. The distance from the center to anywhere on the circle is exactly the same. In an ellipse, the sum of the distance from two special points inside the ellipse to any point on the ellipse is always the same. These two points inside the ellipse are called its foci (singular: focus    ), a word invented for this purpose by Kepler.

This property suggests a simple way to draw an ellipse ( [link] ). We wrap the ends of a loop of string around two tacks pushed through a sheet of paper into a drawing board, so that the string is slack. If we push a pencil against the string, making the string taut, and then slide the pencil against the string all around the tacks, the curve that results is an ellipse. At any point where the pencil may be, the sum of the distances from the pencil to the two tacks is a constant length—the length of the string. The tacks are at the two foci of the ellipse.

The widest diameter of the ellipse is called its major axis    . Half this distance—that is, the distance from the center of the ellipse to one end—is the semimajor axis    , which is usually used to specify the size of the ellipse. For example, the semimajor axis of the orbit of Mars, which is also the planet’s average distance from the Sun, is 228 million kilometers.

Drawing an ellipse.

Drawing an Ellipse. Panel (a), at left, illustrates how to draw an ellipse. The center of the ellipse is marked with a red dot, and the two thumbtacks in grey. A hand holds a pencil and traces out the ellipse using the string attached to the thumbtacks. Panel (b), at right, shows the both semimajor axes of the ellipse: the distances from the center to the edges farthest from the center.
(a) We can construct an ellipse by pushing two tacks (the white objects) into a piece of paper on a drawing board, and then looping a string around the tacks. Each tack represents a focus of the ellipse, with one of the tacks being the Sun. Stretch the string tight using a pencil, and then move the pencil around the tacks. The length of the string remains the same, so that the sum of the distances from any point on the ellipse to the foci is always constant. (b) In this illustration, each semimajor axis is denoted by a . The distance 2 a is called the major axis of the ellipse.

The shape (roundness) of an ellipse depends on how close together the two foci are, compared with the major axis. The ratio of the distance between the foci to the length of the major axis is called the eccentricity    of the ellipse.

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Source:  OpenStax, Astronomy. OpenStax CNX. Apr 12, 2017 Download for free at http://cnx.org/content/col11992/1.13
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