Across
- 4. The closest distance between a star and an orbiting planet.
- 5. The orbiting planet or object must have a speed directed perpendicular to the gravitational force between it and the star in order to slingshot around it instead of crashing into it, thus affecting the orbital path.
- 6. Came up with a heliocentric model where the sun is orbited by planets in perfect circles.
- 7. The lenth between the center of the star and the object orbiting it acts as an important variable for gravity and is one factor in the orbital path.
- 9. When an orbiting planet moves in this direction relative to a star while in orbit, it speeds up.
- 11. The force that acts between a star and another object to create an orbital pattern.
- 14. Which planet was first observed by Brahe and then later observed by Kepler to help him come up with his laws of planetary orbit.
- 15. The squares of the orbital periods of the planets are directly proportional to the cubes of the semi-major axes of their orbits.
- 16. The two locations on the midline of an ellipse located an equal distance from its exact center.
Down
- 1. The variable that determines whether an ellipse is more elongated or more circular.
- 2. The farthest distance between a star and its orbiting planet.
- 3. The area bounded by the center of a star and the orbital path of a planet must have equal area for equal time of orbit.
- 8. When an orbiting planet moves in this direction relative to a star while in orbit, it slows down.
- 10. The shape for an orbit that has a constant distance from a star and therefore should have the same magnitude of velocity (speed) as it or
- 12. The mentor of Kepler who observed Mars too.
- 13. Said the earth was the center of the universe with other objects orbiting it in perfect circles.
- 14. The variable of the star that affects the orbit of a planet around it.
- 15. The star must be located on a foci of an eliptical orbit.