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BELLWORK 1. What type of succession starts with bare rock?

Explore the fascinating relationship between Mars and Kepler's Laws of Planetary Motion, which revolutionized our understanding of the solar system. Discover how Mars' orbit shaped the development of these laws and their impact on our understanding of the universe.

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BELLWORK 1. What type of succession starts with bare rock?

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  1. BELLWORK 1. What type of succession starts with bare rock? 2. What type of succession starts with soil? 3. What is the gradual change from one ecosystems plants and animals to another? 4. What are the first organisms in an ecosystem called?

  2. MARS JOHANNES KEPLER THE SOLAR SYSTEM LAWS OF PLANETARY MOTION

  3. Danish astronomer Tyco Brahe (1546-1601) had an island observatory and the best measurements of the positions for all known planets (Mercury, Venus, Mars, Jupiter, and Saturn) and the Moon. Picture of Brahe

  4. Austrian mathematician Johannes Kepler (1571-1630), interested in how the planets move around the sun, went to Tyco’s island to get these accurate measurements.

  5. At that time, many astronomers believed that planets orbited around the sun in perfectcircles, but Tyco’s accurate measurements for Mars didn’t fit a circle. Instead, the mathematician Johannes Kepler found that the orbit of Mars fit an ellipse the best…

  6. What is an ellipse? An ellipse is a geometric shape with 2 foci instead of 1 central focus, as in a circle. The sun is at one focus with nothing at the other focus. Illustrate in box 2 foci All planets move about the sun in an elliptical orbit, with the sun being at one foci. FIRST LAW OF PLANETARY MOTION https://www.youtube.com/watch?v=6TGCPXhMLtU

  7. An ellipse also has… …and a minor axis …a major axis Perihelion Aphelion Semi-major axis Perihelion: When Mars or any another planet is closest to the sun. Aphelion: When Mars or any other planet is farthest from the sun.

  8. Kepler also found that Mars changed speed as it orbited around the sun: faster when closer to the sun, slower when farther from the sun… Illustrate in box But, areas Aand B,swept outby a line from the sun to Mars, were equal over the same amount of time. AB Area swept out by lines from the sun to the orbit of a planet would have the same amount of time. SECOND LAW OF PLANETARY MOTION

  9. Kepler found a relationship between the time it took a planet to go completely around the sun (T, sidereal year), and the average distance from the sun (R, semi-major axis)… T1 R1 T2 R2 T12R13 T 2 = T x T ( ) = R3 = R x R x R T22R23 THIRD LAW OF PLANETARY MOTION

  10. Illustrate in box Earth’s siderealyear (T) and distance (R) both equal 1. The average distance from the Earth to the sun (R) is called 1 astronomical unit (AU). T2 R2 Kepler’s Third Law, then, changes to T12R13 T12R13 or T12 = R13 or = = T22R23 11 If you know a planets distance from the sun, you can determine how long it will take to orbit the sun.

  11. When we compare the orbits of the planets… Planet T(yrs) R(au) T2 R3 Venus 0.62 0.72 0.38 0.37 Earth 1.00 1.00 1.00 1.00 Mars 1.88 1.52 3.53 3.51 Jupiter 11.86 5.20 141 141 We find that T2 and R3 are essentially equal.

  12. Kepler’s Laws apply to any celestial body orbiting any other celestial body. • Any planet around a sun • The moon around the Earth • Any satellite around the Earth • The international space station • Any rings around any planet

  13. Later, Isaac Newton built upon Kepler’s Laws to confirm his own Law of Gravitation. If it wasn’t for Mars and its complicated travels across the night sky, Johannes Kepler may not have derived his Laws of Planetary Motion.Isaac Newton might not have had a foundation for his Law of Gravitation... THE RED PLANET MARS IS FOREVER LINKED TO OUR UNDERSTANDING OF THE SOLAR SYSTEM AND ONE OF THE 4 BASIC FORCES OF NATURE. http://study.com/academy/lesson/keplers-three-laws-of-planetary-motion.html

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