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Transcript
Exploring the Solar System Chapter 25.1 Models of the Solar System • Ancient observers noticed – The sun appears to rise in the east and set in the west – The moon rises and sets every day – Stars move across the sky in a set pattern – Bright, star like objects seemed to wander among stars…planets (from Greek work for wanderers) Geocentric Model • Geo = Earth • Most ancient Greeks thought the Earth was at the center of the universe • In a geocentric model, the Earth is stationary while objects in the sky move around it • They believed that the stars and planets were on a giant sphere that revolved around the Earth Heliocentric Model • Helio = sun • In a heliocentric model, Earth and the other planets revolve around the sun. Planetary Orbits • 1600 Johannes Kepler, a German mathematician, analyzed the paths of the planets. • Three laws of planetary motion. Kepler’s 1st Law of Planetary Motion • 1st law: The path of the planets about the sun is elliptical in shape, with the center of the sun being located at one focus. (The Law of Ellipses) Kepler’s 2nd Law of Planetary Motion • 2nd law: An imaginary line drawn from the center of the sun to the center of the planet will sweep out equal areas in equal intervals of time. (The Law of Equal Areas) • The planets move faster when they are closest to the sun, and slower when they are farthest from the sun. Kepler’s 3rd Law of Planetary Motion • 3rd law: The ratio of the squares of the periods of any two planets is equal to the ratio of the cubes of their average distances from the sun. (The Law of Harmonies) p2 = a3 Kepler’s 3rd Law of Planetary Motion • It means that if you know the period of a planet's orbit (P = how long it takes the planet to go around the Sun), then you can determine that planet's distance from the Sun (a = the semi-major axis of the planet's orbit). Kepler’s 3rd Law of Planetary Motion • It also tells us that planets that are far away from the Sun have longer periods than those close to the Sun. They move more slowly around the Sun. Gravity • Newton realized the sun must exert a gravitational force on the planets that keeps them in orbit. • Without gravity from the sun the planets would fly off into space. • Gravity and inertia combine to keep the planets in orbit around the sun. Our solar system • Our solar system consists of the sun, the planets, their moons, and a variety of smaller objects that revolve around the sun. • Distances in our solar system very large so astronomers use astronomical units to describe them. • 1 astronomical unit (AU) = average distance from Earth to the sun. (149,598,000 km Review • Can you name Kepler’s Three Laws of Planetary motion? • What keeps the planets in orbit around the sun? • What is an astronomical unit?
