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The Mayan Ruin of El Caracol: Astronomical Observations and Models of the Solar System

Discover the Mayan ruin of El Caracol, known as "The Observatory," located in the Yucatan peninsula. Learn about the geocentric and heliocentric models of the solar system and how ancient observers studied celestial motions. Explore the different components of our solar system and how they are being explored today.

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The Mayan Ruin of El Caracol: Astronomical Observations and Models of the Solar System

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  1. The Mayan ruin of El Caracol, also known as “The Observatory,” is located on the Yucatan peninsula. It is thought that the Mayans used El Caracol for astronomical observations.

  2. How are the geocentric and heliocentric models of the solar system different? In a geocentric model, Earth is stationary while objects in the sky move around it. In a heliocentric model, Earth and the other planets revolve around the sun. Models of the Solar System

  3. Models of the Solar System Ancient observers noticed that most objects in the sky seem to be in a state of slow but steady motion. • The sun and moon appear to rise in the east and set in the west. • The stars move across the sky in a fixed pattern. Most ancient people concluded that Earth was stationary, and the sun, moon, and stars moved around Earth.

  4. Models of the Solar System Ancient observers noticed that a few bright starlike objects seemed to wander slowly among the fixed patterns of stars. These objects were called planets, from the Greek word for “wanderers.” The ancients knew of the five planets that can be seen with the unaided eye: Mercury, Venus, Mars, Jupiter, and Saturn.

  5. Models of the Solar System Geocentric Model Most ancient Greeks thought that all the stars and planets lay on the inside of a giant sphere that revolved around Earth once a day. Such a model is called a geocentric model.

  6. Models of the Solar System Heliocentric Model The Greek astronomer Aristarchus developed a heliocentric model, with the sun at the center. • His model was not accepted by most ancient Greeks. • The geocentric model could explain all observations made at that time.

  7. Models of the Solar System Andreas Cellarius drew these maps of the geocentric model (left) and heliocentric model (right) in the 1660s.

  8. Models of the Solar System In the early 1500s, Nicolaus Copernicus realized that the motion of the planets could be more simply expained if they are revolving around the sun rather than around Earth. The observations of Italian scientist Galileo Galilei and other scientists later proved that the heliocentric model was correct.

  9. Models of the Solar System The apparent motions of the sun, moon, and stars result from Earth’s daily rotation on its axis. • As Earth rotates, it seems that we are stationary and all of the objects in the sky are spinning around us. • The northern stars appear to circle around the North Star because Earth’s axis points toward a spot in the sky close to that star.

  10. What keeps the planets in orbit around the sun? Gravity and inertia combine to keep the planets in orbit around the sun. Planetary Orbits

  11. Planetary Orbits JohannesKepler discovered that the orbit of a planet around the sun is not a circle, but an ellipse. • An ellipse looks like an oval, or a circle that has been stretched out along one axis. Most planets’ orbits are nearly circular, and so are only slightly elliptical. • The plane of Earth’s orbit is called the ecliptic plane.

  12. Planetary Orbits Newton’s first law of motion states that an object in motion continues to move in a straight line at a constant speed unless acted upon by a force. This property of matter is known as inertia. Newton realized that the sun must be exerting a gravitational force on the planets that keeps them in orbit.

  13. What bodies make up the solar system? Our solar system consists of the sun, the planets, their moons, and a variety of smaller objects that mostly revolve in the same plane around the sun. Components of the Solar System

  14. Components of the Solar System The ancients knew of six planets. Three more planets were discovered with the aid of telescopes: • Uranus in 1781 • Neptune in 1846 • Pluto in 1930 (Pluto was later reclassified as a dwarf planet.)

  15. Components of the Solar System Except for Mercury and Venus, all of the planets have moons. A moon is a relatively small natural body in space that revolves around a planet.

  16. Components of the Solar System The sun’s mass is about 750 times greater than the mass of the rest of the solar system combined. Unlike the sun, planets and moons don’t produce their own light. The nearby planets and moons are visible because sunlight is reflected from their surfaces.

  17. Components of the Solar System The planets orbit mostly in the same plane, though they do not line up as shown here.

  18. Components of the Solar System Distances between objects in the solar system are much larger than distances on Earth. • Astronomers often use astronomical units to describe distances within the solar system. • One astronomical unit (AU) equals the average distance from Earth to the sun—149,598,000 kilometers.

  19. How is the solar system being explored today? Modern technology, including complex telescopes, piloted spacecraft, and space probes, has allowed scientists to explore the solar system. Exploring the Solar System

  20. Exploring the Solar System The first rockets powerful enough to escape Earth’s atmosphere and enter space were developed in the 1940s and 1950s.

  21. Exploring the Solar System Travel to the Moon The quest to reach the moon progressed through a series of increasingly complex missions. • On July 20, 1969,Neil Armstrong, commander of the Apollo 11 spacecraft, became the first person to set foot on the moon. • The last lunar mission, Apollo 17, was completed in 1972.

  22. Exploring the Solar System Recent Space Missions Scientists have gathered much new information about various planets and moons. • A space probe is an unpiloted vehicle that carries scientific instruments into space and transmits information back to Earth. • The Hubble Space Telescope has also provided many new views of the solar system and beyond.

  23. Exploring the Solar System • The space probe Cassini launches a probe to explore Saturn’s largest moon, Titan, in this illustration.

  24. Exploring the Solar System • A space shuttle is docked to the International Space Station in this computer-generated illustration.

  25. Exploring the Solar System Recent human space flight has centered on the near-Earth missions of the space shuttle. The shuttle is a reusable space vehicle that is launched like a rocket but lands like an airplane. The International Space Station is a permanent laboratory designed for research in space. Astronauts from various countries are currently living aboard the partially completed structure, which is scheduled to be finished in 2010.

  26. Assessment Questions • What two factors combine to keep the planets in orbit around the sun? • gravity and centripetal force • gravity and kinetic energy • gravity and solar wind • gravity and inertia

  27. Assessment Questions • What two factors combine to keep the planets in orbit around the sun? • gravity and centripetal force • gravity and kinetic energy • gravity and solar wind • gravity and inertiaANS: D

  28. Assessment Questions • Which planet has the largest moon relative to the size of the planet? • Earth • Mars • Jupiter • Saturn

  29. Assessment Questions • Which planet has the largest moon relative to the size of the planet? • Earth • Mars • Jupiter • SaturnANS: A

  30. Assessment Questions • What is a space probe? • a space mission piloted by humans, such as the International Space Station • a permanent settlement on the moon or on another planet • a telescope or other instrument that studies space from an orbit around Earth • an unpiloted vehicle that carries instruments into space

  31. Assessment Questions • What is a space probe? • a space mission piloted by humans, such as the International Space Station • a permanent settlement on the moon or on another planet • a telescope or other instrument that studies space from an orbit around Earth • an unpiloted vehicle that carries instruments into spaceANS: D

  32. Assessment Questions • In a heliocentric model, Earth is at the center of the universe, and the sun, moon, and stars move around it. TrueFalse

  33. Assessment Questions • In a heliocentric model, Earth is at the center of the universe, and the sun, moon, and stars move around it. TrueFalse ANS: F, geocentric

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