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Transcript
New observations lead to changes in scientific theory • What’s wrong with the image on the right, which shows Ptolemy’s popular scientific theory 2000 years ago? This is called the geocentric model of the solar system. • The heliocentric model was proposed by Copernicus about five hundred years ago w/better observations • Galileo Galilei convinced many that this model was correct after the death of Copernicus. Earth’s Motions • ROTATION = the spinning of an object, such as a planet, moon, or star, on an imaginary axis like a top – Earth’s rotation takes 24 hrs – Daily patterns are caused by rotation • REVOLUTION = an object’s movement around another object in a path called an orbit (ex. planet around the Sun) – Earth’s revolution around the Sun takes 365.25 days (or one year) – Yearly patterns are caused by revolution Rotation (spin on axis = 24 hours) • Evidence – Foucault Pendulum = has a steel wire with a bob on the end that is clamped to allow the pendulum to swing freely. The amount of observed change in the pendulum is dependent on latitude (maximum rotation of 360° in 24 hours at the poles to no observed effect at the equator). Foucault Pendulum at the North Pole Time-lapse Foucault Pendulum Rotation (spin on axis = 24 hours) • Evidence – Coriolis Effect = Objects traveling over long distances will be deflected to the right in the Northern hemisphere and to the left in the Southern hemisphere (also affects wind and water currents). • Intended Paths • Real-life example! Revolution (around the Sun = 365.25 days) • Evidence – Parallax Effect = The apparent shift in a star’s position that occurs because Earth has moved in its orbit. This results in seeing an object from different angles, changing the perspective. Astronomers view stars from one side of the Earth’s orbit and then from the other side in an attempt to detect parallax. Revolution (around the Sun = 365.25 days) • Evidence - Seasonal Changes in Constellations = During the summer, certain constellations are visible in the nighttime sky. During the winter, when the Earth is on the opposite side of the Sun, the nighttime sky faces the opposite side of the universe, so we see different constellations. See both rotation and revolution at work! Revolution (around the Sun = 365.25 days) • Evidence – Retrograde Motion = backwards (west to east) motion relative to the stars because Earth moves faster than outer planets. This causes the outer planet to temporarily seem to move backward in the sky as we pass it. This variation in motion is how planets were discovered. The retrograde motion of planets is more easily explained by the heliocentric model rather than the geocentric model. The Night Sky -Celestial objects = Objects observed in the sky during day or night as observed from Earth - For the most part, celestial objects appear to move from east to west in the sky. They rotate counterclockwise around Polaris (North Star) at about 15o/hour (or 360o in 24 hours). This is because Polaris is directly above Earth’s axis of rotation so it appears not to move in night sky. - This rotation can be seen with star trails, which are time-lapse photographs of a certain area of the night sky that maps the movements of celestial objects. Circumpolar stars never set below the horizon due to their proximity to one of the celestial poles. Therefore, they are visible for the entire night on every night of the year. - A constellation is a group of stars that make an identifiable pattern in the sky. An asterism is a smaller grouping of those stars. Which constellations are seen each night depends on where the Earth is in its path around the Sun. How many degrees did the stars move from diagram 1 to diagram 2? 30° (2 hours x 15°) How can you find Polaris? It’s the only one that didn’t move (and the last star in the handle of the Little Dipper) What hemisphere must you be in? Why? Northern because Polaris can only been seen in the North What direction must you be looking? North What direction do the stars appear to move? Counterclockwise What causes the stars to appear to move?
