22 Chapter 22 Origin of Modern Astronomy. Ancient Greeks 22.1 Early Astronomy  Astronomy is the science that studies the universe. It includes the observation.

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22 Chapter 22 Origin of Modern Astronomy

Ancient Greeks 22.1 Early Astronomy  Astronomy is the science that studies the universe. It includes the observation and interpretation of celestial bodies and phenomena.  The Greeks used philosophical arguments to explain natural phenomena.  The Greeks also used some observational data.

Astrolabe

Calculating Earth’s Circumference ature=player_detailpage&v=bgbm mkXm02g

Ancient Greeks 22.1 Early Astronomy  Geocentric Model In the ancient Greeks’ geocentric model, the moon, sun, and the known planets—Mercury, Venus, Mars, and Jupiter—orbit Earth.  Heliocentric Model In the heliocentric model, Earth and the other planets orbit the sun.

Geocentric and Heliocentric Models

Ancient Greeks 22.1 Early Astronomy  Ptolemaic System Ptolemy created a model of the universe that accounted for the movement of the planets. Retrograde motion is the apparent westward motion of the planets with respect to the stars. *It is an illusion caused by the Earth passing slower moving planets. Just as when you pass a car moving slower than you—it appears (for a moment) to be moving backward.

Retrograde Motion

The Birth of Modern Astronomy 22.1 Early Astronomy  Nicolaus Copernicus Copernicus concluded that Earth is a planet. He proposed a model of the solar system with the sun at the center.

The Birth of Modern Astronomy 22.1 Early Astronomy  Tycho Brahe Tycho Brahe designed and built instruments to measure the locations of the heavenly bodies. Brahe’s observations, especially of Mars, were far more precise than any made previously.

The Birth of Modern Astronomy 22.1 Early Astronomy  Johannes Kepler Kepler discovered three laws of planetary motion: 1. Orbits of the planets are elliptical. 2. Planets revolve around the sun at varying speed. 3. There is a proportional relationship between a planet’s orbital period and its distance to the sun.

The Birth of Modern Astronomy 22.1 Early Astronomy  Johannes Kepler An ellipse is an oval-shaped path. An astronomical unit (AU) is the average distance between Earth and the sun; it is about 150 million kilometers.

Planet Revolution

The Birth of Modern Astronomy 22.1 Early Astronomy  Galileo Galilei Galileo’s most important contributions were his descriptions of the behavior of moving objects. He developed his own telescope and made important discoveries: 1. Four satellites, or moons, orbit Jupiter. 2. Planets are circular disks, not just points of light. 3. Venus has phases just like the moon. 4. The moon’s surface is not smooth. 5. The sun has sunspots, or dark regions.

The Solar System Model Evolves

The Birth of Modern Astronomy 22.1 Early Astronomy  Sir Isaac Newton Although others had theorized the existence of gravitational force, Newton was the first to formulate and test the law of universal gravitation.  Universal Gravitation Gravitational force decreases with distance. The greater the mass of an object, the greater is its gravitational force.

Gravity’s Influence on Orbits

Motions of Earth 22.2 The Earth–Moon–Sun System  The two main motions of Earth are rotation and revolution. Precession is a third and very slow motion of Earth’s axis.  ayer_detailpage&v=0qHjtp4cdCA ayer_detailpage&v=0qHjtp4cdCA

Stonehenge, an Ancient Observatory

Motions of Earth 22.2 The Earth–Moon–Sun System  Rotation Rotation is the turning, or spinning, of a body on its axis. Two measurements for rotation: 1. Mean solar day is the time interval from one noon to the next, about 24 hours. 2. Sidereal day is the time it takes for Earth to make one complete rotation (360º) with respect to a star other than the sun—23 hours, 56 minutes, 4 seconds.

Sidereal Day

Motions of Earth 22.2 The Earth–Moon–Sun System  Revolution Revolution is the motion of a body, such as a planet or moon, along a path around some point in space. Perihelion is the time in January when Earth is closest to the sun. Aphelion is the time in July when Earth is farthest from the sun.

Motions of Earth 22.2 The Earth–Moon–Sun System  Earth’s Axis and Seasons Because of the inclination of Earth’s axis to the plane of the ecliptic, Earth has its yearly cycle of seasons. The plane of the ecliptic is an imaginary plane that connects Earth’s orbit with the celestial sphere.

The Ecliptic

Motions of Earth 22.2 The Earth–Moon–Sun System  Precession Precession traces out a cone over a period of 26,000 years.  Earth–Sun Motion The solar system speeds in the direction of the star Vega. The sun revolves around the galaxy. Earth is presently approaching one of its nearest galactic neighbors, the Great Galaxy in Andromeda.

Precession

Motions of the Earth–Moon System 22.2 The Earth–Moon–Sun System  Perigee is the point at which the moon is closest to Earth.  Apogee is the point at which the moon is farthest from Earth.

Motions of the Earth–Moon System 22.2 The Earth–Moon–Sun System  Phases of the Moon The phases of the moon are the progression of changes in the moon’s appearance during the month. Lunar phases are a result of the motion of the moon and the sunlight that is reflected from its surface. eature=player_detailpage

Phases of the Moon

Motions of the Earth–Moon System 22.2 The Earth–Moon–Sun System  Lunar Motions The synodic month is based on the cycle of the moon’s phases. It lasts 29 1/2 days. The sidereal month is the true period of the moon’s revolution around Earth. It lasts 27 1/3 days.

Motions of the Earth–Moon System 22.2 The Earth–Moon–Sun System The difference of two days between the synodic and sidereal cycles is due to the Earth–moon system also moving in an orbit around the sun.  Lunar Motions The moon’s period of rotation about its axis and its revolution around Earth are the same, 27 1/3 days. It causes the same lunar hemisphere to always face Earth.

Lunar Motions

Eclipses 22.2 The Earth–Moon–Sun System  Solar eclipses occur when the moon moves in a line directly between Earth and the sun, casting a shadow on Earth.  During a new-moon or full-moon phase, the moon’s orbit must cross the plane of the ecliptic for an eclipse to take place.  Lunar eclipses occur when the moon passes through Earth’s shadow.

Solar Eclipse

Lunar Eclipse

The Lunar Surface 22.3 Earth’s Moon A crater is the depression at the summit of a volcano or a depression produced by a meteorite impact.  Craters Most craters were produced by the impact of rapidly moving debris. Rays are any of a system of bright, elongated streaks, sometimes associated with a crater on the moon.

The Moon’s Surface Mare Tranquillitatus (Sea of Tranquility) Mare Imbrium (Sea of Rains) Kepler Crater Copernicus Crater

Formation of a Crater

The Lunar Surface 22.3 Earth’s Moon Most of the lunar surface is made up of densely pitted, light-colored areas known as highlands.  Highlands Maria, ancient beds of basaltic lava, originated when asteroids punctured the lunar surface, letting magma bleed out.  Maria A rille is a long channel associated with lunar maria. A rille looks similar to a valley or a trench.

The Lunar Surface 22.3 Earth’s Moon The lunar regolith is a thin, gray layer on the surface of the moon, consisting of loosely compacted, fragmented material believed to have been formed by repeated impacts of meteorites.  Regolith

Major Topographic Features of the Moon

Lunar History 22.3 Earth’s Moon  The most widely accepted model for the origin of the moon is that when the solar system was forming, a body the size of Mars impacted Earth. The resulting debris was ejected into space, began orbiting around Earth, and eventually united to form the moon.

Formation of Earth’s Moon