1 - TECC Science
... (b) Explain why there could be no liquid water on the surface of: (i) Mars ............................................................................................................................. ................................................................................................... ...
... (b) Explain why there could be no liquid water on the surface of: (i) Mars ............................................................................................................................. ................................................................................................... ...
Part 2: Solar System Formation
... • Within the disk, material is constantly colliding with one another. If the collisions are not too violent material may stick together. • In the outer parts of the Solar Nebula the planets become large enough to have a significant gravitational pull and collect gas around them. • Planets in the inn ...
... • Within the disk, material is constantly colliding with one another. If the collisions are not too violent material may stick together. • In the outer parts of the Solar Nebula the planets become large enough to have a significant gravitational pull and collect gas around them. • Planets in the inn ...
Section 2: Inner Planets
... • Has 50 named moons and 14 other moons not named • Has 3 rings of dust • Studied by Galileo space probe ...
... • Has 50 named moons and 14 other moons not named • Has 3 rings of dust • Studied by Galileo space probe ...
ASTRONOMY 1001 FALL SEMESTER 2004
... Giant Planets: structure, atmospheres, temperatures, rings, satellites, Tides, Io and tidal heating, Roche limit, disruption of satellites, rings Asteroids, origin, collisions and extinction; meteorites, types, origin, ages Comets, ion and dust tails, structure, nucleus, origin, behavior in orbit Or ...
... Giant Planets: structure, atmospheres, temperatures, rings, satellites, Tides, Io and tidal heating, Roche limit, disruption of satellites, rings Asteroids, origin, collisions and extinction; meteorites, types, origin, ages Comets, ion and dust tails, structure, nucleus, origin, behavior in orbit Or ...
ASTR 101 Deming EXAM II November 18 OFFICE HRS in CSS
... Jovian Planets—Jupiter, Saturn, Uranus,Neptune(review Jupiter’s magnetic field, Saturn’s rings) Io, Europa, Titan (tidal heating, surface) What have recent missions discovered? Pluto: Why is it now classified as a dwarf planet? Comets—what are they (sketch parts)? What happens during orbit? Why do m ...
... Jovian Planets—Jupiter, Saturn, Uranus,Neptune(review Jupiter’s magnetic field, Saturn’s rings) Io, Europa, Titan (tidal heating, surface) What have recent missions discovered? Pluto: Why is it now classified as a dwarf planet? Comets—what are they (sketch parts)? What happens during orbit? Why do m ...
Science 9 Unit 5: Space Name
... (Ex. Shooting stars) A meteorite is a meteor that has landed on the Earth’s surface. Looking into the Past? When you view an object in the sky you are seeing it as it was in the past. It has taken the light a very long time to reach the Earth. Light from the Sun takes about 5 minutes to reach the Ea ...
... (Ex. Shooting stars) A meteorite is a meteor that has landed on the Earth’s surface. Looking into the Past? When you view an object in the sky you are seeing it as it was in the past. It has taken the light a very long time to reach the Earth. Light from the Sun takes about 5 minutes to reach the Ea ...
Unit 5B Universal Gravitation
... Imagine what would it have been like to see a solar eclipse in ancient times? What would those people have wondered? Describe a conversation between two young people viewing an eclipse in the year 500 B.C.E. ...
... Imagine what would it have been like to see a solar eclipse in ancient times? What would those people have wondered? Describe a conversation between two young people viewing an eclipse in the year 500 B.C.E. ...
Asteroids • Small, rocky objects in orbit around the Sun. +
... • Dumped much of atmospheres onto planets ...
... • Dumped much of atmospheres onto planets ...
Astronomy 1010 final review sample topics
... c.) the sum total of all matter and energy that exists; the material is attracted to each other by gravity d.) a star, and a collection of planets, moons, asteroids, and comets; they are attracted to each other by gravity 2. From the point of view of a person at the Earth’s equator (not from the poi ...
... c.) the sum total of all matter and energy that exists; the material is attracted to each other by gravity d.) a star, and a collection of planets, moons, asteroids, and comets; they are attracted to each other by gravity 2. From the point of view of a person at the Earth’s equator (not from the poi ...
16SolMW - NMSU Astronomy
... Scale models • To work out a scale model, calculate the relative sizes of two objects by dividing the actual sizes, then multiply model size of one by the relative sizes • In scale model where Sun is a 1m diameter ball, Jupiter and Saturn are about 10cm diameter (softballs), Earth and Venus about 1 ...
... Scale models • To work out a scale model, calculate the relative sizes of two objects by dividing the actual sizes, then multiply model size of one by the relative sizes • In scale model where Sun is a 1m diameter ball, Jupiter and Saturn are about 10cm diameter (softballs), Earth and Venus about 1 ...
Midterm II Jeopardy
... $200 - This planet occasionally has dust storms which obscure its ENTIRE surface. (Mars) $400 - You can only see these planets close to the horizon (45 degrees or less). (Venus & Mercury) $600 - This is how we observed the rings around Uranus. (Occultation) $800 - These two planets most closely rese ...
... $200 - This planet occasionally has dust storms which obscure its ENTIRE surface. (Mars) $400 - You can only see these planets close to the horizon (45 degrees or less). (Venus & Mercury) $600 - This is how we observed the rings around Uranus. (Occultation) $800 - These two planets most closely rese ...
Lesson 1 – Explain – Page 375 “The Structure of
... Astronomers now know that the planets do not wander about the sky; the planets move around the Sun. The Sun and the group of objects that move around it make up the solar system. Objects in the Solar System Ancient observers looking at the night sky saw many stars but only five planets --Mercu ...
... Astronomers now know that the planets do not wander about the sky; the planets move around the Sun. The Sun and the group of objects that move around it make up the solar system. Objects in the Solar System Ancient observers looking at the night sky saw many stars but only five planets --Mercu ...
Dead Earth – Lesson 2 – Solar System
... similarly sized objects had been found, but not classified as planets • These include the largest known asteroid - ‘Ceres’ and a large object beyond Pluto ‘Eris’ ...
... similarly sized objects had been found, but not classified as planets • These include the largest known asteroid - ‘Ceres’ and a large object beyond Pluto ‘Eris’ ...
Some facts and concepts to have at your fingertips.
... • A main sequence star converts protons into helium nuclei in its core. 0.7 percent of the mass of the protons is converted into energy according to Einstein’s formula E = m c2 . • The Sun will be a main sequence star for a total of about 10 billion years. • The Sun will eventually become a white dw ...
... • A main sequence star converts protons into helium nuclei in its core. 0.7 percent of the mass of the protons is converted into energy according to Einstein’s formula E = m c2 . • The Sun will be a main sequence star for a total of about 10 billion years. • The Sun will eventually become a white dw ...
Study guide
... 39. As of 2006, what are the three criteria for a solar system body being classified as a planet? 40. What are the four parts of a comet? Which ALWAYS points away from the sun? Which part is not temporary? 41. What happens to a comet approaching the sun, when it reaches about 3-4 AU? (~ at the aster ...
... 39. As of 2006, what are the three criteria for a solar system body being classified as a planet? 40. What are the four parts of a comet? Which ALWAYS points away from the sun? Which part is not temporary? 41. What happens to a comet approaching the sun, when it reaches about 3-4 AU? (~ at the aster ...
The Sun and planets
... The Sun and planets The Sun On our stage, the role of main actor cannot but be conferred to the Sun, a star like many others in space, but very special for us because from the remains of its formation all the planets and the smaller bodies that rotate around it, and of which we are a part, have orig ...
... The Sun and planets The Sun On our stage, the role of main actor cannot but be conferred to the Sun, a star like many others in space, but very special for us because from the remains of its formation all the planets and the smaller bodies that rotate around it, and of which we are a part, have orig ...
geocentric - Hewlett
... Earth is at the center of the Universe. So the Sun, Moon, Stars and Planets are all revolving around Earth. In the Geocentric Model, Earth does not move, it doesn’t even rotate. Who was the first scientist to say that the Earth is not the center of the Solar System, but the Sun? Copernicus was fir ...
... Earth is at the center of the Universe. So the Sun, Moon, Stars and Planets are all revolving around Earth. In the Geocentric Model, Earth does not move, it doesn’t even rotate. Who was the first scientist to say that the Earth is not the center of the Solar System, but the Sun? Copernicus was fir ...
The Sun and the Solar System
... constant by the total surface area of a sphere of radius 1 AU: L¤ = 4πr2C = 3.826 x 1033 erg s-‐1 • Another way to determine the luminosity is to mul)ply the surface area of the Sun b ...
... constant by the total surface area of a sphere of radius 1 AU: L¤ = 4πr2C = 3.826 x 1033 erg s-‐1 • Another way to determine the luminosity is to mul)ply the surface area of the Sun b ...
Solar System
... Our solar system is made up of the nine planets and other objects orbiting the sun. The solar system is estimated to be about five million years old and there are many theories on how the solar system was formed. Our Solar System Planets Mercury Mercury is the closest planet to the sun at 57.9 milli ...
... Our solar system is made up of the nine planets and other objects orbiting the sun. The solar system is estimated to be about five million years old and there are many theories on how the solar system was formed. Our Solar System Planets Mercury Mercury is the closest planet to the sun at 57.9 milli ...
Solar System
... Our solar system is made up of the nine planets and other objects orbiting the sun. The solar system is estimated to be about five million years old and there are many theories on how the solar system was formed. Our Solar System Planets Mercury Mercury is the closest planet to the sun at 57.9 milli ...
... Our solar system is made up of the nine planets and other objects orbiting the sun. The solar system is estimated to be about five million years old and there are many theories on how the solar system was formed. Our Solar System Planets Mercury Mercury is the closest planet to the sun at 57.9 milli ...
Solar System
The Solar System comprises the Sun and the planetary system that orbits it, either directly or indirectly. Of those objects that orbit the Sun directly, the largest eight are the planets, with the remainder being significantly smaller objects, such as dwarf planets and small Solar System bodies such as comets and asteroids. Of those that orbit the Sun indirectly, two are larger than the smallest planet.The Solar System formed 4.6 billion years ago from the gravitational collapse of a giant interstellar molecular cloud. The vast majority of the system's mass is in the Sun, with most of the remaining mass contained in Jupiter. The four smaller inner planets, Mercury, Venus, Earth and Mars, are terrestrial planets, being primarily composed of rock and metal. The four outer planets are giant planets, being substantially more massive than the terrestrials. The two largest, Jupiter and Saturn, are gas giants, being composed mainly of hydrogen and helium; the two outermost planets, Uranus and Neptune, are ice giants, being composed largely of substances with relatively high melting points compared with hydrogen and helium, called ices, such as water, ammonia and methane. All planets have almost circular orbits that lie within a nearly flat disc called the ecliptic.The Solar System also contains smaller objects. The asteroid belt, which lies between Mars and Jupiter, mostly contains objects composed, like the terrestrial planets, of rock and metal. Beyond Neptune's orbit lie the Kuiper belt and scattered disc, populations of trans-Neptunian objects composed mostly of ices, and beyond them a newly discovered population of sednoids. Within these populations are several dozen to possibly tens of thousands of objects large enough to have been rounded by their own gravity. Such objects are categorized as dwarf planets. Identified dwarf planets include the asteroid Ceres and the trans-Neptunian objects Pluto and Eris. In addition to these two regions, various other small-body populations, including comets, centaurs and interplanetary dust, freely travel between regions. Six of the planets, at least three of the dwarf planets, and many of the smaller bodies are orbited by natural satellites, usually termed ""moons"" after the Moon. Each of the outer planets is encircled by planetary rings of dust and other small objects.The solar wind, a stream of charged particles flowing outwards from the Sun, creates a bubble-like region in the interstellar medium known as the heliosphere. The heliopause is the point at which pressure from the solar wind is equal to the opposing pressure of interstellar wind; it extends out to the edge of the scattered disc. The Oort cloud, which is believed to be the source for long-period comets, may also exist at a distance roughly a thousand times further than the heliosphere. The Solar System is located in the Orion Arm, 26,000 light-years from the center of the Milky Way.