Solar System Distance Model - www .alexandria .k12 .mn .us
... Background info: Instead of the actual mileage to each planet, scientists came up another way of expressing distances in the solar system, the astronomical unit. One A.U. is the distance that Earth is from the Sun (93 million miles). Other distances are fractions or multiples of Earth’s distance. Ge ...
... Background info: Instead of the actual mileage to each planet, scientists came up another way of expressing distances in the solar system, the astronomical unit. One A.U. is the distance that Earth is from the Sun (93 million miles). Other distances are fractions or multiples of Earth’s distance. Ge ...
Planet Locations for the - Warren Astronomical Society
... viewed M-2 and M-15, both globular clusters. M-15 I have viewed on two occasions. It is a small globular cluster in Pegasus. The first night I observed M-15 was a smoggy one with a full moon hanging in the southeastern sky. I used my trusty 4½‖ reflecting telescope at 45x. Through it I saw a miniatu ...
... viewed M-2 and M-15, both globular clusters. M-15 I have viewed on two occasions. It is a small globular cluster in Pegasus. The first night I observed M-15 was a smoggy one with a full moon hanging in the southeastern sky. I used my trusty 4½‖ reflecting telescope at 45x. Through it I saw a miniatu ...
PLANET RESEARCH PAPER
... Something Special: Is there anything special about your planet? This can often be the best part of the report, taking you off on interesting topics. For example, are there 100-year-long storms on your planet? Are there giant volcanos? Does your planet have a very tilted axis (giving it extreme seaso ...
... Something Special: Is there anything special about your planet? This can often be the best part of the report, taking you off on interesting topics. For example, are there 100-year-long storms on your planet? Are there giant volcanos? Does your planet have a very tilted axis (giving it extreme seaso ...
The Outer Planets
... Nitrogen sublimates to produce a substantial atmosphere with winds and clouds. Because the planet is so small, however, it does not have enough gravity to bind an atmosphere for very long. Thus Pluto's atmosphere is being rapidly produced and rapidly lost at the same time. This means that the atmosp ...
... Nitrogen sublimates to produce a substantial atmosphere with winds and clouds. Because the planet is so small, however, it does not have enough gravity to bind an atmosphere for very long. Thus Pluto's atmosphere is being rapidly produced and rapidly lost at the same time. This means that the atmosp ...
8007
... the proposed Decadal missions, many bulk properties will be constrained for 3 of the 4 giant planets. However, there are many areas that will still be unaddressed and are important for better understanding both exoplanets and atmospheric processes in comparison with Earth. For example: 1) Seasonal e ...
... the proposed Decadal missions, many bulk properties will be constrained for 3 of the 4 giant planets. However, there are many areas that will still be unaddressed and are important for better understanding both exoplanets and atmospheric processes in comparison with Earth. For example: 1) Seasonal e ...
View/Open - SUNY DSpace
... Earth is the only terrestrial planet with a moon. Our moon is 30 Earth-size planets away from us and was formed 4.6 billion years ago. The first man to set foot on the Moon was in 1969 with Neil Armstrong on the Apollo 11 mission, since then 12 other people have walked on the moon (all ...
... Earth is the only terrestrial planet with a moon. Our moon is 30 Earth-size planets away from us and was formed 4.6 billion years ago. The first man to set foot on the Moon was in 1969 with Neil Armstrong on the Apollo 11 mission, since then 12 other people have walked on the moon (all ...
Worksheet
... 10. A bucket full of a rocky planet weighs ________________ than a gas planet. a. More (2 choices) 11. Identify the gas giants. e. All of the above (5 choices) 12. Gas giants are made of… a. gas (2 choices) 13. A space probe could land on the surface of a gas giant. b. False (2 choices) 14. Asteroid ...
... 10. A bucket full of a rocky planet weighs ________________ than a gas planet. a. More (2 choices) 11. Identify the gas giants. e. All of the above (5 choices) 12. Gas giants are made of… a. gas (2 choices) 13. A space probe could land on the surface of a gas giant. b. False (2 choices) 14. Asteroid ...
Lesson #2: Planets - Center for Learning in Action
... (or plutoids), an asteroid belt, comets, meteors, and others. The sun is the center of our solar system; the planets, their moons, the asteroids, comets, and other rocks and gas all orbit the sun. The nine planets that orbit the sun are (in order from the sun): Mercury, Venus, Earth, Mars, Jupiter, ...
... (or plutoids), an asteroid belt, comets, meteors, and others. The sun is the center of our solar system; the planets, their moons, the asteroids, comets, and other rocks and gas all orbit the sun. The nine planets that orbit the sun are (in order from the sun): Mercury, Venus, Earth, Mars, Jupiter, ...
Orbits…the celestial paths of planets
... Remember your high school math: ellipses are plane figures….agrees with observed fact that orbits lie in a plane ...
... Remember your high school math: ellipses are plane figures….agrees with observed fact that orbits lie in a plane ...
Lab 5: Searching for Extra-Solar Planets
... 1. With a sketch, show how two of the Balmer absorption lines, at 656 nm and 486 nm, would appear if four equally spaced observations were made in one complete cycle of the star’s motion. (Be sure to show the direction of the observer in your sketch.) 2. By measuring wavelength shifts in the star’s ...
... 1. With a sketch, show how two of the Balmer absorption lines, at 656 nm and 486 nm, would appear if four equally spaced observations were made in one complete cycle of the star’s motion. (Be sure to show the direction of the observer in your sketch.) 2. By measuring wavelength shifts in the star’s ...
Lesson 2
... Upon plotting the orbit of Mars, Kepler saw that it was a deformed circle. After eight years of work, he realized that it was an ellipse. Kepler then proposed that each of the planets has an elliptical orbit, with the sun at one focus of the ellipse. This is Kepler’s first law. When an object follow ...
... Upon plotting the orbit of Mars, Kepler saw that it was a deformed circle. After eight years of work, he realized that it was an ellipse. Kepler then proposed that each of the planets has an elliptical orbit, with the sun at one focus of the ellipse. This is Kepler’s first law. When an object follow ...
Section 23.3 The Outer Planets
... 10. Why is Saturn’s atmosphere considered very active? Give at least 2 examples 11. What are Saturn’s rings made of? 12. Why is Uranus called the ”Sideways Planet”? ...
... 10. Why is Saturn’s atmosphere considered very active? Give at least 2 examples 11. What are Saturn’s rings made of? 12. Why is Uranus called the ”Sideways Planet”? ...
When a planets orbit around the Sun looks like an oval, it`s called a
... -The mass of the comet increases -The temperature of the comet increases -The frictional force on the comet increases -The gravitational pull on the comet increases ...
... -The mass of the comet increases -The temperature of the comet increases -The frictional force on the comet increases -The gravitational pull on the comet increases ...
Comets…
... Small objects in the Solar System Meteors, Comets, : we see them without a telescope Asteroids: small rocky objects mostly between Mars and Jupiter – too faint to see without a telescope Kuiper belt objects: even fainter objects beyond Pluto, debris left over from solar system formation Image of co ...
... Small objects in the Solar System Meteors, Comets, : we see them without a telescope Asteroids: small rocky objects mostly between Mars and Jupiter – too faint to see without a telescope Kuiper belt objects: even fainter objects beyond Pluto, debris left over from solar system formation Image of co ...
On the Revolutions of Heavenly Spheres
... Jupiter mass planets in Mercury orbits Elliptical orbits Multiple Jupiter sized planets Planets around pulsars Smallest (so far) is about 5 Earth ...
... Jupiter mass planets in Mercury orbits Elliptical orbits Multiple Jupiter sized planets Planets around pulsars Smallest (so far) is about 5 Earth ...
worksheet.
... Too far from Earth to be seen with an unaided eye, Uranus is the first of the discovered planets (William Herschel, 1781). The atmosphere is nearly featureless and the planet has a light blue appearance when viewed through a telescope. Neptune Even further from Earth than Uranus, it seems a faint bl ...
... Too far from Earth to be seen with an unaided eye, Uranus is the first of the discovered planets (William Herschel, 1781). The atmosphere is nearly featureless and the planet has a light blue appearance when viewed through a telescope. Neptune Even further from Earth than Uranus, it seems a faint bl ...
Interplanetary Space Travel Accuracy of the Astronomical Unit When
... the atmosphere of Jupiter. Determine the following properties of the HTO. a. What would the HTO perihelion distance be equal to? b. What would the HTO aphelion distance be equal to? c. What would the HTO semi-major axis be? ...
... the atmosphere of Jupiter. Determine the following properties of the HTO. a. What would the HTO perihelion distance be equal to? b. What would the HTO aphelion distance be equal to? c. What would the HTO semi-major axis be? ...
Accuracy of the Astronomical Unit
... 23. How long will it take the satellite to reach Jupiter? (Hint: the satellite needs to travel half of its HTO to reach Jupiter). ...
... 23. How long will it take the satellite to reach Jupiter? (Hint: the satellite needs to travel half of its HTO to reach Jupiter). ...
Great Galaxies 5 - School Performance Tours
... is often brighter in the morning and can be seen from our planet _____________. The second planet from the sun is called Venus. It was named after a _____________ Goddess. Venus is sometimes called Earth's _____________ because it is similar in size. The third planet from the sun is ___________ . It ...
... is often brighter in the morning and can be seen from our planet _____________. The second planet from the sun is called Venus. It was named after a _____________ Goddess. Venus is sometimes called Earth's _____________ because it is similar in size. The third planet from the sun is ___________ . It ...
Mercury, the Closest Planet to Our Sun The closest planet to our sun
... debris. If one were to compare Mercury to another planet, it could be compared to the planet Mars, which is also smooth. Writing Prompt: Summarize the main points of the lecture explaining how they shed new light on some of the information mentioned in the reading passage. ...
... debris. If one were to compare Mercury to another planet, it could be compared to the planet Mars, which is also smooth. Writing Prompt: Summarize the main points of the lecture explaining how they shed new light on some of the information mentioned in the reading passage. ...
Solar System Survey
... Pluto and similar objects don’t fit either planet family Astronomers have discovered more than 200 objects like Pluto orbiting the Sun In 2006, a new family was introduced – the dwarf planets Massive enough to pull themselves spherical Orbits have not been swept clear of debris ...
... Pluto and similar objects don’t fit either planet family Astronomers have discovered more than 200 objects like Pluto orbiting the Sun In 2006, a new family was introduced – the dwarf planets Massive enough to pull themselves spherical Orbits have not been swept clear of debris ...
inner planets
... The planets can be classified into two different groups: inner planets and outer planets. The inner planets are the closest to the Sun. These are Mercury, Venus, the Earth and Mars; they have a solid surface and are near the Sun, except Pluto. The outer planets are all gaseous planets and they’re fa ...
... The planets can be classified into two different groups: inner planets and outer planets. The inner planets are the closest to the Sun. These are Mercury, Venus, the Earth and Mars; they have a solid surface and are near the Sun, except Pluto. The outer planets are all gaseous planets and they’re fa ...
Probeseiten 2 PDF
... angle with respect to the orbits of the other planets. Olbers reached a logical conclusion: were Ceres and Pallas perhaps fragments of a former planet? Could that explain why they were so small? And were there other fragments waiting to be discovered in this part of the solar system? It was indeed c ...
... angle with respect to the orbits of the other planets. Olbers reached a logical conclusion: were Ceres and Pallas perhaps fragments of a former planet? Could that explain why they were so small? And were there other fragments waiting to be discovered in this part of the solar system? It was indeed c ...