planetary puzzlers - Stemmers Run Middle
... To pass the time between stops, your team decides to make up some riddles about the planets in our solar system. Someone asks, “What’s green and blue, and has an average diameter of 12,756 kilometers?” Sure, everyone got that one. Another member asks: “What orbits the sun once every 687 days, and ha ...
... To pass the time between stops, your team decides to make up some riddles about the planets in our solar system. Someone asks, “What’s green and blue, and has an average diameter of 12,756 kilometers?” Sure, everyone got that one. Another member asks: “What orbits the sun once every 687 days, and ha ...
The Inner Planets of Our Solar System
... while the bottom of the ice is theorized to be liquid water. Ganymede (5262 km) largest natural satellite in the Solar System, a salt-water ocean is believed to exist nearly 200km below Ganymede's surface, sandwiched between layers of ice. It has a thin oxygen atmosphere. Callisto (4820 km) Callisto ...
... while the bottom of the ice is theorized to be liquid water. Ganymede (5262 km) largest natural satellite in the Solar System, a salt-water ocean is believed to exist nearly 200km below Ganymede's surface, sandwiched between layers of ice. It has a thin oxygen atmosphere. Callisto (4820 km) Callisto ...
notes-PLANETS-powerpoint_made-by-me_contains-ALL
... nitrogen. The high carbon dioxide means it has a huge greenhouse effect (it is very hot!) • Could it support life? (let’s discuss it) ...
... nitrogen. The high carbon dioxide means it has a huge greenhouse effect (it is very hot!) • Could it support life? (let’s discuss it) ...
Curriculum-Based Measurement: Oral Reading
... Planets in our solar system differ in terms of their distance from the sun, number of moons, size, and what they are made of. The order of the planets in distance from the sun is: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune, Pluto. There is actually lots of empty space in our solar ...
... Planets in our solar system differ in terms of their distance from the sun, number of moons, size, and what they are made of. The order of the planets in distance from the sun is: Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune, Pluto. There is actually lots of empty space in our solar ...
Interplanetary Spaceflight www.AssignmentPoint.com Interplanetary
... while Pioneer 10, Pioneer 11 and Voyager 2 are on course to leave it. ...
... while Pioneer 10, Pioneer 11 and Voyager 2 are on course to leave it. ...
“Intro to the Solar System”
... • 5. The Galilean Moons, the four largest moons, are named after Galileo. He discovered them with his first telescope. A.) Ganymede: * The Largest moon in the solar system. * Larger than Mercury. B.) Callisto: * 2nd largest of Jupiter’s moons. C.) Io: * Most famous moon of Jupiter ...
... • 5. The Galilean Moons, the four largest moons, are named after Galileo. He discovered them with his first telescope. A.) Ganymede: * The Largest moon in the solar system. * Larger than Mercury. B.) Callisto: * 2nd largest of Jupiter’s moons. C.) Io: * Most famous moon of Jupiter ...
oct29
... which are very similar to reflections from Jupiter’s moons and the polar ice caps on Mars. Mercury’s rotation axis is nearly perpendicular to its orbit. Thus within 6.5 degrees of the poles, crater floors are deep enough that the Sun never shines there allowing temperatures to stay below freezing. ...
... which are very similar to reflections from Jupiter’s moons and the polar ice caps on Mars. Mercury’s rotation axis is nearly perpendicular to its orbit. Thus within 6.5 degrees of the poles, crater floors are deep enough that the Sun never shines there allowing temperatures to stay below freezing. ...
Chapter 7: Our Planetary System Chapter 8: Formation of the Solar
... Where did the solar system come from? What caused the orderly patterns of motion in our solar system? Why are there two major types of planets? How did the terrestrial planets form? How did the jovian planets form? What ended the era of planet formation? Where did asteroids and comets come from? How ...
... Where did the solar system come from? What caused the orderly patterns of motion in our solar system? Why are there two major types of planets? How did the terrestrial planets form? How did the jovian planets form? What ended the era of planet formation? Where did asteroids and comets come from? How ...
Our Solar System!!! - Natural History Museum of Los Angeles
... So big that all the other planets and moons can fit inside. Has 63 known moons. One of four planets that has a ring. Famous for it’s great red spot – a large storm that has been active for at least 400 years. ...
... So big that all the other planets and moons can fit inside. Has 63 known moons. One of four planets that has a ring. Famous for it’s great red spot – a large storm that has been active for at least 400 years. ...
A journey through the solar system - Natural History Museum of Los
... So big that all the other planets and moons can fit inside. Has 63 known moons. One of four planets that has a ring. Famous for it’s great red spot – a large storm that has been active for at least 400 years. ...
... So big that all the other planets and moons can fit inside. Has 63 known moons. One of four planets that has a ring. Famous for it’s great red spot – a large storm that has been active for at least 400 years. ...
The Origins of the Solar System
... The Origins of the Solar System Read the section below and answer the questions at the bottom. How do we know how the solar system formed and how long ago? The oldest rocks on Earth have radiometric dates to about 4 billion years, and rocks on the Moon and asteroid and meteorite material we have col ...
... The Origins of the Solar System Read the section below and answer the questions at the bottom. How do we know how the solar system formed and how long ago? The oldest rocks on Earth have radiometric dates to about 4 billion years, and rocks on the Moon and asteroid and meteorite material we have col ...
The Solar System
... It is about 28,000 km long and 14,000 km wide – three Earths could fit inside it It is the biggest storm in the Solar System Part of the reason that the storm never goes away is that it never passes over land – on Earth hurricanes lose much of their force as they move over the land ...
... It is about 28,000 km long and 14,000 km wide – three Earths could fit inside it It is the biggest storm in the Solar System Part of the reason that the storm never goes away is that it never passes over land – on Earth hurricanes lose much of their force as they move over the land ...
Jade and Marisol.key
... mass is 318 times greater. All other planets in the Solar System could fit inside of it. Jupiter actually has barely visible rings. Its red spot is a giant storm that has been there for thousands of years. It has 39 known moons, more than other planets. This planet has no seasons because its axis is ...
... mass is 318 times greater. All other planets in the Solar System could fit inside of it. Jupiter actually has barely visible rings. Its red spot is a giant storm that has been there for thousands of years. It has 39 known moons, more than other planets. This planet has no seasons because its axis is ...
presentation source
... And both the Sun and planets merely players. They had their birth and’ll have their fiery end. A planet in its time plays many parts, Its acts being seven ages. The first of these Is condensation: dust grains drifting to The nebula plane in chondrite clods. And then The planetesimals: breaking somet ...
... And both the Sun and planets merely players. They had their birth and’ll have their fiery end. A planet in its time plays many parts, Its acts being seven ages. The first of these Is condensation: dust grains drifting to The nebula plane in chondrite clods. And then The planetesimals: breaking somet ...
vocabulary words to know
... SQUEEZE YOUR ANSWERS into the little space given!! Staple your paper to the back of the study guide. 9. How did Galileo’s observations support the idea of a heliocentric system? 10. Why does Mercury have only a thin atmosphere? 11. How do astronomers explain that Venus rotates in the opposite direct ...
... SQUEEZE YOUR ANSWERS into the little space given!! Staple your paper to the back of the study guide. 9. How did Galileo’s observations support the idea of a heliocentric system? 10. Why does Mercury have only a thin atmosphere? 11. How do astronomers explain that Venus rotates in the opposite direct ...
Solar System Presentation
... • A “planet” is a celestial body that: – is in orbit around the Sun; – has sufficient mass for selfgravity so it assumes a nearly round shape; and – has cleared the neighborhood around its orbit. ...
... • A “planet” is a celestial body that: – is in orbit around the Sun; – has sufficient mass for selfgravity so it assumes a nearly round shape; and – has cleared the neighborhood around its orbit. ...
Do not write on this copy write answers on answer sheet Earth, Solar
... 10. (2d). Why is Mars the most likely destination for manned voyages and surface exploration? A. Earth is closest to Mars B. Mars has two moons to explore C. Mars has some conditions similar to Earth D. Mars has life making it a more interesting destination 11. (1c) What holds the planets in their o ...
... 10. (2d). Why is Mars the most likely destination for manned voyages and surface exploration? A. Earth is closest to Mars B. Mars has two moons to explore C. Mars has some conditions similar to Earth D. Mars has life making it a more interesting destination 11. (1c) What holds the planets in their o ...
Scale Model of the Solar System
... The scale model will show the distance from the Sun to each planet. It will show the planets lined up in order. Please note that the planets are not actually lined up this way, but it is a convenient model to illustrate the planets’ comparative distances. 1. Turn this paper over and sideways. On the ...
... The scale model will show the distance from the Sun to each planet. It will show the planets lined up in order. Please note that the planets are not actually lined up this way, but it is a convenient model to illustrate the planets’ comparative distances. 1. Turn this paper over and sideways. On the ...
Eight Planets
... of iron. 71 Percent of the Earth's surface is covered with water. It is the only planet on which water can exist in liquid form on the surface. ...
... of iron. 71 Percent of the Earth's surface is covered with water. It is the only planet on which water can exist in liquid form on the surface. ...
VENUS • Second planet from sun. • named after the
... Neptune has a planetary ring system, though one much less substantial than that of Saturn. The rings may consist of ice particles coated with silicates or carbon-based material, which most likely gives them a reddish hue. ...
... Neptune has a planetary ring system, though one much less substantial than that of Saturn. The rings may consist of ice particles coated with silicates or carbon-based material, which most likely gives them a reddish hue. ...
Ch. 17: The Solar System
... Gravity keeps the planets in orbits flying around the Sun All planets travel in elliptical orbits Planets travel fastest at perihelion (closest to Sun) & slower at aphelion (farthest from Sun ...
... Gravity keeps the planets in orbits flying around the Sun All planets travel in elliptical orbits Planets travel fastest at perihelion (closest to Sun) & slower at aphelion (farthest from Sun ...
The Solar System Chapter 3 pages 78
... 1. Distances within the solar system are so large that scientists use the ____________________________________________________________________________________________________________________________________ ____________________________________________________________________________________________ ...
... 1. Distances within the solar system are so large that scientists use the ____________________________________________________________________________________________________________________________________ ____________________________________________________________________________________________ ...
The Planets
... Fourth Planet from the Sun Called the Red Planet because of it’s red color A day on Mars is a little over 24 hours (only a little longer than a day on Earth) A year on Mars is 687 days (almost double an Earth year) Mars has two moons Phobos and Diemos There are craters, volcanoes, and du ...
... Fourth Planet from the Sun Called the Red Planet because of it’s red color A day on Mars is a little over 24 hours (only a little longer than a day on Earth) A year on Mars is 687 days (almost double an Earth year) Mars has two moons Phobos and Diemos There are craters, volcanoes, and du ...
Analysis of Planet Data
... 2. Which planet has the most mass and which one the least mass? (1) 3. Which planet’s day is longer than its year? (1) 4. Which planet could float on water and why? (1) 5. Retrograde means moving backward. Which planet(s) has a retrograde rotation? (1) 6. Is there a relationship between planet diame ...
... 2. Which planet has the most mass and which one the least mass? (1) 3. Which planet’s day is longer than its year? (1) 4. Which planet could float on water and why? (1) 5. Retrograde means moving backward. Which planet(s) has a retrograde rotation? (1) 6. Is there a relationship between planet diame ...
Orbital distance 1.52 AU Orbital period 1.88 years Rotation period
... frequent dust storms [fig 11.37] erosion sand dunes few thin clouds (water vapor) thin morning ice “fog” [fig 11.38] ...
... frequent dust storms [fig 11.37] erosion sand dunes few thin clouds (water vapor) thin morning ice “fog” [fig 11.38] ...