Chapter 28 Notes
... causes super greenhouse effect • Surface temperature of 464C!! • Can be seen as a bright morning or evening “star” ...
... causes super greenhouse effect • Surface temperature of 464C!! • Can be seen as a bright morning or evening “star” ...
Space Jeopardy 2
... The colour the Northern Lights appear when the Sun’s solar wind travel along Earth’s magnetic field and strike particles of ...
... The colour the Northern Lights appear when the Sun’s solar wind travel along Earth’s magnetic field and strike particles of ...
out of this world crossword
... 5. Pluto’s home is in the _ _ _ _ _ _ _ _ _ _ , an icy area in the far reaches of our solar system. 8. _ _ _ _ is nicknamed “The Red Planet” because of its reddish soil. 10. Scorch might have called Earth the dark _ _ _ _ _ _ , but it’s anything but that to us. 12. All the planets in our solar syste ...
... 5. Pluto’s home is in the _ _ _ _ _ _ _ _ _ _ , an icy area in the far reaches of our solar system. 8. _ _ _ _ is nicknamed “The Red Planet” because of its reddish soil. 10. Scorch might have called Earth the dark _ _ _ _ _ _ , but it’s anything but that to us. 12. All the planets in our solar syste ...
121mtr09
... If the moon formed by accretion then its density should be identical to the Earth’s ...
... If the moon formed by accretion then its density should be identical to the Earth’s ...
Our Solar System
... Fourth planet from sun Appears as bright reddish color in the night sky Surface features volcanoes and huge dust storms Has 2 moons: Phobos and Deimos ...
... Fourth planet from sun Appears as bright reddish color in the night sky Surface features volcanoes and huge dust storms Has 2 moons: Phobos and Deimos ...
Science Astronomy Name
... 24. A galaxy is a large cluster of billions of stars and clouds of gas and dust held together by gravity. 25. The Milky Way is a large collection of stars that make up the galaxy in which our solar system is located. The Andromeda Galaxy is another galaxy. 26. A comet is a ball of ice and dust that ...
... 24. A galaxy is a large cluster of billions of stars and clouds of gas and dust held together by gravity. 25. The Milky Way is a large collection of stars that make up the galaxy in which our solar system is located. The Andromeda Galaxy is another galaxy. 26. A comet is a ball of ice and dust that ...
Our Solar System
... over from the beginning of the solar system billions of years ago 100,000 asteroids lie in belt between Mars and Jupiter Largest asteroids have been given names ...
... over from the beginning of the solar system billions of years ago 100,000 asteroids lie in belt between Mars and Jupiter Largest asteroids have been given names ...
Our Solar System
... over from the beginning of the solar system billions of years ago 100,000 asteroids lie in belt between Mars and Jupiter Largest asteroids have been given names ...
... over from the beginning of the solar system billions of years ago 100,000 asteroids lie in belt between Mars and Jupiter Largest asteroids have been given names ...
Science Astronomy Name
... 24. A galaxy is a large cluster of billions of stars and clouds of gas and dust held together by gravity. 25. The Milky Way is a large collection of stars that make up the galaxy in which our solar system is located. The Andromeda Galaxy is another ...
... 24. A galaxy is a large cluster of billions of stars and clouds of gas and dust held together by gravity. 25. The Milky Way is a large collection of stars that make up the galaxy in which our solar system is located. The Andromeda Galaxy is another ...
Earth Science Chapter Two: What Makes Up the Solar System
... 6. How did the inner planets get their name? 7. Why would astronauts not be able to leave their spacecrafts on Mercury, even with spacesuits? 8. What makes Venus extremely poisonous to humans? 9. What are the two basic features that make life possible on Earth? 10. What do Mars and Earth both have i ...
... 6. How did the inner planets get their name? 7. Why would astronauts not be able to leave their spacecrafts on Mercury, even with spacesuits? 8. What makes Venus extremely poisonous to humans? 9. What are the two basic features that make life possible on Earth? 10. What do Mars and Earth both have i ...
Solar System - U
... The four inner or terrestrial planets have dense, rocky compositions, few or no moons, and no ring systems. They are composed largely of refractory minerals, such as the silicates, which form their crusts and mantles, and metals, such as iron and nickel, which form their cores. Three of the four in ...
... The four inner or terrestrial planets have dense, rocky compositions, few or no moons, and no ring systems. They are composed largely of refractory minerals, such as the silicates, which form their crusts and mantles, and metals, such as iron and nickel, which form their cores. Three of the four in ...
small rocky planets
... hydrogen and helium. Saturn is the least dense of all the planets. In fact, Saturn’s density is less than that of water. • Saturn has many rings composed primarily of ice with some ice-coated rocky particles. Saturn’s rings are very wide (they extend outward to about 260,000 miles from the surface) ...
... hydrogen and helium. Saturn is the least dense of all the planets. In fact, Saturn’s density is less than that of water. • Saturn has many rings composed primarily of ice with some ice-coated rocky particles. Saturn’s rings are very wide (they extend outward to about 260,000 miles from the surface) ...
No Slide Title
... There is one star in each galaxy. Our solar system makes up most of our galaxy. ...
... There is one star in each galaxy. Our solar system makes up most of our galaxy. ...
Test#2
... 10. How can craters tell us about the ages of surface regions of planets? a) crater density increases with time b) material blasted from the craters sometimes reaches Earth and can be dated c) craters shrink in size at a predictable rate d) impacts produce carbon 14, which can be dated 11. Suppose ...
... 10. How can craters tell us about the ages of surface regions of planets? a) crater density increases with time b) material blasted from the craters sometimes reaches Earth and can be dated c) craters shrink in size at a predictable rate d) impacts produce carbon 14, which can be dated 11. Suppose ...
Planets
... Day: 24 hrs, 37 min. Year: 687 days The temperature on Mars ranges from about 0° to -100° F ...
... Day: 24 hrs, 37 min. Year: 687 days The temperature on Mars ranges from about 0° to -100° F ...
Note: Bring the solved worksheet on Sunday, 21 st February 2016
... 1. What created most of the Moon’s craters? a. heat from the Sun b. ancient volcanoes c. chunks of rock and metal that crashed into the Moon 2. How long does the Moon take to cycle through all of its phases? a. about one week ...
... 1. What created most of the Moon’s craters? a. heat from the Sun b. ancient volcanoes c. chunks of rock and metal that crashed into the Moon 2. How long does the Moon take to cycle through all of its phases? a. about one week ...
Topic: Introduction to Earth, Moon, Sun Date:
... Essential Question/Learning Target: What is the relationship between Earth, Moon, and Sun? Questions/Key Terms ...
... Essential Question/Learning Target: What is the relationship between Earth, Moon, and Sun? Questions/Key Terms ...
SOL Study Book
... Venus, Mars, and Mercury Memory Jogger: Jealous Sisters Usually Never Eat Very Many Marshmallows 5. Jupiter, Saturn, Uranus, and Neptune have rings 6. Pluto is considered a “dwarf planet” and is smaller than seven moons in our solar system 7. Inner Planets Include: Earth, Mercury, Venus, and Mars Mo ...
... Venus, Mars, and Mercury Memory Jogger: Jealous Sisters Usually Never Eat Very Many Marshmallows 5. Jupiter, Saturn, Uranus, and Neptune have rings 6. Pluto is considered a “dwarf planet” and is smaller than seven moons in our solar system 7. Inner Planets Include: Earth, Mercury, Venus, and Mars Mo ...
Life: Definition, Origin, Criteria
... • Planets should form naturally out of stellar ‘debris’ in the disk • We can now detect many planets, from Jupiter to Earth size ...
... • Planets should form naturally out of stellar ‘debris’ in the disk • We can now detect many planets, from Jupiter to Earth size ...
How our Solar System (and Moon) came to be
... • Meteors and Meteorites – Meteor – lump of rock or metal that falls from space towards earth’s surface – Meteorite – a meteor that is large enough to survive entry and reach the surface of the earth • Separated into 2 broad groups: stones and irons • Impact of meteorite creates a crater ...
... • Meteors and Meteorites – Meteor – lump of rock or metal that falls from space towards earth’s surface – Meteorite – a meteor that is large enough to survive entry and reach the surface of the earth • Separated into 2 broad groups: stones and irons • Impact of meteorite creates a crater ...
Planet Powerpoint
... These planets are called the gas giants Jupiter, Saturn, Uranus, and Neptune are much larger than earth and do NOT have solid surfaces Strong gravity keeps gases from escaping so they have deep atmospheres May have a center or core but hard to explore because of the great pressure of the atmos ...
... These planets are called the gas giants Jupiter, Saturn, Uranus, and Neptune are much larger than earth and do NOT have solid surfaces Strong gravity keeps gases from escaping so they have deep atmospheres May have a center or core but hard to explore because of the great pressure of the atmos ...
The two moons of Mars, Deimos and Phobos, are small and non
... than on Earth, but the nighttime temperature of Mercury is much lower than on Earth. Venus is most similar in size, chemistry, and distance from the Sun. Mars is most similar in its length of day, seasons, erosion, and in having water ice. ...
... than on Earth, but the nighttime temperature of Mercury is much lower than on Earth. Venus is most similar in size, chemistry, and distance from the Sun. Mars is most similar in its length of day, seasons, erosion, and in having water ice. ...