Can You Planet
... 1. Divide the class into pairs or cooperative learning groups for this activity. Alternate between small group activity and whole group discussions. The last part of the activity may be done in small groups with copies of the planets or as a whole class activity with one copy of the planet. 2. If de ...
... 1. Divide the class into pairs or cooperative learning groups for this activity. Alternate between small group activity and whole group discussions. The last part of the activity may be done in small groups with copies of the planets or as a whole class activity with one copy of the planet. 2. If de ...
Our Solar System - sci9sage-wmci
... against the nebula from which it formed. This pushed the gas and dust away from the Sun. The leftover dust, gases, and other debris in the nebula that remained continued to spin, creating a thin disk around the new star. From within this disk, small bodies began to form, growing into the planets, mo ...
... against the nebula from which it formed. This pushed the gas and dust away from the Sun. The leftover dust, gases, and other debris in the nebula that remained continued to spin, creating a thin disk around the new star. From within this disk, small bodies began to form, growing into the planets, mo ...
Planetary Motions and Lessons in Science
... at any distance from the Sun in the sky. • Planets usually move west-to-east against the fixed stars. But sometimes the planets move backwards (east-to-west). This is called retrograde motion. • As shown by retrograde motion, planets move in a more irregular pattern than Sun and Moon, and so were ca ...
... at any distance from the Sun in the sky. • Planets usually move west-to-east against the fixed stars. But sometimes the planets move backwards (east-to-west). This is called retrograde motion. • As shown by retrograde motion, planets move in a more irregular pattern than Sun and Moon, and so were ca ...
Name
... length of day and night. The Earth rotates on its axis, an imaginary line through Earth that goes from the North Pole to the South Pole. As the Earth rotates only part of the Earth’s surface faces the sun at a time. This rotation is what causes day and night. One complete rotation takes place every ...
... length of day and night. The Earth rotates on its axis, an imaginary line through Earth that goes from the North Pole to the South Pole. As the Earth rotates only part of the Earth’s surface faces the sun at a time. This rotation is what causes day and night. One complete rotation takes place every ...
The Outer Planets - Mother Teresa Regional School
... Neptune was discovered as a result of mathematical predictions. Like the Great Red Spot on Jupiter, the Great Dark spot about the size of Earth is also thought to be a giant storm on Neptune. Astronomers have discovered at least 13 moons orbiting Neptune. The largest being Triton. Triton’s sou ...
... Neptune was discovered as a result of mathematical predictions. Like the Great Red Spot on Jupiter, the Great Dark spot about the size of Earth is also thought to be a giant storm on Neptune. Astronomers have discovered at least 13 moons orbiting Neptune. The largest being Triton. Triton’s sou ...
Review for Astronomy Exam 1
... Aristotle: the Universe has 8 crystalline spheres (Moon, Mercury, Venus, Sun, Mars, Jupiter, Saturn, Stars) he added a fifth element “quintessence” to his cosmological system Ptolemaic model of the Universe: the epicycle, a little circle that the planet follows as it proceeds around the Earth on a l ...
... Aristotle: the Universe has 8 crystalline spheres (Moon, Mercury, Venus, Sun, Mars, Jupiter, Saturn, Stars) he added a fifth element “quintessence” to his cosmological system Ptolemaic model of the Universe: the epicycle, a little circle that the planet follows as it proceeds around the Earth on a l ...
GAYNES SCHOOL SCHEME OF WORK – SCIENCE
... Are all the planets the same? Why do we have seasons? ...
... Are all the planets the same? Why do we have seasons? ...
Exoplanets. I
... mass. The radius of the orbit is inversely proportional to the mass The radius of the Sun’s orbit with respect to the Earth is 1/300,000 AU, or 500 km R 1 M1 = R 2 M 2 ...
... mass. The radius of the orbit is inversely proportional to the mass The radius of the Sun’s orbit with respect to the Earth is 1/300,000 AU, or 500 km R 1 M1 = R 2 M 2 ...
Space is Big…
... It is 275,000-575,000 times as luminous as the Sun. The mass of the star is unknown. The mass estimated from its orbital motion is about 100 solar masses. On the other hand, the mass estimated from its luminosity is about 25-40 solar masses. ...
... It is 275,000-575,000 times as luminous as the Sun. The mass of the star is unknown. The mass estimated from its orbital motion is about 100 solar masses. On the other hand, the mass estimated from its luminosity is about 25-40 solar masses. ...
Name: ________________________ Date: Chapter 13: Earth
... f. Earth’s orbit and tilt. g. The sun’s speed and the orbit of the sun. h. Changing directions of Earth’s orbit. j. The position of the moon in relation to Earth. Inquiry Skills 17. How could you use a model to learn more about eclipses? (attach paper as needed) _____________________________________ ...
... f. Earth’s orbit and tilt. g. The sun’s speed and the orbit of the sun. h. Changing directions of Earth’s orbit. j. The position of the moon in relation to Earth. Inquiry Skills 17. How could you use a model to learn more about eclipses? (attach paper as needed) _____________________________________ ...
Chapter 5 Concept Review - Cambridge University Press
... prograde motion (drifting west to east among the stars). Aristotle’s cosmological model, a description of reality, had the Sun, Moon, and planets orbiting the Earth (Sec. 5.2). Ptolemy enlarged on Aristotle’s geocentric (Earth‐centered) theory and explained retrograde motion b ...
... prograde motion (drifting west to east among the stars). Aristotle’s cosmological model, a description of reality, had the Sun, Moon, and planets orbiting the Earth (Sec. 5.2). Ptolemy enlarged on Aristotle’s geocentric (Earth‐centered) theory and explained retrograde motion b ...
Solar System
... • As these planets grew, gravity increased, and these planets captured Hydrogen (H) and Helium (He) from ...
... • As these planets grew, gravity increased, and these planets captured Hydrogen (H) and Helium (He) from ...
Integrative Studies 410 Our Place in the Universe
... • 1000 people injured as 20m rock strikes • Explodes about 20km overhead • 16 hours before known non-fatal asteroid encounter ...
... • 1000 people injured as 20m rock strikes • Explodes about 20km overhead • 16 hours before known non-fatal asteroid encounter ...
Planets - Cloudfront.net
... that move around the planet. Rich in historical and cultural connections, Jupiter is the site of recent comet impacts and continuing ...
... that move around the planet. Rich in historical and cultural connections, Jupiter is the site of recent comet impacts and continuing ...
Planetary Mnemonic
... planets, one dwarf planet, their moons, and smaller objects (comets, asteroids, and meteoroids). The planets, moons, and smaller objects are held in orbit by the Sun's gravity. The sun is the only star in our solar system. Even though it's just an average-sized star, the Sun is still bigger and more ...
... planets, one dwarf planet, their moons, and smaller objects (comets, asteroids, and meteoroids). The planets, moons, and smaller objects are held in orbit by the Sun's gravity. The sun is the only star in our solar system. Even though it's just an average-sized star, the Sun is still bigger and more ...
Lecture 1_Planets an..
... highlands Mars was wet early in its history, and it may have been warm, as well ...
... highlands Mars was wet early in its history, and it may have been warm, as well ...
Best of the Solar System Handout.
... comet Shoemaker-Levy 9 impacted the planet Jupiter This image from the Hubble Space Telescope shows the site of two fragment impacts. Jupiter is known as a gas giant, and is made up mostly of hydrogen and helium in gas and liquid form. It is thought to have a small core of molten rock. When we obser ...
... comet Shoemaker-Levy 9 impacted the planet Jupiter This image from the Hubble Space Telescope shows the site of two fragment impacts. Jupiter is known as a gas giant, and is made up mostly of hydrogen and helium in gas and liquid form. It is thought to have a small core of molten rock. When we obser ...
Terrestrial Planets
... The test is closed book, closed notes, and no calculators. There will be a sheet of equations available. A practice midterm is available. Take the practice test for 1.5 hours, and see how you do. If you have any questions, you can ask about them in discussion next week. ...
... The test is closed book, closed notes, and no calculators. There will be a sheet of equations available. A practice midterm is available. Take the practice test for 1.5 hours, and see how you do. If you have any questions, you can ask about them in discussion next week. ...
Scale of the Universe
... 11. Europa is one of Jupiter’s many moons. What might be found underneath its ice?______________________. 12. Io is another one of Jupiter’s moons and is the 4th largest in the solar system . It is the most ________________ object in our solar system. 13. Sedna is the farthest object in our solar s ...
... 11. Europa is one of Jupiter’s many moons. What might be found underneath its ice?______________________. 12. Io is another one of Jupiter’s moons and is the 4th largest in the solar system . It is the most ________________ object in our solar system. 13. Sedna is the farthest object in our solar s ...
Orrery
An orrery is a mechanical model of the solar system that illustrates or predicts the relative positions and motions of the planets and moons, usually according to the heliocentric model. It may also represent the relative sizes of these bodies; but since accurate scaling is often not practical due to the actual large ratio differences, a subdued approximation may be used instead. Though the Greeks had working planetaria, the first orrery that was a planetarium of the modern era was produced in 1704, and one was presented to Charles Boyle, 4th Earl of Orrery — whence came the name. They are typically driven by a clockwork mechanism with a globe representing the Sun at the centre, and with a planet at the end of each of the arms.