Class 32
... The composition of the cores of all four Jovian planets is expected to be very similar despite their large range of size and density. Jupiter and Saturn are large enough to have metallic hydrogen and to have liquid cores of rock, metal and H compounds. The cores of Uranus and Neptune are relatively ...
... The composition of the cores of all four Jovian planets is expected to be very similar despite their large range of size and density. Jupiter and Saturn are large enough to have metallic hydrogen and to have liquid cores of rock, metal and H compounds. The cores of Uranus and Neptune are relatively ...
FINAL EXAM
... 56. How many billion yrs did the PreCambrian last 57. What period ended with Dino extinction 58. When did Dinos 1st appear 59. How much can crustal plates move in a year 60. 3 major cloud types 61. Most common form of solid precipitation 62. Warm vs. Cold Front 63. Barometer 64. How is Oxygen added ...
... 56. How many billion yrs did the PreCambrian last 57. What period ended with Dino extinction 58. When did Dinos 1st appear 59. How much can crustal plates move in a year 60. 3 major cloud types 61. Most common form of solid precipitation 62. Warm vs. Cold Front 63. Barometer 64. How is Oxygen added ...
What Is the Solar System?: Reinforcement Activity - Carson
... What is the sun? The sun is one of billions of stars in our part of the universe. That’s right, explorers, I said the sun is a star. It is our local star; it is the center of our solar system. People used to believe that the earth was the center of the solar system and that the planets revolved aro ...
... What is the sun? The sun is one of billions of stars in our part of the universe. That’s right, explorers, I said the sun is a star. It is our local star; it is the center of our solar system. People used to believe that the earth was the center of the solar system and that the planets revolved aro ...
4th Grade Solar System Project
... phases in order. Model included a sun but did not represent accurate position in relation to the planets/moon. Model included Model did not include one out of three. asteroid belt, comets or meteors. Model included Model did not include few facts about facts about the the concept’s concept’s focus. ...
... phases in order. Model included a sun but did not represent accurate position in relation to the planets/moon. Model included Model did not include one out of three. asteroid belt, comets or meteors. Model included Model did not include few facts about facts about the the concept’s concept’s focus. ...
lagrange - The Institute of Mathematical Sciences
... by Jupiter; perhaps your school textbook might say so, but today's scientists think it is more likely that there never was a planet. Given two massive bodies in circular orbits around a common center of mass, there are five positions in space where a third body, of comparatively smaller mass, can be ...
... by Jupiter; perhaps your school textbook might say so, but today's scientists think it is more likely that there never was a planet. Given two massive bodies in circular orbits around a common center of mass, there are five positions in space where a third body, of comparatively smaller mass, can be ...
week1_2009_orbits
... other and they have a component of angular velocity. Gravitational attraction is described by Newton's law of gravity and the orbits obey Kepler's laws, meaning: 1. The orbits are ellipses; 2. The orbits sweep out equal areas in equal times; 3. There is a relationship between the period and size of ...
... other and they have a component of angular velocity. Gravitational attraction is described by Newton's law of gravity and the orbits obey Kepler's laws, meaning: 1. The orbits are ellipses; 2. The orbits sweep out equal areas in equal times; 3. There is a relationship between the period and size of ...
ppt version
... The present-day properties of our Solar System hold important clues to its origin. Primordial Solar Nebula: • Process of the Sun’s formation • Condensation of grains & ices ...
... The present-day properties of our Solar System hold important clues to its origin. Primordial Solar Nebula: • Process of the Sun’s formation • Condensation of grains & ices ...
PowerPoint - Chandra X
... have important implications for the formation of planets around these stars. According to some theoretical models, large flares could produce strong turbulence in a planet-forming disk around a young star. Such turbulence might affect the position of rocky, Earth-like planets as they form and preven ...
... have important implications for the formation of planets around these stars. According to some theoretical models, large flares could produce strong turbulence in a planet-forming disk around a young star. Such turbulence might affect the position of rocky, Earth-like planets as they form and preven ...
The Solar System - Solon City Schools
... Rotational period 23.9 Earth hours. Revolution period of 687 Earth days. Two moons: Phobos & Deimos. Average temperature range is 144 K to 300 K. Thin atmosphere of carbon dioxide and some water. Largest volcano is Olympus Mons. Polar caps of dry ice. ...
... Rotational period 23.9 Earth hours. Revolution period of 687 Earth days. Two moons: Phobos & Deimos. Average temperature range is 144 K to 300 K. Thin atmosphere of carbon dioxide and some water. Largest volcano is Olympus Mons. Polar caps of dry ice. ...
View SKYTRACK_Glossary of Terms
... Celestial Sphere – An imaginary sphere of immense radius around the Earth which serves as the abstract backdrop for celestial bodies. All celestial bodies are assigned celestial coordinates (right ascension and declination), similar to longitude and latitude on Earth, to locate their positions on th ...
... Celestial Sphere – An imaginary sphere of immense radius around the Earth which serves as the abstract backdrop for celestial bodies. All celestial bodies are assigned celestial coordinates (right ascension and declination), similar to longitude and latitude on Earth, to locate their positions on th ...
Patterns in the Solar System
... 42. Using Kepler’s third law (a planet’s orbital period squared is equal to its mean solar distance cubed) or (p2 = d3), calculate the period of revolution (in years) of a hypothetical planet that is 15 Aus from the Sun. ...
... 42. Using Kepler’s third law (a planet’s orbital period squared is equal to its mean solar distance cubed) or (p2 = d3), calculate the period of revolution (in years) of a hypothetical planet that is 15 Aus from the Sun. ...
The Solar System - Henry County Schools
... to the sun, and have rocky surfaces (Mercury, Venus, Earth, Mars) – The outer planets are larger, farther from the sun and do not have solid surfaces (Jupiter, Saturn, Uranus, Neptune) ...
... to the sun, and have rocky surfaces (Mercury, Venus, Earth, Mars) – The outer planets are larger, farther from the sun and do not have solid surfaces (Jupiter, Saturn, Uranus, Neptune) ...
Pluto(2274km)- Pluto is a dwarf planet, and was classified as such in
... which is a storm that has been raging for at least 186 years and possibly as long as 351 years or more. Sun(1.39x10^6km)The Sun is a G-type main sequence star based on its spectral class. The temperature of the photosphere (the outer shell of a star) is about 10,000°F. It is composed mostly of hydro ...
... which is a storm that has been raging for at least 186 years and possibly as long as 351 years or more. Sun(1.39x10^6km)The Sun is a G-type main sequence star based on its spectral class. The temperature of the photosphere (the outer shell of a star) is about 10,000°F. It is composed mostly of hydro ...
Dawn of Astronomy - University of Toledo
... Benchmark A: Describe how the positions and motions of the objects in the universe cause predictable and cyclic events. Benchmark B: Explain that the universe is composed of vast amounts of matter, most of which is at incomprehensible distances and held together by a gravitational force. Describe ho ...
... Benchmark A: Describe how the positions and motions of the objects in the universe cause predictable and cyclic events. Benchmark B: Explain that the universe is composed of vast amounts of matter, most of which is at incomprehensible distances and held together by a gravitational force. Describe ho ...
Our Solar System
... across the sky, their patterns do not change. But five points of light did move among the stars. The Greeks called these objects planets, which means “wandering star.” They made careful observations of these planets, which we call Mercury, Venus, Mars, Jupiter, and Saturn. ...
... across the sky, their patterns do not change. But five points of light did move among the stars. The Greeks called these objects planets, which means “wandering star.” They made careful observations of these planets, which we call Mercury, Venus, Mars, Jupiter, and Saturn. ...
The Solar System
... Only planet to be discovered since ancient times. 7th planet from the sun 287,100,000 kilometers from the sun Astronomers have trouble studying uranus The average temperature is -214 degrees Celsius Uranus rotates once every 17 hours and 40 minutes Helium, hydrogen and methane make up atmospheric ga ...
... Only planet to be discovered since ancient times. 7th planet from the sun 287,100,000 kilometers from the sun Astronomers have trouble studying uranus The average temperature is -214 degrees Celsius Uranus rotates once every 17 hours and 40 minutes Helium, hydrogen and methane make up atmospheric ga ...
Brock physics - Brock University
... (d) the Sun and the Moon have the same angular size and the Sun is much farther away than the Moon. 6. Aristarchus argued that the Sun must be the centre of the solar system because (a) he reasoned that the Sun is much larger than the Earth, and so it made sense that the larger object should be at t ...
... (d) the Sun and the Moon have the same angular size and the Sun is much farther away than the Moon. 6. Aristarchus argued that the Sun must be the centre of the solar system because (a) he reasoned that the Sun is much larger than the Earth, and so it made sense that the larger object should be at t ...
3-4 Astronomy Review 3
... using complete sentences. Reviews completed and corrected entitle students to use their notes for the last five minutes of the quiz. The review is due either Tuesday, March 7 with a quiz on Thursday, March 9. Students are to study for their quiz 20 minutes each night prior to the quiz using their no ...
... using complete sentences. Reviews completed and corrected entitle students to use their notes for the last five minutes of the quiz. The review is due either Tuesday, March 7 with a quiz on Thursday, March 9. Students are to study for their quiz 20 minutes each night prior to the quiz using their no ...
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.