Scale Model of the Solar System
... Mercury Venus Earth Mars Asteroid belt Jupiter Saturn Uranus Neptune Pluto Proxima Centauri The Moon ...
... Mercury Venus Earth Mars Asteroid belt Jupiter Saturn Uranus Neptune Pluto Proxima Centauri The Moon ...
The solar system
... two groups. • The terrestrial planets include Mercury, Venus, Earth, and Mars. • The gas planets include Jupiter, Saturn, Uranus, and Neptune. • Pluto is not a terrestrial or gas planet, but now placed in a class of its own. ...
... two groups. • The terrestrial planets include Mercury, Venus, Earth, and Mars. • The gas planets include Jupiter, Saturn, Uranus, and Neptune. • Pluto is not a terrestrial or gas planet, but now placed in a class of its own. ...
Astronomy Review Name: Date: Name the planets in order from the
... 6. What does gas giant mean? The planet is composed primarily of gas with a very small rocky core. 7. Name the rocky planets. ...
... 6. What does gas giant mean? The planet is composed primarily of gas with a very small rocky core. 7. Name the rocky planets. ...
8 planets in our solar system.
... Uranus is the seventh planet from the sun. It is tilted so far on its axis that it rotates on its side. Also, the rotation is in the opposite direction of the rest of the outer planets. It also has rings. Neptune is the farthest planet from the sun. It has narrow, faint rings arranged in clumps. ...
... Uranus is the seventh planet from the sun. It is tilted so far on its axis that it rotates on its side. Also, the rotation is in the opposite direction of the rest of the outer planets. It also has rings. Neptune is the farthest planet from the sun. It has narrow, faint rings arranged in clumps. ...
Solar System Outline
... Jupiter contains over 70% of the mass in the solar system outside the Sun. It is about 11 times the radius and 330 times the mass of the earth. It is the first representative of the outer solar system. Unlike the inner planets, Jupiter is not a solid body, but instead is a ball of gas and liquid (mo ...
... Jupiter contains over 70% of the mass in the solar system outside the Sun. It is about 11 times the radius and 330 times the mass of the earth. It is the first representative of the outer solar system. Unlike the inner planets, Jupiter is not a solid body, but instead is a ball of gas and liquid (mo ...
Formation of the Sun and Planets Quiz
... 2) The major bodies of the solar system formed a) At the same time. b) In this order: sun, inner planets, outer planets, asteroids, comets. c) In this order: asteroids, comets, sun, outer planets, inner planets. d) From a black hole. ...
... 2) The major bodies of the solar system formed a) At the same time. b) In this order: sun, inner planets, outer planets, asteroids, comets. c) In this order: asteroids, comets, sun, outer planets, inner planets. d) From a black hole. ...
summ assess astro sci 8 20152016
... 5. The distance of planets from the sun is most clearly related to a) the time for one revolution b) the size of the planet c) the composition of the planets' atmospheres d) the time for one rotation 6. Which of the following is/are not evidence to support an elliptical orbit of the earth around the ...
... 5. The distance of planets from the sun is most clearly related to a) the time for one revolution b) the size of the planet c) the composition of the planets' atmospheres d) the time for one rotation 6. Which of the following is/are not evidence to support an elliptical orbit of the earth around the ...
Unit Test - Dnyansagar Coaching Classes, Ahmednagar
... (D) Find odd man out. 1) Mercury, Venus, Mars, Sirius 2) Mercury, Mars, Jupiter, Saturn 3) Sun, Sirius, Pole Star, Venus 4) Mriga, Punarvasu, Ashlesha, Jupiter (A) Answer the following in short (any two) 1) What is period of rotation? 2) What is GMRT? 3) What are asteroids? 4) Name any four nakshatr ...
... (D) Find odd man out. 1) Mercury, Venus, Mars, Sirius 2) Mercury, Mars, Jupiter, Saturn 3) Sun, Sirius, Pole Star, Venus 4) Mriga, Punarvasu, Ashlesha, Jupiter (A) Answer the following in short (any two) 1) What is period of rotation? 2) What is GMRT? 3) What are asteroids? 4) Name any four nakshatr ...
Space Explorations - Holy Cross Collegiate
... unmanned satellites or remote-controlled ‘landers’ that put equipment on or close to planets where no human has gone before. • Probes have done remote sensing on Mercury and Jupiter, taken soil samples on Mars, landed on Venus, and studied Saturn’s rings up close. • The most recent probes to explore ...
... unmanned satellites or remote-controlled ‘landers’ that put equipment on or close to planets where no human has gone before. • Probes have done remote sensing on Mercury and Jupiter, taken soil samples on Mars, landed on Venus, and studied Saturn’s rings up close. • The most recent probes to explore ...
Slide 1 - Red Hook Central Schools
... 5. Most planets orbit counterclockwise with little axis tilt (<25 degrees) 6. Almost all moons orbit in the same direction their planet rotates 7. Almost all moons orbit near their planet’s equatorial plane 8. The sun rotates in the same direction as the planets orbit (counterclockwise) ...
... 5. Most planets orbit counterclockwise with little axis tilt (<25 degrees) 6. Almost all moons orbit in the same direction their planet rotates 7. Almost all moons orbit near their planet’s equatorial plane 8. The sun rotates in the same direction as the planets orbit (counterclockwise) ...
The Daily Telegraph – London… 14th February 2008… New Solar
... The smaller planet is roughly twice as far from its star as the larger one, just as Saturn is about twice as far from the sun as Jupiter. Planetary scientists who discovered them believe there could be rocky planets, like Mercury, Venus, Earth and Mars, closer to the star. Of around 250 planets so f ...
... The smaller planet is roughly twice as far from its star as the larger one, just as Saturn is about twice as far from the sun as Jupiter. Planetary scientists who discovered them believe there could be rocky planets, like Mercury, Venus, Earth and Mars, closer to the star. Of around 250 planets so f ...
Our Solar System
... Planetary Motion • Venus and Mercury stay near the Sun and can only be seen in the early morning or early evening. • Mars, Jupiter and Saturn move westward along with the fixed stars due to Earth’s rotation. • Retrograde motion happens when Earth catches up with and passes an outer planet in its or ...
... Planetary Motion • Venus and Mercury stay near the Sun and can only be seen in the early morning or early evening. • Mars, Jupiter and Saturn move westward along with the fixed stars due to Earth’s rotation. • Retrograde motion happens when Earth catches up with and passes an outer planet in its or ...
Chapter 25.1: Exploring the Solar System and 25.5 The Origin of the
... was the center of the revolve around the Universe. SUN. • In the 1500s, with *In a GEOCENTRIC Model, evidence supported by Earth is stationary while Copernicus and other objects in the sky Galileo, this move around it. Heliocentric Model was proven Correct! ...
... was the center of the revolve around the Universe. SUN. • In the 1500s, with *In a GEOCENTRIC Model, evidence supported by Earth is stationary while Copernicus and other objects in the sky Galileo, this move around it. Heliocentric Model was proven Correct! ...
This Week in Science
... The outer planets are Jupiter, Saturn, Uranus, and Neptune. These planets are larger than the inner planets and are huge balls of gas with solid cores. They are called the gas giants. Jupiter is the largest planet and 5th planet from the Sun. Saturn is the 6th planet from the Sun and has broad rings ...
... The outer planets are Jupiter, Saturn, Uranus, and Neptune. These planets are larger than the inner planets and are huge balls of gas with solid cores. They are called the gas giants. Jupiter is the largest planet and 5th planet from the Sun. Saturn is the 6th planet from the Sun and has broad rings ...
Geocentric vs. Heliocentric
... perfect sphere with Earth at the center. • Objects in space also move in perfect circles. ...
... perfect sphere with Earth at the center. • Objects in space also move in perfect circles. ...
Introduction to Astronomy
... Announcements • Homework 3 due Monday • Test next week: Wednesday or Thursday (your choice); at SL 228 testing center; one hour time limit; no calculators; study homework, lectures, textbook ...
... Announcements • Homework 3 due Monday • Test next week: Wednesday or Thursday (your choice); at SL 228 testing center; one hour time limit; no calculators; study homework, lectures, textbook ...
Today`s Powerpoint
... Make further observations to test the theory Refine the theory, or if it no longer works, make a new one ...
... Make further observations to test the theory Refine the theory, or if it no longer works, make a new one ...
22 Jan: The Sky Tonight and Overview of the Solar System
... • Bright object low in southwest (what is it?) • First quarter Moon. Note where it is at this time of day • Look to south-southeast. Lots of stars • At 8 pm…look east. The planet Mars is in the constellation of Leo • 10:30 pm…look east. Bright object in constellation of Virgo. The planet Saturn (orb ...
... • Bright object low in southwest (what is it?) • First quarter Moon. Note where it is at this time of day • Look to south-southeast. Lots of stars • At 8 pm…look east. The planet Mars is in the constellation of Leo • 10:30 pm…look east. Bright object in constellation of Virgo. The planet Saturn (orb ...
Lecture notes -
... The unit for interplanetary distances: the Astronomical Unit • Average distance between the Earth and Sun • The astronomical unit = 149,600,000 km • In scientific notation: • The AU = 93,000,000 miles • The AU is 17 years in an economy ...
... The unit for interplanetary distances: the Astronomical Unit • Average distance between the Earth and Sun • The astronomical unit = 149,600,000 km • In scientific notation: • The AU = 93,000,000 miles • The AU is 17 years in an economy ...
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... planets, their moons, the asteroids, comets, meteoroids and other rocks and gas all orbitthe
... planets, their moons, the asteroids, comets, meteoroids and other rocks and gas all orbitthe
The_Cosmic_Landscape
... The earth is used as a through the surface guide by astronomers and into space. to study the other -These same forces planets and objects in are the one's that space. tugs the needle of a The interior is compass north or extremely hot, which south, and the ones therefore creates that shape the motio ...
... The earth is used as a through the surface guide by astronomers and into space. to study the other -These same forces planets and objects in are the one's that space. tugs the needle of a The interior is compass north or extremely hot, which south, and the ones therefore creates that shape the motio ...
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.