Saturn – The Jewel in the Crown - High Legh Community Observatory
... What we see is the outer layer of Saturn’s atmosphere Looks more tranquil than Jupiter but it does have storms ...
... What we see is the outer layer of Saturn’s atmosphere Looks more tranquil than Jupiter but it does have storms ...
The Solar System
... object around another (Ex: planet around a sun) is a balance between the forces of inertia and gravity. Inertia is the property in which matter remains in a state or rest or motion, unless an opposing ...
... object around another (Ex: planet around a sun) is a balance between the forces of inertia and gravity. Inertia is the property in which matter remains in a state or rest or motion, unless an opposing ...
Facts Concerning the Solar System
... Also called minor planets or planetoids, largely lying within the orbits of Mars and Jupiter (main asteroid belt). ...
... Also called minor planets or planetoids, largely lying within the orbits of Mars and Jupiter (main asteroid belt). ...
File
... • Solar flare —an explosive release of energy that comes from the sun and that is associated with magnetic disturbances on the sun’s surface ...
... • Solar flare —an explosive release of energy that comes from the sun and that is associated with magnetic disturbances on the sun’s surface ...
Name ______ Per ______ Date ____________ SOLAR SYSTEM
... 9. You have reached the last object in your journey. Continue to proceed your mission with care. You are an extremely long way from where you began. Finish collecting your information on Pluto. There are three basic facts about Pluto that are found about Pluto. Give a brief summary of the facts. __ ...
... 9. You have reached the last object in your journey. Continue to proceed your mission with care. You are an extremely long way from where you began. Finish collecting your information on Pluto. There are three basic facts about Pluto that are found about Pluto. Give a brief summary of the facts. __ ...
Solar System
... worlds revolving around the sun that are too small to be called planets. Most asteroids are quite small, under 1 km in size. The ass of all asteroids added together would be less than the mass of the moon. The closest planet is Jupiter and Mars. The temperature can range from something on the order ...
... worlds revolving around the sun that are too small to be called planets. Most asteroids are quite small, under 1 km in size. The ass of all asteroids added together would be less than the mass of the moon. The closest planet is Jupiter and Mars. The temperature can range from something on the order ...
File
... Neptune is the eighth and farthest known planet from the sun and is the fourth largest planet in the solar system. Neptune was discovered in 1846 and named after the Roman god of the sea. It also has methane gas in its atmosphere, but it is deep blue in color with visible clouds. A Great Dark Spot w ...
... Neptune is the eighth and farthest known planet from the sun and is the fourth largest planet in the solar system. Neptune was discovered in 1846 and named after the Roman god of the sea. It also has methane gas in its atmosphere, but it is deep blue in color with visible clouds. A Great Dark Spot w ...
Our Solar System
... sends energy far out into the Solar System. The Sun plays a very important part in our daily lives, providing energy that supports all life on Earth. The Sun causes seasons, climate, ocean currents, air circulation, and weather. Without the Sun’s energy, plants could not grow and make food. Also, ...
... sends energy far out into the Solar System. The Sun plays a very important part in our daily lives, providing energy that supports all life on Earth. The Sun causes seasons, climate, ocean currents, air circulation, and weather. Without the Sun’s energy, plants could not grow and make food. Also, ...
Earth, Moon, and Sun - Sloan Creek Intermediate School
... The Earth is made of ROCK. We live on the outer part called the CRUST. Inside the Earth is so hot the rock melts. The mantle, outer core, and inner core are all melted rock. ...
... The Earth is made of ROCK. We live on the outer part called the CRUST. Inside the Earth is so hot the rock melts. The mantle, outer core, and inner core are all melted rock. ...
Study Guide for 1ST Astronomy Exam
... Rank images of the Moon in different phases in order of occurrence first to last. Characterize the Moon’s apparent motion given its phase and the time of year. Explain why the lunar sidereal period is different than the time for a cycle of lunar phases. Describe the essentials of the geocentri ...
... Rank images of the Moon in different phases in order of occurrence first to last. Characterize the Moon’s apparent motion given its phase and the time of year. Explain why the lunar sidereal period is different than the time for a cycle of lunar phases. Describe the essentials of the geocentri ...
2016-0620-Mountain-Skies
... see from west to east the planets Jupiter, Mars and Saturn and then the moon. Jupiter is the brightest of the planets up tonight. (Venus is brighter but is now hidden behind the sun.) As soon as the sky darkens, we’ll find Jupiter just a bit west of due south and high up in the sky since he is hangi ...
... see from west to east the planets Jupiter, Mars and Saturn and then the moon. Jupiter is the brightest of the planets up tonight. (Venus is brighter but is now hidden behind the sun.) As soon as the sky darkens, we’ll find Jupiter just a bit west of due south and high up in the sky since he is hangi ...
PLANETARY TRAVEL PROJECTS (50 pts, due April 3)
... One must be a terrestrial planet. The terrestrial planets are the small ones close to the sun made of rock. Mercury, Venus, Earth, and Mars are all terrestrial planets, although you can’t use Earth as one of your destinations as that would be a total rip-off. The second destination must be a gas gia ...
... One must be a terrestrial planet. The terrestrial planets are the small ones close to the sun made of rock. Mercury, Venus, Earth, and Mars are all terrestrial planets, although you can’t use Earth as one of your destinations as that would be a total rip-off. The second destination must be a gas gia ...
Chapter2-Questions
... 2) the theory of gravity. 3) proposing a simpler model for the motions of planets in the solar system. 4) discovering the Sun was not at the center of the Milky Way. 5) discovering the four moons of Jupiter. ...
... 2) the theory of gravity. 3) proposing a simpler model for the motions of planets in the solar system. 4) discovering the Sun was not at the center of the Milky Way. 5) discovering the four moons of Jupiter. ...
Review Sheet
... Gravity – The attraction of one mass to another. Meteor – The streak of light produced by a small piece of matter in space that is visible when it ...
... Gravity – The attraction of one mass to another. Meteor – The streak of light produced by a small piece of matter in space that is visible when it ...
Section 14.4 Outer Planets
... The gas giantsJupiter, Saturn, Uranus, and Neptune Much larger than Earth and do not have solid surfaces Atmospheres are all very similar to each other ...
... The gas giantsJupiter, Saturn, Uranus, and Neptune Much larger than Earth and do not have solid surfaces Atmospheres are all very similar to each other ...
PPT
... Age of oldest Moon rocks = 4.5 billion years Age of oldest meteorites (meteoroids that survive the plunge to Earth) = 4.56 billion years ...
... Age of oldest Moon rocks = 4.5 billion years Age of oldest meteorites (meteoroids that survive the plunge to Earth) = 4.56 billion years ...
SCI 103
... 6) _ Opposition __ The configuration of a planet when it rises as the Sun is setting. 7) _ Greatest elongation __ The position of an inner planet when it lies farthest from the Sun on the sky. 8) Circle the seven planets of the ancient world from the alphabetic list presented below. Earth Jupiter Ma ...
... 6) _ Opposition __ The configuration of a planet when it rises as the Sun is setting. 7) _ Greatest elongation __ The position of an inner planet when it lies farthest from the Sun on the sky. 8) Circle the seven planets of the ancient world from the alphabetic list presented below. Earth Jupiter Ma ...
How the Solar System formed
... Age of oldest Moon rocks = 4.5 billion years Age of oldest meteorites (meteoroids that survive the plunge to Earth) = 4.56 billion years ...
... Age of oldest Moon rocks = 4.5 billion years Age of oldest meteorites (meteoroids that survive the plunge to Earth) = 4.56 billion years ...
08_LectureOutlines
... Larger planetesimals and planets were able to form. Gravity of these larger planets was able to draw in surrounding H and He gases. ...
... Larger planetesimals and planets were able to form. Gravity of these larger planets was able to draw in surrounding H and He gases. ...
Solar System App Activity
... 74. What two things does the magnetic field of Earth protect the planet from?_____________________________ _____________________________________________________________________________________________ 75. What does convection in Earth’s outer core generate that causes a magnetic field?______________ ...
... 74. What two things does the magnetic field of Earth protect the planet from?_____________________________ _____________________________________________________________________________________________ 75. What does convection in Earth’s outer core generate that causes a magnetic field?______________ ...
Solar System Distance Model - www .alexandria .k12 .mn .us
... Answer the Conclusions questions below. ...
... Answer the Conclusions questions below. ...
Lecture 3 - Night Sky and Motion of the Earth around the Sun
... Angular Measure for Small Angles 1º = 60 arcminutes = 60′ 1′ = 60 arcseconds = 60″ e.g., On January 1, 2004, the planet Saturn had an angular diameter of 19.7″ as viewed from Earth. ...
... Angular Measure for Small Angles 1º = 60 arcminutes = 60′ 1′ = 60 arcseconds = 60″ e.g., On January 1, 2004, the planet Saturn had an angular diameter of 19.7″ as viewed from Earth. ...
Late Heavy Bombardment
The Late Heavy Bombardment (abbreviated LHB and also known as the lunar cataclysm) is a hypothetical event thought to have occurred approximately 4.1 to 3.8 billion years (Ga) ago, corresponding to the Neohadean and Eoarchean eras on Earth. During this interval, a disproportionately large number of asteroids apparently collided with the early terrestrial planets in the inner Solar System, including Mercury, Venus, Earth, and Mars. The LHB happened after the Earth and other rocky planets had formed and accreted most of their mass, but still quite early in Earth's history.Evidence for the LHB derives from lunar samples brought back by the Apollo astronauts. Isotopic dating of Moon rocks implies that most impact melts occurred in a rather narrow interval of time. Several hypotheses are now offered to explain the apparent spike in the flux of impactors (i.e. asteroids and comets) in the inner Solar System, but no consensus yet exists. The Nice model is popular among planetary scientists; it postulates that the gas giant planets underwent orbital migration and scattered objects in the asteroid and/or Kuiper belts into eccentric orbits, and thereby into the path of the terrestrial planets. Other researchers argue that the lunar sample data do not require a cataclysmic cratering event near 3.9 Ga, and that the apparent clustering of impact melt ages near this time is an artifact of sampling materials retrieved from a single large impact basin. They also note that the rate of impact cratering could be significantly different between the outer and inner zones of the Solar System.