Celestial bodies
... Solstice- day when the sun is farthest North of South of the equator Winter Solstice- Dec 21/22 Summer Solstice- June 21/22 Equinox- time when the sun is directly above the equator Vernal (Spring) Equinox-March 21/22 Autumnal (Fall) Equinox-Sept 21/22 Celestial bodies-objects in space: asteroid, pla ...
... Solstice- day when the sun is farthest North of South of the equator Winter Solstice- Dec 21/22 Summer Solstice- June 21/22 Equinox- time when the sun is directly above the equator Vernal (Spring) Equinox-March 21/22 Autumnal (Fall) Equinox-Sept 21/22 Celestial bodies-objects in space: asteroid, pla ...
A. Comet: dust and rock particles combined with frozen water
... The Solar System Section I The Solar System Age of our solar system is 4.6 billion years old. The solar system is made up of 8 planets since Pluto has been denoted to and many smaller objects that orbit the sun. ...
... The Solar System Section I The Solar System Age of our solar system is 4.6 billion years old. The solar system is made up of 8 planets since Pluto has been denoted to and many smaller objects that orbit the sun. ...
The Solar System Around Us - Grosse Pointe Public School System
... • Terrestrial planets – Mercury – Venus – Earth – Mars • Formed as small rocky material nearest to the protostar(our sun) cooled. ...
... • Terrestrial planets – Mercury – Venus – Earth – Mars • Formed as small rocky material nearest to the protostar(our sun) cooled. ...
The Planets - WordPress.com
... • Did you know the inner planets are closer the to sun than all the other planets? There are 4 inner planets. The inner planets move slowly because they are rocky. The inner planets are also referred to as terrestrial planets because they have a hard surface. ...
... • Did you know the inner planets are closer the to sun than all the other planets? There are 4 inner planets. The inner planets move slowly because they are rocky. The inner planets are also referred to as terrestrial planets because they have a hard surface. ...
Summary of Chapter 8
... planetesimals that formed beyond Neptune’s orbit remain there today as the Kuiper Belt. Icy planetesimals that formed between Jupiter and Neptune were scattered in all directions by Jupiter’s gravity, forming the Oort Cloud. Comets come from the Kuiper Belt and Oort Cloud. Solar system formation end ...
... planetesimals that formed beyond Neptune’s orbit remain there today as the Kuiper Belt. Icy planetesimals that formed between Jupiter and Neptune were scattered in all directions by Jupiter’s gravity, forming the Oort Cloud. Comets come from the Kuiper Belt and Oort Cloud. Solar system formation end ...
Planets of the Solar System
... There are winds up to Up to 400 m/s and a total of 31 moons Saturn has rings and is composed of hydrogen and helium It has an extremely strong magnetic field ...
... There are winds up to Up to 400 m/s and a total of 31 moons Saturn has rings and is composed of hydrogen and helium It has an extremely strong magnetic field ...
Name Test Date ______ Signature Science SOL 4.8 Earth Patterns
... I have no atmosphere, no water, and no life. I have no light. The light you see is from the sun. Vocabulary: 1. revolution – the motion of an object in space around another object. 2. rotate – an object in space spinning. 3. axis – imaginary line through the Earth extending from the North Pole throu ...
... I have no atmosphere, no water, and no life. I have no light. The light you see is from the sun. Vocabulary: 1. revolution – the motion of an object in space around another object. 2. rotate – an object in space spinning. 3. axis – imaginary line through the Earth extending from the North Pole throu ...
Planetary Motions - LathamWHS13-14
... The Earth spins around its axis! An aside on Earth’s axis…… http://highered.mcgrawhill.com/sites/007299181x/student_view0/chapter2/sea sons_interactive.html How long does one rotation take? How would we measure this……..? ...
... The Earth spins around its axis! An aside on Earth’s axis…… http://highered.mcgrawhill.com/sites/007299181x/student_view0/chapter2/sea sons_interactive.html How long does one rotation take? How would we measure this……..? ...
Chapter 23: Touring Our Solar System
... Until the discovery that Jupiter, Uranus, and Neptune have ring systems, this phenomenon was thought to be unique to Saturn. Most rings fall into one of two categories based on ...
... Until the discovery that Jupiter, Uranus, and Neptune have ring systems, this phenomenon was thought to be unique to Saturn. Most rings fall into one of two categories based on ...
File - Mr. Dudek`s Science
... and put it together. • Found that the paths of planets were ellipses • Planets travel at different speeds. ...
... and put it together. • Found that the paths of planets were ellipses • Planets travel at different speeds. ...
Viking
... How are the gas giants similar to each other? How are they different? How is Pluto different from the gas giants? What is the most prominent feature of Jupiter’s surface? What cuases this feature? Why do astrnomoers think Uranus may have been hit by another object billions of years ago? ...
... How are the gas giants similar to each other? How are they different? How is Pluto different from the gas giants? What is the most prominent feature of Jupiter’s surface? What cuases this feature? Why do astrnomoers think Uranus may have been hit by another object billions of years ago? ...
Solar System Webquest Go to http://www.kidsastronomy.com
... 3. The object pictured to the left can also be seen in the picture of the solar system. a. Identify this object _________________________ b. When is this object's "tail" visible? ____________ c. Which direction does its tail point (in reference to the sun)? ___________________ d. How does its orbit ...
... 3. The object pictured to the left can also be seen in the picture of the solar system. a. Identify this object _________________________ b. When is this object's "tail" visible? ____________ c. Which direction does its tail point (in reference to the sun)? ___________________ d. How does its orbit ...
Formation of a Solar System Notes Integrated Science 2 Name: Pd: I
... Surface Evolution continues as a result of ____________________, __________________ and/or ______________________________ ...
... Surface Evolution continues as a result of ____________________, __________________ and/or ______________________________ ...
No Slide Title
... The biggest planet in the solar system • Looking at the planet that is 140,000 km big!!! • And the fourth brightest ...
... The biggest planet in the solar system • Looking at the planet that is 140,000 km big!!! • And the fourth brightest ...
Slide 1 - WordPress.com
... Astronomers have found at least 146 moons orbiting planets in our solar system. Another 27 moons are awaiting official confirmation of their discovery. This number does not include the six moons of the dwarf planets, nor does this tally include the tiny satellites that orbit some asteroids and other ...
... Astronomers have found at least 146 moons orbiting planets in our solar system. Another 27 moons are awaiting official confirmation of their discovery. This number does not include the six moons of the dwarf planets, nor does this tally include the tiny satellites that orbit some asteroids and other ...
11.2-11.3 PPT
... to Uranus also has a ring system but is faint when voyager 2 flew past the planet it noticed a spot similar to Jupiter, which is likely a storm cloud Hubble telescope has discovered another storm cloud near the northern ...
... to Uranus also has a ring system but is faint when voyager 2 flew past the planet it noticed a spot similar to Jupiter, which is likely a storm cloud Hubble telescope has discovered another storm cloud near the northern ...
14 – 2 The Solar System Warm - Up
... 3. What did Kepler do? 4. What is the difference between rotation and revolution? ...
... 3. What did Kepler do? 4. What is the difference between rotation and revolution? ...
Solar System Scaled Down: Lesson on Proportions
... Space, Putting it into Perspective The purpose of this project is to educate and illustrate about our solar system. We need to put the distances into a scale model to give us a sense of the proportion of our universe. This project will be to show the relative distances in the solar system. *An astro ...
... Space, Putting it into Perspective The purpose of this project is to educate and illustrate about our solar system. We need to put the distances into a scale model to give us a sense of the proportion of our universe. This project will be to show the relative distances in the solar system. *An astro ...
Our Solar system - World of Teaching
... The outer layer is the chromosphere The layer under the chromosphere is the photosphere, where light and other forms of energy are released Under the photosphere is the convective zone where heat is released The layer above the core is the radiative zone ...
... The outer layer is the chromosphere The layer under the chromosphere is the photosphere, where light and other forms of energy are released Under the photosphere is the convective zone where heat is released The layer above the core is the radiative zone ...
File - Miss S. Harvey
... the name given to the four planets beyond Mars: Jupiter, Saturn, Gas giants Uranus, and Neptune; also known as the outer planets; their atmospheres consist mainly of hydrogen and helium gases the name given to the four planets closest to the Sun: Mercury, Venus, Earth, and Mars; also known as the te ...
... the name given to the four planets beyond Mars: Jupiter, Saturn, Gas giants Uranus, and Neptune; also known as the outer planets; their atmospheres consist mainly of hydrogen and helium gases the name given to the four planets closest to the Sun: Mercury, Venus, Earth, and Mars; also known as the te ...
Chapter 8 Powerpoint
... • The solar system also contains a sizable collection of meteors, comets, and belts of rocky materials that also orbit the Sun. • The solar system is thought to have formed from a condensing cloud of gas and dust known as a nebula. As the cloud contracted, it became super-heated and created our Sun ...
... • The solar system also contains a sizable collection of meteors, comets, and belts of rocky materials that also orbit the Sun. • The solar system is thought to have formed from a condensing cloud of gas and dust known as a nebula. As the cloud contracted, it became super-heated and created our Sun ...
Science chapter C4 Study Guide
... Pluto, a dwarf planet, is the smallest planet followed by Mercury, Mars, Venus, and then Earth. Saturn is to gas as Pluto is to ice. Saturn’s moons are a variety of sizes. Scientists think Saturn’s rings were formed by broken apart moons. Sunlight is a form of the sun’s energy. The Earth rotat ...
... Pluto, a dwarf planet, is the smallest planet followed by Mercury, Mars, Venus, and then Earth. Saturn is to gas as Pluto is to ice. Saturn’s moons are a variety of sizes. Scientists think Saturn’s rings were formed by broken apart moons. Sunlight is a form of the sun’s energy. The Earth rotat ...
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.