Formation of the Solar System

... the rocklike materials could survive the high temperatures. Further away from the Sun, icy and gaseous material could condense. For this reason, the inner planets are small, dense, and rocky, while the outer planets are large, less dense, and icy or gaseous. The thin disk of material from the collap ...

Section 26.3 - CPO Science

... satellite that orbits a planet or other body, such as a dwarf planet.  The planet the moon orbits is called the primary. ...

Astronomical history

7.A.3.Ordered Solar System

... Ka Hana ‘Imi Na‘auao – A Science Careers Curriculum Resource Go to: www.cds.hawaii.edu/kahana ...

Something Big Out There - binaryresearchinstitute.com

Lecture 2 - U of L Class Index

... – 1. The orbit of each planet is an ellipse with the Sun at one focus – 2. As a planet moves around its orbit it sweeps our equal areas in equal times – 3. More distant planets orbit the Sun at slower average speeds: p2 = a3 ...

Solar System Formation Notes Planets 1. There are two types of

...  Has to be large enough to be spherical in shape.  Has to be massive enough (heavy enough) not to be pulled out of its orbit by another body. Dwarf Planets 1. Pluto is round, so it’s large enough, but its orbit has been altered by Neptune, so it’s not considered a planet. We call it a dwarf planet ...

Kepler`s Laws - Hewlett

... The square of the period of the orbit of a planet is proportional to the mean distance from the Sun cubed. In simple terms: The farther a planet is from the Sun, the larger its orbit and the longer its period. Period- time it takes a planet to complete a revolution around the Sun ...

Star Constellations - rosedalegrade9astronomy

... The stars appear to move across the sky in one night, but this is just an illusion due to ...

Name Date ______ Unit 2: The Solar System Vocabulary Fill in each

... 9. Earth, Mercury, and Venus are all classified as terrestrial planets. When compared to Earth, which of the following is true of Mercury and Venus? A. Mercury and Venus have a higher surface gravity than Earth. B. Mercury and Venus have a longer period of revolution than Earth. C. Mercury and Venus ...

Chapter3 - The Science of Astronomy-ppt

... • 24 hour day – the time it takes the Sun to circle our sky. • Month – comes from the lunar cycle. • Calendar Year – Based on the cycle of the seasons. • Days of the week – named after the seven “naked-eye” objects that appear to move among the constellations. (Sun, Moon and five planets) • At night ...

GEOCENTRIC vs. HELIOCENTRIC - Brighten AcademyMiddle

... observation that half the stars were above the horizon and half were below the horizon at any time ...

Our Solar System - Hardeman School

...  The Sun is essential to all things  It makes energy that gives heat for all things  It also makes fossil fuels ...

Section 1: Planetary Motion Rotation – the spinning of a body on its

... When part of the ocean is directly facing the moon, the water there bulges toward the moon. Tidal Range – is the difference between levels of ocean water at high and low tide Spring Tides – are tides with the largest daily tidal range: occur during new and full moons Neap Tides – are tides with the ...

Astronomy 1010 final review sample topics

... b.) stars do not move in the sky during a single night, but instead each successive night the stars are slightly displaced relative to where they were the night before c.) stars do not move in the sky during a single night and do not move from one night to the next 3. There are lunar eclipses and th ...

Mercury Venus Earth Mars Jupiter Saturn Uranus Neptune Pluto

... Of the planets in our solar system, Mars is the most like earth. There might have once been lakes and rivers on mars, but they are now all dried up. ...

The Planets Notes - Sardis Secondary

... Consists of alternating light and dark-colored bands that run parallel to its equator Dark bands are areas of sinking gases Light bands are areas of rising gases Wind blows between the bands The Great Red Spot: • Rises about 8km above the cloud tops • Photographs indicate that the spots may be relat ...

Terms - HULK SCIENCE

... Full Moon New Moon Tides Inner Planets Outer Planets gravity Terrestrial Gas Giants ...

Chapter 6 - Formation of the Solar System

... before it was crushed after 127 minutes by the 89 Earth atmosphere pressure. ...

Solar System Study Guide

... Saturn: A planet with 100s rings (made of dust, ice & rock), takes 29.5 years to orbit the Sun. Uranus: The planet that spins on its side (horizontal), has many moons (at least 27), ring systems and takes 84 years to orbit the Sun. Neptune: The beautiful blue/green planet (due to methane gas), stron ...

Notes

... Earth by studying in context with other worlds in the solar system. Stay focused on processes common to multiple worlds instead of individual facts specific to a particular world. ...

Vocabulary Terms

... Earth: The planet on which we live; the third planetary object orbiting around our sun. Eclipse: a: An eclipse is the total or partial hiding of a planet, star, or moon by another b: The passing into the shadow of a planet, star, or moon. Lunar: Having to do with the moon. Moon: The earth's natural ...

Our Solar System

... b. Gravity – the attraction of two objects. The strength of gravity depends on the masses each object possess. ...

Sample Chapter

... The sun isn’t a planet. It is a star at the centre of the solar system. It formed 5 billion years ago from a cloud of gas and dust. The sun’s diameter is 1,392,000 kilometres. It is much bigger than the Earth. ...

1 DS 3.10 Grade 9 Review

... 1. Define the term non-luminous. Give an example of a non-luminous object in our solar system. 2. Explain the difference between the terms rotation and revolution. 3. What is the Earth’s rotation and revolution? 4. What determines the seasons on Earth? 5. What determines day length on the Earth? 6. ...

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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.

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Orrery