The Sun Our sun is a star. It is the star we see in the daytime. It is the

... In ancient times, people did not have telescopes. When they wanted to know what’s there in the sky, they had just their eyes to use. They could only see the objects close to Earth. When telescopes were invented, astronomers could see much more. In 1977, some special spaceships (Voyager 1 and Voyager ...

Solar system

... Gravity is a force that holds the objects of our solar system in orbit Earth, its moon, and the sun form a system within our solar system The planets were created from a nebula that formed after a supernova ...

Name - CHS Room 124

... 3. One asteroid belt, located between Mars and Jupiter 4. Dwarf planets, like Pluto (considered to be a planet for about 75 years!) 5. Many moons (Earth has only one, but Saturn, for example, has 25+) C. Planet Facts 1. Mercury- the closest planet to the sun, revolves around the Sun the fastest—once ...

Intro to Space

... • In monthly intervals, observe and draw the length and direction of shadows cast by the sun at several chosen times during the day. Use the recorded data as evidence to explain how those shadows were affected by the relative position of the earth and sun. ...

Welcome to Our Universe!

... • Icy planet with a hazy atmosphere and strong winds • Has 8 moons • Blue color is caused by methane • Diameter is 30,775 miles • Has narrow, faint rings • First planet whose existence was figured out mathematically ...

Solar System Formation

... Mars and Jupiter. Asteroids are rocky and metallic objects that orbit the Sun, but are too small to be considered planets. They are known as minor planets. ...

Solar System - eNetLearning

... Mars and Jupiter. Asteroids are rocky and metallic objects that orbit the Sun, but are too small to be considered planets. They are known as minor planets. ...

Solar system topics

... and LeVerrier surmised that another large planet existed, which was perturbing the motion of Uranus. ...

Model of the Solar System

... 6. Make your scale model of the planet from the paper at the front of the room. Then place it into its correct position and distance in the model at the front of the room. Column #1 ...

Slide 1

Jovian Planets

... • Four Galilean moons: easily seen even through amateur telescopes as little points of light. • Io: Erupting volcanoes! Geologically youngest surface (the “pizza” moon). Interior molten due to tidal forces during its elliptical orbit around Jupiter. • Europa: Smooth, narrow, dark stripes and few cra ...

Jovian Planets - Mid

... Gravity Assists (cont.) • Precalculated before satellite is launched • Also shows how gravity can eject “Planetesimals” from early solar system ...

Unit 5: THE SOLAR SYSTEM 1.THE SOLAR SYSTEM

... The Solar System is our Planetary System. The Solar System is about five billion years old. It is an exciting place made up of a star we call the Sun, and celestial bodies, such as planets, dwarf planets, moons or satellites, asteroids, comets, and many other smaller bodies. The Solar System is made ...

Formation of the Solar System

... Kepler mission. Launched March 2009. Several years of data – still being analyzed. Detected eclipses. Yields only radii, not masses. ...

File - Mrs. Ratzlaff

... – The four larger planets having thick atmospheres and no solid surface. ...

Comet vs. Asteroid

... the sun. Asteroids are sometimes referred to as minor planets. Asteroids are made up of carbon, rocks, and metals. Most asteroids in our solar system have orbits that lie between Mars and Jupiter. Unlike comets, asteroids do not have a coma or a tail. The biggest recorded asteroid is called Ceres. C ...

Relative sizes of astronomical objects

... planets and the outermost dwarf planet Pluto. ...

unit 2 test – the solar system: planets

Other Planetary Systems

... Major impacts may have been responsible for  the retrograde (backwards) spin of Venus  the fact that Uranus is ‘tipped’ on its side as it spins …and possibly also the formation of our Moon! ...

space - Westminster College

... 1. Xerox the work sheet: How to find planets in the sky (end of section) 2. On the board, draw a diagram showing the position of the planets and constellations and describe which direction to face to view them. Have the students copy the diagram and the work sheet, indicating the direction to face ( ...

The Size of the Solar System

... 4. The nearest star is alpha centauri, 4.3 light-years away. Where would you have to go to post its picture? 4.3 light-years to 4.07*10^13 km 1 light-year= 9.46*10^12 Distance from the sun: 141,811.85m (4.07*10^13km * 1/ 2.87*10^8) 5. Alpha Centauri is actually a multiple star system, but one of the ...

Neptune - Midland ISD

... Triton. Part of its surface resembles the rind of a cantaloupe. Ice volcanoes spout what is probably a mixture of liquid nitrogen, methane and dust, which instantly freezes and then snows back down to the surface. Triton's icy surface reflects so much of what little sunlight reaches it that the moon ...

Art Lesson Plan

... Students will paint their wax paper and then fold it in half to create a background or “outer space”. Make sure students pat down paper together, so that it seals together. Clean up paint before starting next step. Next, The teacher will hand out the cutouts of the eight planets, sequins, and glue. ...

Sample final

... axis? How would you classify (composition or type) this object? In other words, what is it? Essay section part one Choose two of the following discoveries, and determine if they are surprising (not consistent with current astronomical ideas) or not surprising (consistent). In either case, state clea ...

PDF

... zone of this star. From these, other similarities extend: this exoplanet takes 385 Earth days to orbit its star, its probable mass is calculated to be about five times that of the Earth, and its surface gravity is twice of Earth’s. The discovery of exoplanets has intensified interest in the search f ...

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Planets beyond Neptune

Following the discovery of the planet Neptune in 1846, there was considerable speculation that another planet might exist beyond its orbit. The search began in the mid-19th century and culminated at the start of the 20th with Percival Lowell's quest for Planet X. Lowell proposed the Planet X hypothesis to explain apparent discrepancies in the orbits of the giant planets, particularly Uranus and Neptune, speculating that the gravity of a large unseen ninth planet could have perturbed Uranus enough to account for the irregularities.Clyde Tombaugh's discovery of Pluto in 1930 appeared to validate Lowell's hypothesis, and Pluto was officially named the ninth planet. In 1978, Pluto was conclusively determined to be too small for its gravity to affect the giant planets, resulting in a brief search for a tenth planet. The search was largely abandoned in the early 1990s, when a study of measurements made by the Voyager 2 spacecraft found that the irregularities observed in Uranus's orbit were due to a slight overestimation of Neptune's mass. After 1992, the discovery of numerous small icy objects with similar or even wider orbits than Pluto led to a debate over whether Pluto should remain a planet, or whether it and its neighbours should, like the asteroids, be given their own separate classification. Although a number of the larger members of this group were initially described as planets, in 2006 the International Astronomical Union reclassified Pluto and its largest neighbours as dwarf planets, leaving Neptune the farthest known planet in the Solar System.Today, the astronomical community widely agrees that Planet X, as originally envisioned, does not exist, but the concept of Planet X has been revived by a number of astronomers to explain other anomalies observed in the outer Solar System. In popular culture, and even among some astronomers, Planet X has become a stand-in term for any undiscovered planet in the outer Solar System, regardless of its relationship to Lowell's hypothesis. Other trans-Neptunian planets have also been suggested, based on different evidence. As of March 2014, observations with the WISE telescope have ruled out the possibility of a Saturn-sized object out to 10,000 AU, and a Jupiter-sized or larger object out to 26,000 AU.

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Planets beyond Neptune