![Minor Objects in the Solar System](http://s1.studyres.com/store/data/007250645_1-6402251cec8d518ea97fe112d475f56d-300x300.png)
Minor Objects in the Solar System
... o Chunks of rocks (rocky leftover planetisimals) that can be pretty big (some are a couple km across) o Most travel on the asteroid belt o The asteroid belt was created when the Solar System was created o Jupiter’s gravity prevented a bunch of rocks from getting together to form a planet which is no ...
... o Chunks of rocks (rocky leftover planetisimals) that can be pretty big (some are a couple km across) o Most travel on the asteroid belt o The asteroid belt was created when the Solar System was created o Jupiter’s gravity prevented a bunch of rocks from getting together to form a planet which is no ...
1. Which of the following statements does not describe Jupiter? A. It
... A. It is the largest planet in the solar system. B. It has a stormy atmosphere. C. It emits radio waves. D. Jupiter and its Galilean satellites resemble a miniature solar system. E. All of them correctly describe Jupiter. 2. The most massive jovian planet is A. Jupiter. B. Saturn. C. Uranus. D. Plut ...
... A. It is the largest planet in the solar system. B. It has a stormy atmosphere. C. It emits radio waves. D. Jupiter and its Galilean satellites resemble a miniature solar system. E. All of them correctly describe Jupiter. 2. The most massive jovian planet is A. Jupiter. B. Saturn. C. Uranus. D. Plut ...
Uranus, Pluto, and the Kuiper Belt
... • Both rotate in lockstep: Charon’s orbit period is the same as its rotational period, and also the same as the Pluto’s rotation period (6.3 days) – Both keep the same face toward each other – As seen from Pluto, Charon neither rises nor sets ...
... • Both rotate in lockstep: Charon’s orbit period is the same as its rotational period, and also the same as the Pluto’s rotation period (6.3 days) – Both keep the same face toward each other – As seen from Pluto, Charon neither rises nor sets ...
Uranus: Atmosphere
... • Both rotate in lockstep: Charon’s orbit period is the same as its rotational period, and also the same as the Pluto’s rotation period (6.3 days) – Both keep the same face toward each other – As seen from Pluto, Charon neither rises nor sets ...
... • Both rotate in lockstep: Charon’s orbit period is the same as its rotational period, and also the same as the Pluto’s rotation period (6.3 days) – Both keep the same face toward each other – As seen from Pluto, Charon neither rises nor sets ...
Spicy Solar System Goal Model the solar system with edible
... Age Difficulty Skills Materials Pre-requisites ...
... Age Difficulty Skills Materials Pre-requisites ...
Chapter 30 Section 3
... second-largest planet and sixth from the Sun; has the most complex system of rings eighth planet from the Sun; has storms similar to Jupiter’s and appears blue because of atmospheric methane nearly round object that orbits the Sun, is not a satellite, and has not cleared its orbit of debris rocky so ...
... second-largest planet and sixth from the Sun; has the most complex system of rings eighth planet from the Sun; has storms similar to Jupiter’s and appears blue because of atmospheric methane nearly round object that orbits the Sun, is not a satellite, and has not cleared its orbit of debris rocky so ...
Goal: To understand what the Kuiper Belt is, and why it is
... • Mostly icy. • Source of short period comets (comets with periods of less than 300 years). • How? If an object is thrown from the Kuiper Belt, it first ends up in the region of the gas giants. These objects are known as Centaurs. • Then, interactions with Jupiter can send it closer to the sun where ...
... • Mostly icy. • Source of short period comets (comets with periods of less than 300 years). • How? If an object is thrown from the Kuiper Belt, it first ends up in the region of the gas giants. These objects are known as Centaurs. • Then, interactions with Jupiter can send it closer to the sun where ...
a Kuiper Belt object?
... or Kuiper belt object? • Pluto is much smaller than any other planet, with an orbit • Whether Pluto should be called more elliptical and more a “planet” (dwarf or regular) is a inclined to the ecliptic plane matter of opinion, but its than that of any other planet. properties suggest that it is a It ...
... or Kuiper belt object? • Pluto is much smaller than any other planet, with an orbit • Whether Pluto should be called more elliptical and more a “planet” (dwarf or regular) is a inclined to the ecliptic plane matter of opinion, but its than that of any other planet. properties suggest that it is a It ...
Student 5: Low Achieved
... which was probably the same size or larger than Pluto. This object was named Eris and it is in fact larger than Pluto. A debate began as to whether it was another planet or not and what exactly was a planet anyway. Astronomers decided they would need to make some sort of final decision about how to ...
... which was probably the same size or larger than Pluto. This object was named Eris and it is in fact larger than Pluto. A debate began as to whether it was another planet or not and what exactly was a planet anyway. Astronomers decided they would need to make some sort of final decision about how to ...
Solar System Cornell Notes - CE Williams Middle School
... (1) Axis of rotation almost parallel to plane of orbit (2) Like Neptune, appears blue due to methane gas in atmosphere (3) Voyager II ('86) Neptune: (1) believed to have a middle water layer (2) storm-like features on surface (3)Triton, largest of 8 moons (4) Voyager II (5) is occasionally the 9th p ...
... (1) Axis of rotation almost parallel to plane of orbit (2) Like Neptune, appears blue due to methane gas in atmosphere (3) Voyager II ('86) Neptune: (1) believed to have a middle water layer (2) storm-like features on surface (3)Triton, largest of 8 moons (4) Voyager II (5) is occasionally the 9th p ...
Smaller Bodies of the Solar System
... _______ supposedly left over from the formation of the solar system proposed as source for long-period comets and a replenisher of the Oort Cloud. beyond Neptune (extending from 30 AU out to around 100 AU). occasionally disturbed by gravitational interactions these objects are sent hurtling into ...
... _______ supposedly left over from the formation of the solar system proposed as source for long-period comets and a replenisher of the Oort Cloud. beyond Neptune (extending from 30 AU out to around 100 AU). occasionally disturbed by gravitational interactions these objects are sent hurtling into ...
the outer planets - J. Seguin Science
... _Neptune____, and __Pluto___. Four of these planets’ (Jupiter, Saturn, Uranus, and Neptune) atmospheres consist mainly of the gases _Helium_____ and __Hydrogen___. For this reason, they are called the gas ___Giants__. The gas giants appear to lack _solid_ surfaces, however, as the gases become more ...
... _Neptune____, and __Pluto___. Four of these planets’ (Jupiter, Saturn, Uranus, and Neptune) atmospheres consist mainly of the gases _Helium_____ and __Hydrogen___. For this reason, they are called the gas ___Giants__. The gas giants appear to lack _solid_ surfaces, however, as the gases become more ...
Astronomy 1 – Winter 2011
... are discovered with the following characteristics: spherical solid surfaces; mean densities about four times that of water; radii about 4000 km; low density atmospheres. How would these planets be classified in terms of our solar system ...
... are discovered with the following characteristics: spherical solid surfaces; mean densities about four times that of water; radii about 4000 km; low density atmospheres. How would these planets be classified in terms of our solar system ...
Comets - Cloudfront.net
... Comets are spectacular celestial objects. They appear suddenly are there for a few weeks or months And then disappear. Until the 1700’s Comets were thought to be unique events, often believed to be omens of disaster….such as the death of Kings For example the Normans used the appearance of a comet t ...
... Comets are spectacular celestial objects. They appear suddenly are there for a few weeks or months And then disappear. Until the 1700’s Comets were thought to be unique events, often believed to be omens of disaster….such as the death of Kings For example the Normans used the appearance of a comet t ...
Dwarf Planet
... Dwarf planets orbit our sun, a star. Most are located in the Kuiper Belt, a region of icy objects beyond the orbit of Neptune. Pluto , one of the largest and most famous dwarf planets, is about 5.9 billion km (3.7 billion miles) or 39.48 AU away from the sun. Dwarf planet Ceres is in the main astero ...
... Dwarf planets orbit our sun, a star. Most are located in the Kuiper Belt, a region of icy objects beyond the orbit of Neptune. Pluto , one of the largest and most famous dwarf planets, is about 5.9 billion km (3.7 billion miles) or 39.48 AU away from the sun. Dwarf planet Ceres is in the main astero ...
New Horizons - Montgomery College
... comets enter the inner solar system - most stay far from the Sun Oort cloud: On random orbits extending to about 50,000 AU Kuiper belt: On orderly orbits from 30-100 AU in disk of solar system ...
... comets enter the inner solar system - most stay far from the Sun Oort cloud: On random orbits extending to about 50,000 AU Kuiper belt: On orderly orbits from 30-100 AU in disk of solar system ...
Programme 16
... particular relevance for understanding the formation process, the early phases and the subsequent dynamical, physical and chemical evolution of the Solar System. The lack of important modifications since their formation can give crucial clues on the status of the early solar nebula, and on the proce ...
... particular relevance for understanding the formation process, the early phases and the subsequent dynamical, physical and chemical evolution of the Solar System. The lack of important modifications since their formation can give crucial clues on the status of the early solar nebula, and on the proce ...
Other solar system objects
... • Either Eris is a planet, or Pluto isn’t! • IAU voted to define planets as an object that has cleared the neighborhood around its orbit (Aug ...
... • Either Eris is a planet, or Pluto isn’t! • IAU voted to define planets as an object that has cleared the neighborhood around its orbit (Aug ...
Neptune Report - Darran Park Wiki Space
... Neptune is one of the eight planets in our Solar System. All these planets have one thing in common, they all orbit the sun. As far as we know there is no record of life on Neptune. The Planet:Neptune is the fourth biggest planet in our Solar System, about 60 earths can fit into Neptune. The diamete ...
... Neptune is one of the eight planets in our Solar System. All these planets have one thing in common, they all orbit the sun. As far as we know there is no record of life on Neptune. The Planet:Neptune is the fourth biggest planet in our Solar System, about 60 earths can fit into Neptune. The diamete ...
March 5, 2017
... NGC 869 & 884, The Double Cluster: Find the misshapen W or M of Cassiopeia, now on its side, low in the northwest. Scan a bit to the upper left from the two end stars sticking up. It’s subtler than the Pleiades but there are two of them close together, making a nice view. ...
... NGC 869 & 884, The Double Cluster: Find the misshapen W or M of Cassiopeia, now on its side, low in the northwest. Scan a bit to the upper left from the two end stars sticking up. It’s subtler than the Pleiades but there are two of them close together, making a nice view. ...
The Milky Way
... (965–1037), made the first attempt at observing and measuring the Milky Way's parallax, and he thus "determined that because the Milky Way had no parallax, it was very remote from the Earth and did not belong to the atmosphere.“ An Persian astronomer proposed the Milky Way galaxy to be "a collection ...
... (965–1037), made the first attempt at observing and measuring the Milky Way's parallax, and he thus "determined that because the Milky Way had no parallax, it was very remote from the Earth and did not belong to the atmosphere.“ An Persian astronomer proposed the Milky Way galaxy to be "a collection ...
The Milky Way
... (965–1037), made the first attempt at observing and measuring the Milky Way's parallax, and he thus "determined that because the Milky Way had no parallax, it was very remote from the Earth and did not belong to the atmosphere.“ An Persian astronomer proposed the Milky Way galaxy to be "a collection ...
... (965–1037), made the first attempt at observing and measuring the Milky Way's parallax, and he thus "determined that because the Milky Way had no parallax, it was very remote from the Earth and did not belong to the atmosphere.“ An Persian astronomer proposed the Milky Way galaxy to be "a collection ...
The Milky Way - Drage Homepage
... (965–1037), made the first attempt at observing and measuring the Milky Way's parallax, and he thus "determined that because the Milky Way had no parallax, it was very remote from the Earth and did not belong to the atmosphere.“ An Persian astronomer proposed the Milky Way galaxy to be "a collection ...
... (965–1037), made the first attempt at observing and measuring the Milky Way's parallax, and he thus "determined that because the Milky Way had no parallax, it was very remote from the Earth and did not belong to the atmosphere.“ An Persian astronomer proposed the Milky Way galaxy to be "a collection ...
Document
... resonances to sweep through asteroid belt • Could produce equal contribution over 150 Myr ...
... resonances to sweep through asteroid belt • Could produce equal contribution over 150 Myr ...
Scattered disc
![](https://commons.wikimedia.org/wiki/Special:FilePath/Eris_and_dysnomia2.jpg?width=300)
The scattered disc (or scattered disk) is a distant region of the Solar System that is sparsely populated by icy minor planets, a subset of the broader family of trans-Neptunian objects. The scattered-disc objects (SDOs) have orbital eccentricities ranging as high as 0.8, inclinations as high as 40°, and perihelia greater than 30 astronomical units (4.5×109 km; 2.8×109 mi). These extreme orbits are thought to be the result of gravitational ""scattering"" by the gas giants, and the objects continue to be subject to perturbation by the planet Neptune.Although the closest scattered-disc objects approach the Sun at about 30–35 AU, their orbits can extend well beyond 100 AU. This makes scattered objects among the most distant and coldest objects in the Solar System. The innermost portion of the scattered disc overlaps with a torus-shaped region of orbiting objects traditionally called the Kuiper belt, but its outer limits reach much farther away from the Sun and farther above and below the ecliptic than the Kuiper belt proper.Because of its unstable nature, astronomers now consider the scattered disc to be the place of origin for most periodic comets in the Solar System, with the centaurs, a population of icy bodies between Jupiter and Neptune, being the intermediate stage in an object's migration from the disc to the inner Solar System. Eventually, perturbations from the giant planets send such objects towards the Sun, transforming them into periodic comets. Many Oort cloud objects are also thought to have originated in the scattered disc. Detached objects are not sharply distinct from scattered disc objects, and some such as Sedna have sometimes been considered to be included in this group.