2-The Earth in space

... The outer planets are giant balls of gases with very small, solid cores. The outer planets rotate quickly, which makes for a short day; however, these planets take a long time to revolve once around the sun. Therefore, they have short days but long years. ...

PH507-assn-exo-answers

... 1. Suppose that two exoplanets are observed to transit the same star. They are both in circular orbits with an inclination of 90 degrees. One produces periodic dips with a period of 4 days and the other produces periodic dips with a period of 108 days. The decrease in luminosity caused by both exopl ...

Tycho Brahe & Johannes Kepler

... – made the most accurate observations of stars and planets up to that time. – was a flamboyant Danish nobleman who wore a silver nose when part of his nose was cut off in a duel! ...

Taylor - St. Brigid

... € It has an atmosphere € Many people thought the Earth was flat € Many people thought the Earth was round € It is slightly pear shaped ...

How common are habitable planets?

... focused on the 42,000 stars that are like the sun or transit, their stars, which causes a slight diminution slightly cooler and smaller, and found 603 – about one hundredth of one percent – in the star's candidate planets orbiting them. Only 10 of these brightness. From among the 150,000 stars were ...

Motions of the Night Sky

... eastern horizon and set in the west, due to the earth’s rotation. However, like the moon, the planets usually move eastward against the background of stars.  How fast they move depends on their distance from the earth and their orbital distance from the sun. ...

Downloaded - WordPress.com

... and thought by ancient astronomers to revolve in the heavens about a fixed Earth and among fixed stars. During the annual meeting of the International Astronomical Union (IAU) in the summer of 2006, members in attendance approved a newer definition for planet and other bodies. Here is a summary of t ...

PLUTO - science1d

... Charon orbits about 19,640 km from Pluto on average. It may be covered by water ice and probably has no atmosphere. Charon is in a synchronous orbit around Pluto. That is, Charon is always over the same spot on Pluto; Charon's orbit takes exactly one Pluto day. Charon was discovered by Jim Christy i ...

91KB - NZQA

... Rigel was once a main sequence star; this is where Rigel spends most of its life. Main sequence stars use hydrogen gas as their fuel. Hydrogen fuses together (by nuclear fusion) to form helium and release energy. Rigel’s time on the main sequence will be relatively short due to its massive initial m ...

145KB - NZQA

... Rigel was once a main sequence star; this is where Rigel spends most of its life. Main sequence stars use hydrogen gas as their fuel. Hydrogen fuses together (by nuclear fusion) to form helium and release energy. Rigel’s time on the main sequence will be relatively short due to its massive initial m ...

Astronomy and the Universe - Department of Physics and Astronomy

... – A set of related hypotheses can be pieced together into a self consistent description of natural observations ...

Comets - Earth & Planetary Sciences

... • This suggests the presence of a satellite (why?), but to date no satellite has been imaged (why not?) • 2003 UB313 is another SDO which is interesting mainly because at ~3000 km it is bigger than Pluto (how do we know?) (Bertoldi et al. Nature 2006) ...

The_Birth_of_a_Star

... • If the star is very large, it burns through the hydrogen quickly; helium fuses to make carbon, and as the helium is exhausted the collapse of the core generates enough energy to fuse the carbon forming iron. • Eventually the star collapses, as the electrons are trapped inside the core, forming ne ...

Inquiry Activity - Ball State University

... apparent westward motion with respect to the background stars. As certain planets moved eastward across the sky, from one constellation to the next, over time they would periodically travel in small circles. This phenomenon was difficult to explain using the current geocentric model. The following i ...

Astronomy - Fort Thomas Independent Schools

... --Kepler’s laws apply to all orbiting objects. ...

Exploring the Solar System - The Federation of Galaxy Explorers

... west or west to east. Lightning, more powerful than any that has been experienced on Earth, has been noted in Jupiter's atmosphere. Also in Jupiter's atmosphere are oval features that are thought to be circular winds. The most prominent of these is the Great Red Spot, a hurricanelike storm that has ...

Historical Models of the Solar System Science Fusion Lesson Gui

... 2. True or False Ancient people noticed that planet’s positions seemed to change compared to the location of the stars. Slide 3 3. What are 4 things that exist within a solar system? ...

1. In Ptolemy`s geocentric model, the planet`s mo

... planet's orbital period, you can find its average distance from the Sun. 11. Kepler's third law allows us to find the average distance to a planet from observing its period of rotation on its axis. 12. According to Newton's first law an object traveling in a circle does not have a force acting on it ...

Uninhabitableearth

... Write on the board before students enter the room: “What conditions are necessary to sustain life on earth?” Brainstorm to review the following term: “Habitable Zone.” As a class watch the Newsy.com video Study: Earth Will Be Uninhabitable in 1.75 Billion Years at http://www.newsy.com/videos/study-e ...

HELP

...  relate eclipses, phases of the Moon and  describe how the Moon orbits the Earth seasonal changes to a simple model of and the Earth spins while orbiting the Sun the Sun, Earth and Moon system  identify some differences between  describe the relative positions of the features of the Earth and ot ...

Week 3: Kepler`s Laws, Light and Matter

... • Matter leaves its fingerprints when it interacts with light. We can learn a lot from this interactions about what things are made of as each chemical element has its own fingerprint of energy levels. There are three types of spectra we can learn from. Emission spectrum is produced when we observe ...

Class 1 and 2 lecture slides (Solar System Formation)

... 2:1 resonance; b) scattering of planetesimals into the inner Solar System after the orbital shift of Neptune (dark blue) and Uranus (light blue); c) after ejection of planetesimals by planets. Simulation showing the outer planets and theKuiper belt: a) Before Jupiter–Saturn 2:1 resonance. b) Scatter ...

Document

... • Theory – a body of related hypotheses can be pieced together into a self consistent description of nature ...

“From Planetesimals to Brown Dwarfs: What is a Planet

... centuries of usage. Any definition should differentiate planets from other objects they might be confused with, preferably based on observables (to allow determination of whether a given object qualifies; it is even better if these observables are quantitative). One might hope that a definition not ...

Full name - IES Santísima Trinidad

... 4.-RSMA: _ _ _ _ is the fourth planet. it is a small and rocky. People call it the red planet. 5.-TREIPUJ: _ _ _ _ _ _ _ is the fifth planet. It is bright and large. 6.-STRNUA: _ _ _ _ _ _ is the sixth planet in order from the sun. It has got many rings. Its rings are flat and broad. The rings are m ...

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IAU definition of planet

The definition of planet set in Prague in 2006 by the International Astronomical Union (IAU) states that, in the Solar System, a planet is a celestial body which: is in orbit around the Sun, has sufficient mass to assume hydrostatic equilibrium (a nearly round shape), and has ""cleared the neighborhood"" around its orbit.A non-satellite body fulfilling only the first two of these criteria is classified as a ""dwarf planet"". According to the IAU, ""planets and dwarf planets are two distinct classes of objects"". A non-satellite body fulfilling only the first criterion is termed a ""small Solar System body"" (SSSB). Initial drafts planned to include dwarf planets as a subcategory of planets, but because this could potentially have led to the addition of several dozens of planets into the Solar System, this draft was eventually dropped. The definition was a controversial one and has drawn both support and criticism from different astronomers, but has remained in use.According to this definition, there are eight planets in the Solar System. The definition distinguishes planets from smaller bodies and is not useful outside the Solar System, where smaller bodies cannot be found yet. Extrasolar planets, or exoplanets, are covered separately under a complementary 2003 draft guideline for the definition of planets, which distinguishes them from dwarf stars, which are larger.

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IAU definition of planet