Lecture 2 - University of Chicago, Astronomy

... in the telescope, but stars did not; observed all four phases of the Venus (gibbous phases could not be explained by the Ptolemaic model); discovered four largest satellites of Jupiter; they are still called Galilean moons; this was another blow to the dying Ptolemaic system. Galileo resolved the Mi ...

AST 101 Final Exam DO NOT open the exam until

... 20.) You are watching TV in the year 3014, and an ad for a new weight less plan comes on. The plan has you go to the distant planet ”Weightlossian”, which is larger in size than the Earth, but has a much smaller mass than the Earth. The advertisement boasts that you’ll have shed pounds the moment yo ...

Chapter 8

... Pluto was not unique. These objects, along with Pluto and others, seem to be the largest of the Kuiper Belt objects, also known as transNeptunian objects or plutoids. Several hundred have been found. It is estimated that several thousands may form the Kuiper belt Other Kuiper belt objects not shown ...

Solar system

... Differences between the terrestrial planets: •  Atmospheres and surface conditions are very ...

Lecture 15 - Physics 1025 Introductory Astronomy

... atmosphere, no erosion except by cratering. Moon proceeded through first 3 stages of differentiation followed by cratering (producing the bright highlands) and later flooding producing the dark lowlands maria. Now the moon is frozen between stages 3 and 4. Mercury: also a dead planet, frozen between ...

Search for Life in the Universe

... – Extrasolar planets around main sequence stars discovered in 1995 – Planets around neutron stars discovered previously – Spectroscopy (>100 cases): detect Doppler shift of stellar motion around center of mass – Astrometry (1 case): detect angular motion ...

Earth 110 – Exploration of the Solar System Assignment 5

... generate storms 2-3 times the size of Earth. They have many moons ranging in size from terrestrial planets (one of which has a thick atmosphere!) to small asteroids. Their rings, while appearing delicate or faint, are composed of particles that can be as large as mountains. Despite these differences ...

Earth 110 – Exploration of the Solar System Assignment 4

... jovian interiors and atmospheres, and the interiors, surfaces, and atmospheres of their moons. However, their distance from Earth means that space missions are more complicated, more expensive, and more risky (not to mention the amount of time it takes to travel out there), but necessary in order to ...

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 ...

Goal: To understand life in our universe.

... • We examine the velocity of the star moving towards and away from us. • If an alien species were looking along the plane of our solar system they would be able to see our sun moving towards them at one point at a velocity of 0.13 km/s • This is a pretty small velocity, and tough to actually observe ...

Geocentric vs. Heliocentric Models of the Solar System

... If it fails even once must be reformulated or rejected! ...

2nd Leaflet: A Tour of the Human Orrery

... is nearly the same, and the orbit is the closest of any planet to a circle with an eccentricity less than 1%. However, Venus has no known moon and rotates on its axis just once every 243 Earth days, almost the same as the Venusian year (224.7 days), and in the opposite direction to its orbital motio ...

The Solar System: The Sun and the Planets

... 2. Look at the equatorial diameter values in Table 1. These values represent the diameter of each planet in relation to Earth’s diameter. For example, Mars has a value of 0.53, which means that its diameter is about half that of Earth. 3. Use modelling clay to create a model of Earth with a diameter ...

The Origin of the Solar System

... asteroid belts? Should all solar systems show evidence of an age of heavy bombardment? 2. If the solar nebula hypothesis is correct, then there are probably more planets in the universe than stars. Do you agree? Why or why not? ...

Measuring the Sky - Physics and Astronomy and more!

...  all fuzzy little objects are resolvable into clusters of stars  our sun is part of a similar cluster of stars  stars in our cluster are roughly the same brightness (variations in brightness are due to variations in distance)  stars in our cluster are distributed uniformly (thickness of the clus ...

What is the universe???

... 1. The planets move around the sun in ellipses 2. The imaginary lines connecting the sun to each planet sweeps equal areas in equal time 3. The relationship between a planet’s ellipse and its orbital period is: P2 = a3 (where P equals the orbital period and a equals the length of the semi-major axis ...

Lecture 3 Geocentrism vs.Heliocentrism

... Geocentrism vs. Heliocentrism Dennis Papadopoulos ASTR 340 Fall 2006 ...

2016 – Term 3 (Jan) Newsletter – Space

... incidentally the first planet closest to the sun; we will visit all the planets listed from the smallest to the largest. Did you know Mercury is covered in craters and completely dry? It has a sunny side as well as a dark side so we may need torches to explore this week. We will start our space-them ...

planet of the Solar system

... system. It`s appearing around the Sun for 88 earth days. This is the smallest planet . Mercury relates to the inner planets, as well as it`s orbit passes closer to the Sun than asteroid belt. After deprivation Pluto in 2006 the status of the planet , Mercury passed the title of the small planet of t ...

Old AST205 Final Exam

... respective orbits in places appropriate for March 1802. At what time of night was Pallas highest in the sky over Olbers’s observatory according to your reasoning? ...

CH28 Solar System - Van Buren Public Schools

... hundreds of thousands of years to complete a single orbit around the Sun. However, a few short-period comets (those having orbital period of less than 200 years) such as Halley’s comet, make a regular encounters with the inner solar system. ...

SOL Study Book

... 1. Earth experiences seasons because of its axial tilt and its revolution around the sun. 2. The northern half of the Earth experiences the opposite season than the southern half of the Earth. 3. Locations closets to the equator stay hot or warm all year long. Characteristics of the Earth 1. The Ear ...

Day-37

... and differentiation.  These are called regular moons.  They revolve around their planets in the same direction that they rotate.  Almost all are tidally locked, meaning one hemisphere always faces the planet the moon is orbiting. ...

Chapter 1 The Copernican Revolution

... predicting the destiny of a person. Astronomers were interested in predicting the position of planets, the Moon and the Sun. As we will see in this chapter, finally astronomy replaced astrology and the modern astronomy and science was born. ...

Now - National Geographic Magazine, UK

... of the solar system, it dips far above and below the pancake-like plane in which the eight planets travel; it swoops on an elongated orbit that takes it from 30 to 50 times Earth’s distance from the sun. But the most curious thing about Pluto is its bond with Neptune. It’s called a resonance: For ev ...

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Definition of planet

The definition of planet, since the word was coined by the ancient Greeks, has included within its scope a wide range of celestial bodies. Greek astronomers employed the term asteres planetai (ἀστέρες πλανῆται), ""wandering stars"", for star-like objects which apparently moved over the sky. Over the millennia, the term has included a variety of different objects, from the Sun and the Moon to satellites and asteroids.By the end of the 19th century the word planet, though it had yet to be defined, had become a working term applied only to a small set of objects in the Solar System. After 1992, however, astronomers began to discover many additional objects beyond the orbit of Neptune, as well as hundreds of objects orbiting other stars. These discoveries not only increased the number of potential planets, but also expanded their variety and peculiarity. Some were nearly large enough to be stars, while others were smaller than Earth's moon. These discoveries challenged long-perceived notions of what a planet could be.The issue of a clear definition for planet came to a head in 2005 with the discovery of the trans-Neptunian object Eris, a body more massive than the smallest then-accepted planet, Pluto. In its 2006 response, the International Astronomical Union (IAU), recognised by astronomers as the world body responsible for resolving issues of nomenclature, released its decision on the matter. This definition, which applies only to the Solar System, states that a planet is a body that orbits the Sun, is massive enough for its own gravity to make it round, and has ""cleared its neighbourhood"" of smaller objects around its orbit. Under this new definition, Pluto and the other trans-Neptunian objects do not qualify as planets. The IAU's decision has not resolved all controversies, and while many scientists have accepted the definition, some in the astronomical community have rejected it outright.

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Definition of planet