August 2014 - Hermanus Astronomy

... mantles and should have been found in large quantities on the surface of Vesta, due to a double meteorite impact that, according to computer simulations, ‘dug’ the celestial body’s southern pole to a depth of 80 km, catapulting large amounts of materials to the surface. The two impacts were so power ...

Tom`s presentation

... Obtaining the Age of the Universe from Astronomy Big Bang Theory – The Universe was created by a single event that caused a small state to expand to a larger state ...

Lesson 4d Models of the Solar System

...  Venus has phases (like the moon) and appears to change size  Jupiter has objects orbiting it (moons)  There are dark spots on the sun  The sun rotates and the spots on the ...

34_alone

... could kill all nearby life. • No known defense except to move far away. • Low density of stars near sun suggest that a very close supernova is very rare! • Also worry about gamma ray burst (collapse of very massive star to form black hole). • Gamma Ray bursts would kill anything that happened to be ...

Astronomy vs. Astrology: Uptodate Zodiac Signs and Dates

... is with that of a spinning top, tilted at an angle, which slowly wobbles in a circle while rotating much faster on its axis. Similarly, the Earth’s axis completes the Circle of Precession in 26,000 years, while rotating on its axis in one day or about 24 hours (23h 56 m, to be precise). In addition ...

Great Migrations & other natural history tales

... This derivative can be estimated as dP/dr ~ [P(R) - P(0)]/(R - 0) Notice that this would be an exact expression for the derivative if pressure P were falling from a large P(0) in the center to P(R)~0 at the surface as a strait line section (linearly). Linear approximation is not necessarily accurate ...

Review Sheet

... poles and cold poles), best current model for Mercury’s evolution, why doesn’t Mercury have much of an atmosphere, why Mercury is a hot and cold place. • Venus: retrograde rotation, Atmosphere composition(97%CO2 , 4%N2 ), day temperature vs night temperature. • Mars: water[where has it been(rivers, ...

PHYSICS 015

... not the products of the nuclear reactions deep within the core! It is almost pure H + He. The escaping material eventually merges into the interstellar medium, and is available to be used in other stars that may form later. ...

Lecture 36: Strange New Worlds

Introduction to Astronomy

... • As the hot material is crushed to nuclear density, protons and electrons combine to form neutrons. • The result is a “neutron star”: a ball of neutrons heavier than our sun, roughly 30 kilometers across (first predicted in 1932). • The left-over energy blows the rest of the star outward in a type- ...

The Sun: Home Star

... The Sun • Key to solar-stellar connection • Close-up model for other stars • Local “lab” for testing ideas about the physics of stars • Energy source for most life on earth ...

Open File

... Which planet has the shortest day? ...

Unit 2: The Chemistry of Life

... Using one 8.5 x 11 sheet of paper answer all questions and define all vocabulary. Take the time to look up and study those questions/concepts not immediately familiar. Any questions you still have mark with a star, and we will address them in class. The Nature of Matter Name and describe the three s ...

Quiz Lecture 3

... a. the idea of planets moving in perfect circles was false. b. Jupiter has four satellites (moons) orbiting it. c. the planet Venus goes through phases just like the Moon. d. The Sun was not perfect, but exhibited sunspots. answer: a ...

DO NOT WRITE ON THIS PAPER Standard 1 Objective 1 Study

Ch. 2

... Anything that can fly this fast will not hit the ground. This is the speed for low Earth orbital objects like the Space Shuttle, the ISS (International Space Station) and spy satellites. ...

AN INTRODUCTION TO ASTRONOMY Dr. Uri Griv Department of Physics, Ben-Gurion University

... Explanation: Yes it does look like Saturn, but Saturn is only one of four giant ringed planets in our Solar System. And while Saturn has the brightest rings, this system of rings and moons actually belongs to planet Uranus, imaged here in near-infrared light by the Antu telescope at the ESO Paranal ...

Lecture Notes-PPT

... If a protostar forms with less than 0.08 solar masses, nuclear fusion never begins This failed star is called a brown dwarf, a planet sized object Brown dwarfs still emit energy, due to gravitational collapse Brown dwarfs are important to astronomy since they may be the most common type of star out ...

The Danger of Deadly Cosmic Explosions

... • Brightest X-Ray burst – damaged satellites – affected radio. ...

1-Syllabus-Intro

... All makeups are given on study day, May 11. Time and place to be determined. Exam scores will be posted by your course and ID# on the web. If you feel there’s a mistake on the multiple-choice part of an exam, please see the secretary in the astronomy department office, 356 Physics. Questions about e ...

PowerPoint - Chandra X

... The young Sun-like stars in Orion produce violent X-ray outbursts, or flares, that are much more frequent and energetic than anything seen today from our Sun. The range of flare energies is large, with some of the stars producing flares that are a hundred times larger than others. The different flar ...

Worksheet

... 11. This is an example of how we use technology to help us learn about the Solar System and the universe. a. Amateur astronomers using their telescopes to study the night sky. b. The Hubble Space Telescope. c. Using computers to help us understand data we collect. d. All of the above. 12. What can e ...

Engineering the Heavens

... sun. Over the next 180 years, Johannes Kepler derived three mathematical laws that described planetary orbits as ellipses with the sun at one focus; Galileo first turned a telescope skyward and observed that Venus went through phases similar to the phases of the moon that were readily explainable if ...

MIT

... • Astronomers think that the Sun's gravitational field dominates the gravitational forces of the other stars in the Solar System out to this distance. ...

not - ISDC

... ● How is the cosmos evolving? ● What different models are there for the evolution of the cosmos and what do they predict? ● What might be the future of the universe? ● How can we describe the beginning of the universe? ● What (anti-)particles and elements are abundant in the universe and how did the ...

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Theoretical astronomy

Theoretical astronomy is the use of the analytical models of physics and chemistry to describe astronomical objects and astronomical phenomena.Ptolemy's Almagest, although a brilliant treatise on theoretical astronomy combined with a practical handbook for computation, nevertheless includes many compromises to reconcile discordant observations. Theoretical astronomy is usually assumed to have begun with Johannes Kepler (1571–1630), and Kepler's laws. It is co-equal with observation. The general history of astronomy deals with the history of the descriptive and theoretical astronomy of the Solar System, from the late sixteenth century to the end of the nineteenth century. The major categories of works on the history of modern astronomy include general histories, national and institutional histories, instrumentation, descriptive astronomy, theoretical astronomy, positional astronomy, and astrophysics. Astronomy was early to adopt computational techniques to model stellar and galactic formation and celestial mechanics. From the point of view of theoretical astronomy, not only must the mathematical expression be reasonably accurate but it should preferably exist in a form which is amenable to further mathematical analysis when used in specific problems. Most of theoretical astronomy uses Newtonian theory of gravitation, considering that the effects of general relativity are weak for most celestial objects. The obvious fact is that theoretical astronomy cannot (and does not try) to predict the position, size and temperature of every star in the heavens. Theoretical astronomy by and large has concentrated upon analyzing the apparently complex but periodic motions of celestial objects.

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Theoretical astronomy