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SOLUTIONS ASTROPHYSICS – OPTION D 2015-17
SOLUTIONS ASTROPHYSICS – OPTION D 2015-17

... b) State and explain the change in the luminosity of the Sun that occurs between positions S and I. ...
Seasonal Motion
Seasonal Motion

... They move from East to West and also from near to the horizon to higher up in the sky ...
SigAssignment
SigAssignment

... C^2= the speed of light squared. This is a constant. C^2 is 89,875,517,900,000,000 meters a second or 449,726,663,100,000,000 miles per hour. 3) In the equation E=mc^2 mass and energy are related. The reason why is because they are both variables in this equation. If you change one of them, the othe ...
Star Formation
Star Formation

The Sun PPT
The Sun PPT

... • E = energy (Joules [J]) – A Joule is a unit of energy equivalent to the energy needed to apply a force of 1 Newton through a distance of one meter. ...
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Stars and Light

... All the mass in the nebula will be pulled in toward the centre. The density of the forming star (called a protostar) will increase. ...
Lars Bildsten - nnpss
Lars Bildsten - nnpss

Review 1 Solutions
Review 1 Solutions

... Io has a younger surface than Callisto. From other observations, we know this is because of volcanic activity on Io that constantly replenishes its surface with lava. 8. During what lunar phases are tides on Earth the most exaggerated? Tides are exaggerated during full moon and new moon, when the su ...
CHAPTER 32 1. What is happening inside a star that isn`t happening
CHAPTER 32 1. What is happening inside a star that isn`t happening

Astronomy 1 Study Guide Key 16
Astronomy 1 Study Guide Key 16

Lecture 22 - Star Formation from Molecular Clouds
Lecture 22 - Star Formation from Molecular Clouds

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... 11. What famous stars are often confused as constellations and what are they really? Big dipper and Little dipper – they are actually asterisms - prominent patterns or groups of stars, typically having a popular name but smaller than a constellation 12. Explain precession and what it means in the fu ...
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Skills Worksheet

... Starlight, Star Heat Read the following paragraphs, and complete the exercises below. ...
Solutions - Yale Astronomy
Solutions - Yale Astronomy

VOCAB astronomy File
VOCAB astronomy File

Stars - TeacherWeb
Stars - TeacherWeb

... • A white dwarf is about the size of our Earth, but has as much mass as our sun. It is made of the blue-white hot core left behind from a bigger star whose outer layers expanded and drifted out into space when the star began to burn out. – Example: Sirius B ...
Quiz #4 – The Electromagnetic Spectrum and Stars
Quiz #4 – The Electromagnetic Spectrum and Stars

Life Cycle Of A Star
Life Cycle Of A Star

... that produces heat and light. There are many stars in our galaxy, and many more in others, but the star that is the most important and the one that we orbit around is called the Sun. The Sun produces heat and light for us and is also keeping all the planets in orbit. Stars aren’t just beautiful thin ...
H-R Diagrams
H-R Diagrams

Prep Homework Solutions for HW due 10/04/10
Prep Homework Solutions for HW due 10/04/10

... the explosion. A thermonuclear supernova occurs when mass transfer onto a white dwarf in a close binary causes its mass to exceed the Chandrasekhar limit of 1.4 Msun, which is the maximum mass possible for a white dwarf. Above this mass, gravitational compression ignites fusion in the core, converti ...
Assessment 1 - Stars - Teacher Key
Assessment 1 - Stars - Teacher Key

EVOLUION OF SUN LIKE STAR
EVOLUION OF SUN LIKE STAR

Star Life Guided Notes
Star Life Guided Notes

... Small stars last longer (don’t consume fuel as quickly) ____________on HR diagrams. “Burn” ________ for most of their lifetime. ...
The Sun and Other Stars - Tuslaw Local School District
The Sun and Other Stars - Tuslaw Local School District

... Life of a star • How long a star lives depends on its mass *small mass stars use up their fuel more slowly than large mass stars, so they have much longer lives • Medium mass stars like the sun live about 10 by • Small mass stars may live 200 by • A large mass star 15 x’s as massive as the sun may ...
Chapter 4: Spectroscopy
Chapter 4: Spectroscopy

... discreet • Only transitions by an amount E=hf are allowed • The implication is that light is discreet or quantised ...
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Dyson sphere

A Dyson sphere is a hypothetical megastructure that completely encompasses a star and hence captures most or all of its power output. It was first described by Olaf Stapledon in his science fiction novel, ""Star Maker"". The concept was later popularly adopted by Freeman Dyson. Dyson speculated that such structures would be the logical consequence of the long-term survival and escalating energy needs of a technological civilization, and proposed that searching for evidence of the existence of such structures might lead to the detection of advanced intelligent extraterrestrial life. Different types of Dyson spheres correlate with information on the Kardashev scale.Since then, other variant designs involving building an artificial structure or series of structures to encompass a star have been proposed in exploratory engineering or described in science fiction under the name ""Dyson sphere"". These later proposals have not been limited to solar-power stations. Many involve habitation or industrial elements. Most fictional depictions describe a solid shell of matter enclosing a star, which is considered the least plausible variant of the idea (see below). In May 2013, at the Starship Century Symposium in San Diego, Dyson repeated his comments that he wished the concept had not been named after him.
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