Welcome to Physics 1403 Stars and Galaxies Mr. Kris Byboth
Transcript
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Welcome to Physics 1403 Stars and Galaxies Mr. Kris Byboth
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Syllabus: http://www.blinn.edu/brazos/natscience/phys /kbyboth/
Homework: Visit my site and print out a copy of the free SFA star
charts. Read chapters 1 & 2 Register for Mastering Astronomy
and start the first assignment.
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Pop Quiz One. Just for fun. 1.What is the closest star to
Earth? 2.What is the brightest star in the sky? 3.On what horizon
do stars rise? Set? 4.How many stars are there?
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Answers What is the closest star to Earth? The Sun! Proxima
Centauri is the second closest star.
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Proxima Centauri
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What is the brightest star in the sky? The Sun Sirius is the
second brightest star.
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On what horizon do stars rise? Set? East West
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How many stars are there? Approximately 10 billion trillion
stars The number of stars in the universe is larger than the total
number of grains of sand on all the beaches on Earth!
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What Do You Want to Know? On the bottom of your quiz please
write one question you would like answered this semester. Then
please pass your quiz to the front of the room
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Definitions Star Planet Moon Asteroid Comet Solar System Nebula
Galaxy Universe/Cosmos
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Star A large, glowing ball of gas that generates heat and light
through nuclear fusion
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Planet A moderately large object that orbits a star; it shines
by reflected light. Planets may be rocky, icy, or gaseous in
composition. Mars Neptune
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Why Pluto is no longer a planet? The Problem Eris, discovered
in 2005, is slightly larger than Pluto. The Solution. A New
Definition for Planet. Orbits a star Is massive enough for its
gravity to make it nearly round It has cleared the neighborhood
around its orbit. Is much larger than anything near it. (Charon is
about the size of Pluto) Pluto is now a dwarf planet
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Moon (or satellite) An object that orbits a planet.
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Asteroid A relatively small and rocky object that orbits a
star. Ida
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Comet A relatively small and icy object that orbits a
star.
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Solar (Star) System A star and all the material that orbits it,
including its planets and moons
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Nebula An interstellar cloud of gas and/or dust
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Galaxy A great island of stars in space, all held together by
gravity and orbiting a common center
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Universe The sum total of all matter and energy; that is,
everything within and between all galaxies.
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Chapter 1 Our Place in the Universe
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What do we think we know and how do we know it? We must first
assume all of the laws of physics are universal. Almost all that we
know we have learned by observing light from distant sources. We
will spend most of this semester looking at observations and trying
to see how those observations lead to our understanding of the
universe.
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How did we come to be briefly The universe is expanding in all
directions If we run this expansion backwards the universe
collapses to a single point (the big bang) in about 13.7 billion
years Shortly after the big bang the universe was composed only of
the simplest of elements. Hydrogen & Helium
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As stars generate energy by nuclear fusion they create heavier
elements. Up to Carbon All of the heavier elements are created in
stellar death! We are all star stuff
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How do we know about the past? Although nothing can travel as
fast as light, there is a limit to how fast light can travel.
300,000km/s This means it takes time for light to travel from place
to place. 8min from the Sun to Earth 2.5million years from the
nearest galaxy to Earth
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Light years a measure of distance We define the light year to
be the distance light will travel in one year. 1 lyr ~ 10 trillion
km ~ 6 trillion mi Thus when we see light from a distant galaxy
that is 12 billion light years away we are looking 12 billion years
in the past. Since the universe is only ~14 billion years old we
can only observe parts of the universe within 14billion light
years. This is called the observable universe
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The scale of the universe. How big is the universe? Really
BIG!
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A scale model Let the Sun be a large grapefruit. This reduces
the sun to one 10 billionth of its actual size. How big would the
Earth be? A.an atom B.a ball point C.a marble D.a golf ball At this
scale the Earth would be ~50ft (15m) away from the sun
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Pluto would be 600 meters (1/3 of a mile) from the sun The
nearest star would be about 2500mi or 4000km away This is
approximately the distance from Washington D.C. to California. How
hard would it be to find a planet at this distance?
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How big is the Milky Way? In order to view our home galaxy our
scale needs to be reduced by another factor of a billion At this
scale the entire solar system would be microscopic The distance
from the sun to Alpha Centauri would be 4.4 mm The Milky Way would
be about the size of a football field.
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How big is the universe?
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The Milky Way is one of only 100 billion galaxies in the
observable universe. If we were to assume our galaxy is an average
galaxy then there would be 10,000,000,000,000,000,000,000 stars in
the universe.
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Why I cant sit still!! Contrary to our perception, we are not
sitting still. We are moving with the Earth in several ways, and at
surprisingly fast speeds The Earth rotates around its axis once
every day.
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Earth orbits the Sun (revolves) once every year: at an average
distance of 1 AU 150 million km. with Earths axis tilted by 23.5
(pointing to Polaris for now) and rotating in the same direction it
orbits, counter-clockwise as viewed from above the North Pole.
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Our Sun moves randomly relative to the other stars in the local
Solar neighborhood typical relative speeds of more than 70,000
km/hr but stars are so far away that we cannot easily notice their
motion And orbits the galaxy every 230 million years.
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More detailed study of the Milky Ways rotation reveals one of
the greatest mysteries in astronomy: Most of Milky Ways light comes
from disk and bulge . but most of the mass is in its halo
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How do galaxies move within the universe? Galaxies are carried
along with the expansion of the Universe. But how did Hubble figure
out that the universe is expanding?
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Hubble discovered that: All galaxies outside our Local Group
are moving away from us. The more distant the galaxy, the faster it
is racing away. Conclusion: We live in an expanding universe.
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Are we ever sitting still? Earth rotates on axis: > 1,000
km/hr Earth orbits Sun: > 100,000 km/hr Solar system moves among
stars: ~ 70,000 km/hr Milky Way rotates: ~ 800,000 km/hr Milky Way
moves in Local Group Universe expands
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Astronomy Picture of the Day A Star Cluster in the Rosette
Nebula
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Astronomy Picture of the Day Your Home The Milky Way
Galaxy