READING: Units: 59, 60. The Family of Stars Stars come in all sizes…
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Transcript of READING: Units: 59, 60. The Family of Stars Stars come in all sizes…
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READING:
Units: 59, 60
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The Family of Stars
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Stars come in all sizes…
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The Mass-Luminosity Relation
• If we look for trends in stellar masses, we notice something interesting– Low mass main
sequence stars tend to be cooler and dimmer
– High mass main sequence stars tend to be hotter and brighter
• The Mass-Luminosity Relation:
Massive stars burn brighter!
5.3ML ≈
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Massive stars burn brighter
L~M3.5
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Luminosity Classes
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Stellar Evolution – Models and Observation
• Stars change very little over a human lifespan, so it is impossible to follow a single star from birth to death.
• We observe stars at various stages of evolution, and can piece together a description of the evolution of stars in general
• Computer models provide a “fast-forward” look at the evolution of stars.
• Stars begin as clouds of gas and dust, which collapse to form a stellar disk. This disk eventually becomes a star.
• The star eventually runs out of nuclear fuel and dies. The manner of its death depends on its mass.
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Evolution of low-mass stars
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Evolution of high-mass stars
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Tracking changes with the HR Diagram
• As a star evolves, its temperature and luminosity change.
• We can follow a stars evolution on the HR diagram.
• Lower mass stars move on to the main sequence, stay for a while, and eventually move through giant stages before becoming white dwarfs
• Higher mass stars move rapidly off the main sequence and into the giant stages, eventually exploding in a supernova
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Our Sun will eventually
A. Become white dwarf
B. Explode as a supernova
C. Become a protostar
D. Become a black hole
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The spectral type of a star is most directly related to its
a. Absolute magnitude
b. Surface temperature
c. Size or radius
d. Luminocity
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Which two vital parameters are used to describe the systematics of a group of stars in the HR diagram?
• a. Mass and weight
• b. Luminocity and radius
• c. Surface temperature and mass
• d. Luminocity and surface temperature
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Which is one of Kepler’s laws:
• a. For every action has an equal and opposite reaction
• b. Planets move in elliptical orbits
• c. F=ma
• d. Planets move in perfect circles around the sun
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A solar exlipse can occur ONLY when
• a. the Moon comes between the Earth and the Sun
• b. the Sun comes between the Moon and the Earth
• c. the Earth comes between the Moon and the Sun
• d. the Sun, Moon and Earth form a precise right-angled triangle
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When dropped by an astronaut on the Moon, two objects of different mass will
• a. Have different accelerations proportional to their masses
• b. Have different accelerations, the more massive object having the smaller acceleration
• c. Have the same acceleration
• d. Have no acceleration at all in the airless space
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According to Newton's laws, a force must be acting whenever
• a. an object's position changes
• b. the direction of an object's motion changes
• c. time passes
• d. an object moves with non-zero speed
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Kepler's first law states that a planet moves around the Sun
• a. in a circle with the Sun at the center
• b. in an elliptical orbit, with the Sun at the center of the ellipse
• c. in an elliptical orbit, with the Earth at the center of the ellipse
• d. in an elliptical orbit, with the Sun at one focus
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If an object has an orbit around the Sun that has an essentricity of 0.1, then the orbit is
• a. a straight line
• b. exactly circular
• c. almost circular, but not quite
• d. a long, thin ellipse
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What causes sunspots?
• a. differential rotation on the Sun creates vortices, or eddies, which are cooler and darker than the rest of the solar surface
• b. solar flares cause the photoshere to expand and cool in the vicinity of the flare
• c. magnetic fields breaking through the photosphere inhibit heat conduction where the field is strong
• d. masses of heavy elements occlude solar light
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Spectral types (e.g. O, B, A, F, G, K, M) define uniquely their
• a. surface temperatures
• b. luminosities
• c. sizes of radii
• d. brightnesses
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Which of the following astronomical systems are held together by gravity
• a. The Sun
• b. The Solar System
• c. The Milky Way
• d. All of them
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If a new planet were found with a period of revolution of 6 years, what would be its average distance from
the Sun?
• a. About 1AU
• b. About 3.3 AU
• c. About 6 AU
• d. About 36 AU
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In order of increasing wavelength the electro-magnetic spectrum is
• a. gamma rays, blue light, red light, radio waves;
• b. ultraviolet, gamma rays, blue light, radio waves;
• c. red light, radio waves, X rays, blue light;
• d. visible, ultraviolet, X-rays, radio
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Light has properties
• a. of waves;
• b. of particles;
• c. none of the above;
• d. both a. and b.
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What is the Law of Inertia?
• A body at rest stays at rest unless acted on by an outside force
• b. F=ma
• c. P^2=A^3
• d. Fg=mMG/R^2
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What is retrograde motion?
• a. “backward moving”/ or interrupted movement of a planet on the sky
• b. Clockwise rotation of the moon around the earth
• c. Rotation of planets around the sun
• d. Large elliptical movements of comets