red giants and white dwarfs
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Red Giants and White Dwarfs. A Field Guide to Stars. The Solar Neighborhood. Milky Way Galaxy 100 billion stars Volume of nearly 100,000 light years across Orbits Galactic Center- 25,000 light years from Earth. Stellar Parallax. Measuring Parsecs. Parallax decreases as distance increases - PowerPoint PPT PresentationTRANSCRIPT
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A Field Guide to Stars
Red Giants and White Dwarfs
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The Solar Neighborhood
Milky Way Galaxy
100 billion stars
Volume of nearly 100,000 light years across
Orbits Galactic Center- 25,000 light years from Earth
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Stellar Parallax
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Parallax decreases as distance increasesDistance (in parsecs)= 1 parallax (in arc
seconds)Parallax=0.5”
1/0.5= 2pcParallax=0.1” 1/0.1=10pc
One Parsec≈3.3 Light years
Measuring Parsecs
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Our Neighbors
Proxima Centauri
Alpha Centauri Complex
0.77” parallax
270,000 AU
4.3 Light years
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Interstellar Void
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Luminosity and apparent brightnessLuminosity is intrinsic also called the absolute brightness
We see apparent brightness
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Another Inverse Square LawLeaving a star, light travels through imaginary spheres of increasing radius surrounding the source.
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Doubling the distance from a star makes it appear 22, or 4 times dimmer.Tripling makes it look 32, or 9 times more dim.
Luminosity also affects brightness.Doubling the luminosity also doubles the
energy crossing any spherical shell surrounding the star.
This doubles the apparent brightness.The apparent brightness of a star is directly
proportional to the star’s luminosity and inversely proportional to the square of its distance.
Inverse Square
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Apparent brightness (energy flux)∞ luminosity
distance2
Okay…WHAT?
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Two things are neededDetermine apparent brightnessStar’s distance Magnitude ScaleSecond century Greek astronomer
HipparchusClassified into six groups
Determining Luminosity
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The use of telescopes that could measure energy shows two important facts
The 1-6 magnitude range spans a magnitude of 100 in apparent brightness
Hipparchus used his eyes
The Magnitude Scale
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Define a change of 5 in magnitude to correspond to exactly a factor of 100
1-6 or 7-2..Numbers in Hipparchus’s ranking are
apparent magnitudesScale is no longer limited to whole numbersMagnitudes outside of the 1-6 range are
allowed
Modern Magnitude Scale
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Apparent Magnitude
Ranges from the Sun (-26.7) to the Hubble/Keck limit
≈5x1022
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Measures apparent brightness when the star is seen at its actual distance from the sun
Absolute magnitude is apparent magnitude from 10 parsecs from the observer
Inverse Square (again)Star @ 100pc “moved” to 10pcDistance decreases by a factor of 10Apparent brightness increases 102 or 100
timesIts apparent magnitude would decrease by 5
Absolute Magnitude
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Sun’s absolute magnitude is 4.83Since an increase in brightness by a factor of
100 corresponds to a reduction in a star’s magnitude by 5 units, a star with a luminosity 100 times that of the Sun has an absolute magnitude of4.83-5=-0.17
A star with .01 Solar luminosity has an absolute magnitude of4.83+5=9.83
More on the Magnitude Scale
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We can fill in the gaps if we realize 1 magnitude corresponds to a factor of 1001/5≈2.512, 2 magnitudes to 1002/5≈6.310 and so on.
A factor of 10 in brightness corresponds to 2.5 magnitudes.
More on the Magnitude Scale
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Luminosity Conversion ChartCalculate the luminosity (in solar units) of a star having absolute magnitude of M. The star’s absolute magnitude differs from the Sun by (M-4.83) magnitudes, So the luminosity, L, differs from the solar luminosity by a factor of:
100 -(M-4.83)/5 or
L(solar units)= 10–((M-4.83)/2.5)
From appendix 3:
MSun=4.83, has L=100=1
Sirius A with M=1.45, has L=101.35=22 Solar Units
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Barnard’s Star with M=13.24, has L=10-3.5 = 4.3x10-4 Solar Units.
Betelgeuse has M= -5.14 and L=9,700 suns…
More on the Magnitude Scale
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Invert the previous formulaM=4.83-2.5 log10L
Vega: L=50M=4.83-2.5 log(50)
M=0.58Eridani: M=0.3M=4.83-2.5 log(0.3)
M=6.2
Converting Luminosity to Absolute Magnitude
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m=M+5 log (D/10pc)OrD= 10pc X 10((m-M)/5)
Knowing the difference m-M between apparent and absolute magnitudes is equivalent to the objects distance from us.
Apparent Luminosity, Absolute Magnitude, and Distance
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The star Rigel:m=0.18D=240 pcM= 0.18-5log(24)=-6.7
Apparent Luminosity, Absolute Magnitude, and Distance
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Color and the Blackbody CurveMeasure the apparent brightness at several
different frequenciesMatch observations to appropriate blackbody
curve
Stellar Temperatures
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Blackbody Curves
B and V filters admit different amounts of light for objects of different temperatures.
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Between 1880 and 1920 stellar spectra was collected
No firm theories on how the lines were produced
Stars were classified by their hydrogen-line intensities
Now are classified as O, B, A, F, G, K, and M.
Spectral Classification
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Astronomers further divided each letter into 10 subdivisions Our sun is a G2 (cooler than a G1, but hotter
than a G3)Vega: A0Barnard’s Star: M5Betelgeuse: M2
Spectral Classification
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With distance known and angular diameter measured, we can calculate actual radius.130pc and angular diameter of up to 0.045”Betelgeuse’s maximum radius is 630 times that
of the Sun. (Betelgeuse is a variable star).Most stars are too distant or too small to be
measured directly
Direct and Indirect Measurements
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Stefan Boltzmann LawEnergy emitted per unit area per unit time
increases as the fourth power of the star’s surface temperature.
Large bodies radiate more energy than do small bodies at the same temperatureLuminosity α radius2 X temperature4
Radius-Luminosity-Temperature relationship:Knowledge of a star’s luminosity and
temperature can yield an estimate of the star’s radius
Radiation Laws
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Stefan Boltzmann law: F=σT4
Area of a sphere: A=4πR2
Luminosity α radius2 X temperature4
SoLuminosity= 4π σ R2 T4
OrLuminosityα radius2 X temperature4
Estimating Stellar Radii
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Use solar unitsL (in solar luminosities)= 3.9x1026WR (in solar radii)= 696,000 KmT (solar temperature)= 5800K
We can eliminate the constant 4π σ and rewrite the equation asL (in solar units)= R2 (in solar radii) x T4 (in
units of 5,800K)
Estimating Stellar Radii
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L (in solar units)= R2 (in solar radii) x T4 (in units of 5,800K)
To compute the radius, we change the formula toR=√L/T2
AldebaranSurface Temperature: 4000KLuminosity: 1.3x1023W
So the luminosity is 330 times the Sun and temperature is 4,000/5,800= 0.69R=√330/0.69R=18/0.48R=39 solar radii
Estimating Stellar Radii
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Canopus, the second brightest star in the southern skyApparent magnitude of -0.62Parallax of 0.0104”
Distance (pc)= 1/ parallax1/0.0104= 96pc
M=m-5log(dist/10pc)M=-0.62-5log(9.6)M=-5.5
Estimating Stellar Radii
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M=-5.5L= 10 –(M-4.83)/2.5
L= 10-(-5.5-4.83)/2.5
L=10 -(-4.132)
L≈ 14,000Canopus spectral type is an F0: implying a
surface temperature of 7,400 K or 1.3 solar temperature
L=R2xT4
R=√L/T2
R=√14,000/1.69R≈70 solar Radii
Estimating Stellar Radii
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Giants are any star whose radii are between 10 and 100 solar radii.
Aldebaran is red in color, so it is classified as a Red Giant.
Stars ranging up to 1000 solar radii are known as supergiant
Betelgeuse is a supergiant
Giants and Dwarfs
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Sirius BT= 27,000 K (4.5)L= 1025W (0.025)
R=√0.025/4.52
R=0.007 solar radiiA dwarf is any star whose radius is
comparable to or smaller than the Sun (including the Sun)
Because any 27,000 K object glows blue-white, Sirius B is a white dwarf.
Giants and Dwarfs
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Hertzsprung-Russell Diagram
Relationship exists between stellar temperature and luminosity