announcements hw #1 will be returned on wednesday problem #7 – i wrote the distance incorrectly,...
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Announcements
HW #1 will be returned on Wednesday
Problem #7 – I wrote the distance incorrectly, should have been 2.2706x1019 km. But don’t change your HW!
Quiz #1 next Friday
Study guide handed out today/Wednesday
Please turn off all electronic devices
Don’t forget to sign the attendance sheet
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Lecture 11:To the Stars and Beyond
Astronomy 1143 – Spring 2014
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Key Ideas:Distances=key measurement in astronomy
Geometric Distances• Trigonometric Parallax• Most reliable distances
Luminosity Distances• Uses Standard Candles – objects whose luminosity
you know ahead of time• Spectroscopic Distances• Period-Luminosity Distances
Each method only works out so far in distance --must use closer methods to calibrate other methods
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Our Place in the Universe
We can see about 6000 stars with the naked eye and millions-billions more with a telescope
How far away are they?
How are they distributed?
Is the Milky Way the only galaxy?
How far away are other galaxies?
Building the distance ladder…..
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p
December
Method of Trigonometric Parallaxes
June
Distant Stars
ForegroundStar
p = parallax angle
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Parallax Formula
p = parallax angle in arcseconds
d = distance in “Parsecs”Avoids trig functions, but only works for small angles
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Parallax Second = Parsec (pc)
Fundamental distance unit in Astronomy
“A star with a parallax of 1 arcsecond has a distance of 1 Parsec.”
1 parsec (pc) is equivalent to:–206,265 AU–3.26 Light Years–3.085x1016 km
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Examples:Proxima Centauri has a parallax p=0.768 arcsec:
d1
p
1
0 0250 pc= = =
.
Another star has a parallax of p=0.02 arcsec:
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Parallax Limits
Ground-based parallaxes are measured to a precision of ~0.01-arcsec
• good distances out to 100 pc • < 1000 stars this close
Hipparcos parallaxes have a precision of ~0.001-arcsec (at best)
• good distances out to 1000 pc• Measured for ~100,000 stars
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The Current Reach of Parallax
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Hipparcos & Gaia
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Reach of Gaia
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Luminosity Distances
Indirect distance estimate:• Measure the object’s Apparent Brightness, B• Assume the object’s Luminosity, L• Solve for the object’s distance, d, by applying
the Inverse Square Law of Brightness
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LuminosityAssuming a luminosity is a critical step.
We need to find something that we can observe about an object that tells us its luminosity
For example: • We can look at the color of an object• We can look at the spectrum of an object• We can look at the lightcurve of an object
Then we need to calibrate it by knowing the luminosity of an identical object
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Standard CandlesObjects whose Luminosity you know ahead of time.
• Calibrate the Luminosities of nearby objects for which you have distances from Trigonometric Parallaxes.
• Identify distant but similar objects, using a distance-independent property that they share.
• Assume that the distant objects have the same Luminosity as the nearby objects.
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Examples of Standard Candles
Normal Stars • Spectral type is the same as a star with a
known luminosity – say a star with a known parallax
Pulsating Stars• Evolved Stars can be unstable• Small Changes in Luminosity• Period-(Average) Luminosity Relationship
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All Stars are not like the Sun
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Stellar Spectra
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Spectroscopic Parallax LimitsDistance Limit:
• Practical limit is few 100,000 pc – need to get spectra of individual stars
Problems:• Stars within each class do not have exactly the
same luminosity
• Depends on composition.
• Faint spectra give poor classifications.
Method works best for clusters of stars, rather than for individual stars.
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Periodic Variable Stars
Stars whose brightness varies regularly with a characteristic, periodic pattern.
Distance-Independent Property:Period (repetition time) of their cycle of
brightness variations.
Physics:Period-Luminosity Relations exist for certain
classes of periodic variable stars.
Measuring the Period gives the Luminosity.
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Period-Luminosity Relationship
1 5 10 50
102
103
104
Period (days)
Lum
inos
ity
(Lsu
n)
CepheiStars
RR Lyraestars
3 100300.5
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Cepheid Variables
Rhythmically Pulsating Supergiant stars:• Found in young star clusters
• Luminosities of ~ 1034 Lsun
• Brightness Range: few % to 23 times• Period Range: 1 day to ~50 days.
Period-Luminosity Relation:• Longer Period = Higher Luminosity
• P = 3 days, L ~ 103 Lsun
• P = 30 days, L ~ 104 Lsun
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Typical Cepheid Light Curves
LCB 171P ~ 3 days
LCB 272P ~ 2 days
time time
Bri
ghtn
ess
Bri
ghtn
ess
PeriodPeriod
Easier to get a measurement of brightness than a spectrum, especially for a lot of objects at once
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Example: Cepheid with a 10-day period
1 5 10 50
102
103
104
Period (days)
Lum
inos
ity
(Lsu
n)
3 100300.5
L=5011 Lsun
P=10d (observable)
CepheidP-L Relation(calibrated)
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Example
You measure the period of a Cepheid to be 5.4 days. What is its luminosity?
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Cepheid Variable LimitationsFound only in young star clusters.Distance Limit:
• 3040 Megaparsecs (Hubble Space Telescope)• Crucial for measuring distances to galaxies.
Problems:• Few Cepheids with good Trigonometric
Parallaxes• P-L relation may depend on Composition• Two types of Cepheids with different
P-L relations ( Cephei and W Virginis).
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Cepheids with HST
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RR Lyrae Variables
Pulsating old stars:• Luminosity of ~50 Lsun
• Brightness Range: factor of ~ 23• Period Range: Few hours up to ~ 1 day.• Relatives of Cepheid Variables
Period-Luminosity Relation• Less strong than for Cepheids
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RR Lyrae Light Curve
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RR Lyrae Star Limitations
Found in old clusters, Galactic bulge & halo
Distance Limit:• ~1 Megaparsec (Hubble)• Limited to our Galaxy & Andromeda
Problems:• No RR Lyrae stars with good Trigonometric
Parallaxes• Less bright than Cepheid stars, so useful only
relatively nearby
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The Cosmic Distance ScaleNo single method will provide distances on all cosmic scales:
• Calibrate parallaxes using the AU• Calibrate spectroscopic parallaxes using geometric
parallaxes• Calibrate Cepheid and RR Lyrae star distances
using clusters with spectroscopic or geometric parallaxes
Imprecision at each step carries forward, making subsequent steps less precise.
This is the challenge of measuring distances.
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Distance Ladder