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17-1 How we can measure the distances to the stars 17-2 How we measure a star’s brightness and luminosity 17-3 The magnitude scale for brightness and.

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Presentation on theme: "17-1 How we can measure the distances to the stars 17-2 How we measure a star’s brightness and luminosity 17-3 The magnitude scale for brightness and."— Presentation transcript:

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2 17-1 How we can measure the distances to the stars 17-2 How we measure a star’s brightness and luminosity 17-3 The magnitude scale for brightness and luminosity 17-4 How a star’s color indicates its temperature 17-5 How a star’s spectrum reveals its chemical composition 17-6 How we can determine the sizes of stars 17-7 How H-R diagrams summarize our knowledge of the stars 17-8 How we can deduce a star’s size from its spectrum Chapter 17 By reading this chapter, you will learn 17-9 How we can use binary stars to measure the masses of stars 17-10 How we can learn about binary stars in very close orbits 17-11 What eclipsing binaries are and what they tell us about the sizes of stars

3 Parallax D = 1 / p D = distance to a star in parsec P = parallax angle Parallax only works for the stars that we can measure the apparent change in position. 500lys is about the upper limit! Hipparcos (89 – 93) contributed greatly for this purpose!

4 If too far for Parallax: Apparent brightness of the stars and inverse square law!

5 Apparent magnitudes of the stars in Pleiades and Orion’s surroundings

6 Now you are somewhat familiar with the method to measure distances, Please work on “Distant objects” worksheet (part of your homework for this week!) Imagine that you have received pictures of children from near by planetary systems. Picture shows a child on his or her 12th birthday. The pictures were then send electronically to us on the day of the child’s birthday. (lys = light years) Yvone lives on a planet orbiting Garg, which is 9.5 lys away from the sun. RYAN lives on a planet orbiting NORDSTROM, which is 14 lys away from the sun. Julie lives on a planet orbiting Bray-Ali, which is 21.5 lys away from the sun. MALLEREY lives on a planet orbiting LEWIS, which is 6 lys away from the sun. RAQUEL lives on a planet orbiting VASQUEZ, which is 4.5 lys away from the sun. MICHELLE lives on a planet orbiting LA HUE, which is 8.2 lys away from the sun.

7 Stellar Motions: Proper / radial motions

8 Color -> Temp (recall Wien’s law)

9 1.If a star has parallax angle of 1/5 arc-sec, what would be the distance to the star? A)1/5, b)1. c)5, d)25 pc 2.Star A and B have same luminosity. If star A is 4 times closer to Earth then star B, then _____ to earthly viewer.: a=A is 4 x brighter, b=B is 4x brighter, c=A is 16 times brighter d=B is 16 times brighter, e=A is 64x brighter 3.Apparent magnitude is measure of: a=light output, b=light received by the observer, c=temperature of light source 4.Which color star is hotter? A=red. B=white, c=blue Click “ enter to review the questionsC, c, b, c

10 ColorTemp (K) OB-V30k – 50k BB-W11k – 30k AWhite7500 – 11k FY-W5900 – 7500 GYellow5200 – 5900 KOrange3900 – 5200 MO-R2500 – 3900 LRed1300 – 2500 TRed T<1300 L and T are brown dwarfs Spectral types (O, B, A, F, G, K, and M), based on the major patterns of spectral lines Williamina Fleming (standing): left, Annie Jump Cannon: right

11 Properties of Nearby Stars Stefan – Boltzmann law L = 4  R 2  T 4 L = Luminosity R = radius  = constant T = temp Inverse square law L = 4  d 2 b L = Luminosity b = brightness (W / m 2 ) d = distance

12 Hertzsprung-Russell (H-R) diagrams

13 Spectroscopic Parallax Stefan – Boltzmann law L = 4  R 2  T 4 L = Luminosity R = radius  = constant T = temp Inverse square law L = 4  d 2 b L = Luminosity b = brightness (W/m 2 ) d = distance Use of these laws tell us distance, radius and luminosity. How about mass?

14 1.Williamina Fleming and Annie Jump Cannon were involved in developing: a=luminosity class, b=spectral class, c=distance measurements 2.Which type of star is hotter? a=G2V, b=A1II, c=M4III, d=O1Ia e=K7IV 3.The sun’s spectrum is perfect continuous spectrum. a=ture, b=false, c=we don’t know! 4.Which type of star is more stable? a=G2V, b=A1II, c=M4III, d=O1Ia e=K7IV 5.H-R diagram is a plot of: a=mass vs. temp., b=Hydrogen vs. radius, c=Luminosity vs. age, d=mass vs. luminosity, d=luminosity vs. temp. Click “ enter to review the questionsB,d,b,a,d

15 Binary Star System Visual binary : 2 stars can be observed as 2 with mutual gravity Spectrum binary : appear to be one star with incongruous spectrum. Spectroscopic binary : appear to be one but shows Doppler shifts Optical Double : Appear to be close, but just close line of sight.

16 Calculating mass from Binary Star System Kepler’s 3 rd law: M total = a 3 / p 2 M = mass, a = semimajor axis p = orbital period Example: Distance between two stars = 1.8AU Time to orbit each other = 0.7 years M = (1.8) 3 / (0.7) 2 =

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18 Spectroscopy in binary system

19 Light curves of eclipsing binaries

20 1.Binary system means: a=stars young, b=stars are very large, c=stars are old, d=2 stars 2.Binary system let the astronomers measure ____ for the first time: a=mass, b=temperature, c=age, d=Hydrogen content, 3.For the eclipsing binary, we can observe ____ to determine their motion. A=Doppler shift, b=Luminosity, c=apparent magnitude (brightness), d=temperature change Click “ enter to review the questionsD, a, a&c

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