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BINARIES Read Your Textbook: Foundations of Astronomy

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Presentation on theme: "BINARIES Read Your Textbook: Foundations of Astronomy"— Presentation transcript:

1 BINARIES Read Your Textbook: Foundations of Astronomy
Chapter 10 Homework Problems Chapter 9 Review Questions: 1, 4, 5, 7 Review Problems: 1-5 Web Inquiries: 1 Homework Problems Chapter 10 Review Questions: 1, 2, 4, 6-8 Review Problems: 1-4, 8 Web Inquiries: 2

2 Binary Center of Mass Balance point

3 Binary Separation a = rA + rB Visual Binary Star

4 Spectroscopic Binary From Doppler Shift

5 Spectroscopic Orbit This represents the orbit of the star that is farthest from the center of mass. Its velocity amplitude is higher. It is the lower mass star. Velocity Time

6 Spectroscopic Orbit This represents the orbit of the star that is closest to the center of mass. Its velocity amplitude is smaller. It is the higher mass star. Velocity Time

7 Spectroscopic Parameters
Center of Mass Low Mass Star Velocity Amplitude High Mass Star Velocity Amplitude Velocity Time

8 Inclination K velocity = amplitude of radial velocity (m/s)
Doppler effect is maximized for an “edge-on” system; non-existent for a “pole-on” system. Inclination ~ 90o Inclination ~ 0o

9 Inclination K velocity = amplitude of radial velocities v sin(i)
v = velocity i = 90 degrees, edge on i = 0 degrees, pole face

10 Spectroscopic Parameters
g velocity = velocity of Center of Mass (CoM) K velocity = amplitude of radial velocity (v sin i) P = period Mass ratio M2/M1 = K1/K2 Smaller star orbits farther from the CoM, Larger star is closer from the CoM. Smaller star has large K velocity.

11 Center of Mass Velocity?
Spectroscopic Orbit Center of Mass Velocity?

12 Spectroscopic Orbit Orbital Period?

13 Spectroscopic Orbit

14 Spectroscopic Orbit K velocities?

15 Spectroscopic Orbit K2 = = 75

16 Spectroscopic Orbit K1 = = 25

17 One Star is 3 times more massive than the other.
K2/K1= M1/M2 = 75/25 = 3 One Star is 3 times more massive than the other. Spectroscopic Orbit

18 Eclipsing Binary Light Intensity variations are observed
because of blocking of light by each of the stars in the system if inclination is large enough. Systems are edge-on or nearly edge-on as seen from earth. (i.e. inclinations are ~ 90 degrees)

19 Algol (b Perseus) Light Curve Light Intensity versus Time

20 Eclipsing Binary Light Curve

21 Eclipsing Binary Light Curve
LA + LB LA + LB LB + f LA LA Only

22 Eclipsing Binary Light Curve
LA + LB LA + LB LB + f LA LA Only

23 Eclipsing Binary Light Curve
LA + LB LA + LB LB + f LA LA Only

24 Eclipsing Binary Light Curve
LA + LB LA + LB LB + f LA LA Only

25 Simple Eclipsing Binary

26 Unequal Temperature and Size

27 Star Spots

28 Light Curve Fit

29 Light Curve Varieties

30 Light Curve Contacts

31 Light Curve Contacts Time interval (t2 - t1) ~ size of “orange” star

32 Light Curve Contacts Time interval (t3 - t1) ~ size of “yellow” star

33 Size Determinations 2 RA = (VA+VB ) ( t2 - t1 )
2 RB = (VA+VB ) ( t3 - t1 ) Velocities obtained from spectroscopic orbit. Contact times obtained from eclipse light curve. The radii of the stars are then calculated to yield their size.

34 Determining Radii

35 Intrinsic Luminosity L = 4pR2sT4
Radius obtained from spectroscopic orbit with eclipse light curve. Temperature obtained from observations of spectrum.

36 Fundamental Stellar Parameters
Spectra Distance Temperature Chemical Composition Luminosity (if distance is known) Velocity Binaries Orbital Velocities Sizes Masses Luminosity

37 Fundamental Stellar Parameters

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