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Day-5. Announcements 1 st Quarter Observing Night Next Thursday – Oct. 10 Start time will be 7:30pm Start set-up at ~6:30pm in Atrium.

Published byHarley Fitton Modified over 9 years ago

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Presentation on theme: "Day-5. Announcements 1 st Quarter Observing Night Next Thursday – Oct. 10 Start time will be 7:30pm Start set-up at ~6:30pm in Atrium."— Presentation transcript:

1 Day-5

2 Announcements 1 st Quarter Observing Night Next Thursday – Oct. 10 Start time will be 7:30pm Start set-up at ~6:30pm in Atrium

3 Magnitude Originally devised by Hipparchus around 140 BC. Based on when stars become visible after sunset. Sunset to astronomical twilight (complete dark) is divided into six equal time periods 1 st mag…visible in first 2 nd mag…visible in second 3 rd mag…visible in third 4 th mag…visible in fourth 5 th mag…visible in fifth 6 th mag…visible in sixth

4 Modern definition of magnitude is based on light flux Note that this compares two stars. If a “zero point” is defined then where C is the zero point offset

5 Zero Points N.R. Pogson, originator of the modern magnitude definition, proposed an average of the sixth magnitude stars in certain star catalogues. Result: m Sirius = -1.6 North Polar Sequence…system of “standard stars” with known magnitudes to compare against m Vega ≡ 0.0 but problems with variability and dust leads modern values to m Vega = 0.03 Most common systems now are standard star systems

6 Absolute magnitude Defined as the magnitude of the object if it was located at a distance of 10 parsecs. This gives a distance (d) relationship between apparent magnitude (m) and absolute magnitude (M). Distance is measured in parsecs

7 Types of Magnitude  Visual Magnitude (m v )…measured over the visible spectrum  Monochromatic magnitude(m )…measured over a narrow wavelength range  Bolometric magnitude (m bol )…measured over the entire E/M spectrum  Photographic magnitude (m pg )…magnitude measured with photographic plate

8 Filter Systems Early 20 th Century “filter” system was photographic (m pg ) and visual (m v ) 1950’s H. L. Johnson & W. W. Morgan added an ultraviolet (m U ) and converted photographic to “blue” (m B ) for the UBV system Alan Cousins work with GaAs photomultipliers which are sensitive in red and IR adds R and I for Johnson-Cousins UBVRI system J. A. Smith et al use mostly non-overlapping filter system for SDSS…UGRIZ

9 Johnson-Cousins Filter System

10 SDSS Filter System

11 Comparison of UBVRI and UGRIZ

12 Flux Amount of light energy per unit area per unit time in a specific wavelength band Recall that

13 Blackbody Spectra

14 Two laws govern blackbody radiation Wein’s Displacement Law Where T is in Kelvin and is in meters Planck’s Law with B in Watts per square meter per Hz per steradians or Watts per square meter per meter per steradians, T in Kelvin, c in meters per second and is in meters. h is Planck’s constant and k is Boltzmann’s constant

15 Stellar Classification Annie Jump Cannon developed a stellar classification system based on temperature and the women of Harvard Observatory classified hundreds of thousands of stars. The project spanned several decades and was funded by a grant from the widow of Henry Draper. The resulting catalogue is the Henry Draper Catalogue

16 Stellar Classification Scheme

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