1	Astro 1050 Jan. 23, 2004 Extra Credit Astronomy Articles More about Scientific Notation, Units, and the Scale of the Universe How we name and start to describe stars Constellations, Magnitudes How the stars move across the sky The celestial sphere
2	Scientific Notation 10¹= 10 10²= 100 10³= 1,000 (one thousand) 10⁶ = 1,000,000 (one million ) You can think of this as raising 10 to some power – or just think of it as moving decimal place over some given number of steps. Think of computer speeds and disk space. 10⁰ = 1 10^-1= 0.1 = 1 / 10 10^-2= 0.01 = 1 / 100 10^-3 = 0.001 = 1 / 1,000 10^-6 = 0.000001 = 1 / 1,000,000 How to write numbers which are not powers of 10: 1 A.U. = 149,597,900 km = 1.496 ´ 10⁸ km = mantissa ´ 10^exponent
3	Arithmetic and Scientific Notation Multiplication: Multiply the mantissa Add the exponents 20 AU = (2 ´ 10¹)´ (1.496 ´10⁸ km) = (2 ´ 1.496) ´ (10¹ x 10⁸) km = 2.9992 ´ 10⁹km Division: Divide the mantissa Subtract the exponents 1 AU / 500 = (1.496 ´10⁸ km) / (5 ´ 10²) = (1.496 / 5 ) ´ (10⁸ / 10²) km = 0.2992 ´ 10⁶ km = 2.992 ´ 10⁵ km Be careful when adding or subtracting: (2.0´10⁶⁾+ (2.0´10³) = 2,002,000 = 2.002´10⁶ not 4. ´10⁶
4	Scientific notation and the metric system
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6	A light-year: Distance Not Time! speed of light = c = 3.0 ´ 10⁸ m/s distance = speed ´ time d = c ´ t light-second = 3.0 ´ 10⁸ m/s ´ 1 s = 3.0 ´ 10⁸ m light-minute = 3.0 ´ 10⁸ m/s ´ 60 s = 180 ´ 10⁸ m = 1.8 ´ 10¹⁰ m light-year = 3.0 ´ 10⁸ m/s ´ 3.14 ´ 10⁷ s (i.e. 31.4 million s) = 9.4 ´ 10¹⁵ m = 9.5 ´ 10¹² km = 9.5 trillion km = 9,500,000,000,000 km
7	Example of using Units as a check If someone says: “The time it took me to walk to class today was 10 minutes.” the number could possibly be wrong, but the statement at least makes sense. If someone says: “The time it took me to walk to class today was 10 kilograms.” something is obviously wrong. When you use a formula to calculate some answer – you can treat units just like numbers – multiplying and canceling them. The units you are left with MUST be those which match the ones expected – or you have made some mistake.
8	Another example of Units, with conversions 1 light-year = c ´ t (where c is the speed of light and t is one year) = 3.0 ´ 10⁸ m/s ´ 365 days = 1.1 ´ 10¹¹ (m ´ days /s) but we know light-years is a distance and must have “dimensions” of distance. We should have units of just meters. The fact that we have this extra (days/s) means we have left something out. If we multiply by (24 hr/day ´ 60 min/hr ´ 60 sec/min) the units will work out right and so will the numerical answer = 1.1 ´ 10¹¹´ 24 ´ 60 ´ 60 m = 9.5 ´ 10¹⁵m = 9.5 ´ 10¹² km
9	"Chapter 2:" Chapter 2: The Sky Constellations: -Originally vague -Mostly Greek -Now well defined -Total of 88 Asterisms: -Less Formal Groups
10	Big Dipper The stars in a constellation or asterism like the Big Dipper are NOT necessarily at the same distances. These are just chance arrangements as seen from Earth.
11	Names of stars Proper names mostly from Arabic Astronomers use (a, b, d, e, ... ) + Constellation in approximate order of brightness Alpha Orionis = Betelgeuse Beta Orionis = Rigel Alpha Tauri = Aldebaran Numbers and other schemes for fainter stars. (About 6000 stars are visible to naked eye.)
12	Magnitudes (m) to denote brightness Ancient system created by Hipparchus 1^st magnitude = brightest stars in sky 6^th magnitude = faintest visible to naked eye Confusing because smaller number implies brighter (Think of first magnitude as “first in class”) Astronomers want a numerical measure of Intensity (I) which is proportional to energy per unit time received from the star. Relationship between I and m turns out to be “logarithmic” (result of properties of human eye)
13	Numerical Relationship between m and I Every increase in m by 1 is a drop in brightness by a factor of 2.512 We receive 2.512 times less power from a 2^nd magnitude star than from a 1^st magnitude one. We receive 2.512 ´2.512 = 6.310 times less from a 3^rd magnitude than a 1^st magnitude We receive (2.512)⁵ times less from a 6^th magnitude star than a 1^st magnitude. The 5 comes from 6-1. Because (2.512)⁵ = 100 (not by accident) the faintest stars we can see are 100 times fainter than the brightest.
14	Apparent Visual Magnitude Scale From our Text, Horizons by Seeds
15	Formula for Intensity vs. m:
16	Examples:
17	Examples:
18	Examples:
19	Examples:
20	For Next Time…