Stars and Planets. PHYS 162 Class 2 1

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Stars and Planets Stars are fixed relative to each other. They produce their own light which is independent of Sun s location (thus indicating they are very far away - the Greeks understood this) TODAY. Plus Exercise #2 Planets have complicated (but predictable) orbits when viewed from the Earth. Wanderers. Brightness does depend on Sun. Small numbers of such objects (5 planets visible to unaided eye). NEXT WEEK plus Exercise #3 PHYS 162 Class 2 1

Stars and Planets What stars you see in a given night changes through the year. And depends on latitude (North- South location) Planets are located along the ecliptic and which you can see at any time changes each month/year Mostly due to which side of Earth is night and this points at different directions, that is at different stars, as Earth travels around the Sun during the year or as the Erath spins during the night PHYS 162 Class 2 2

Constellations Stars which are close to each other (in angle) form patterns called constellations Unchanging in 10,000 year timescales but position in sky varies with season: Winter vs Summer, North vs South Geological timescales stars move or disappear 10 million AD. One star no longer there. Others moved Big Dipper Today PHYS 162 Class 2 3

Constellations - Orion Very bright constellation to our south but directly overhead of Hawaii. Two bright stars which may supernova in next 100,000 years: Betelguese (Red giant) and Rigel (blue giant). Also has Orion Nebula where new stars are being formed. Mostly a Winter constellation as rises in the East at dusk in December. Orion is near the Milky Way which are stars from our own galaxy which are too far away to see as individual stars without a telescope PHYS 162 Class 2 4

Orion (Greek) or Osiris (Egypt) looks like a man with 3 stars in line forming a belt. For Greeks, Orion is hunter and chases constellation Taurus the Bull and the Pleiades (7 sisters) and is followed by the 2 hunting dog constellations Canis Major and Canis Minor. For Egyptians, identified with Osiris, god of agriculture and rebirth, and the rising of this constellation in late winter heralded the rising Nile. The pyramids seem to be in same pattern with mostly gone at other spots and the Nile overlapping with the Milky Way PHYS 162 Class 2 5

PHYS 162 Class 2 6

Orion Star Distances Stars are at different distances. Very far apart but seem close in the sky as in same direction Rigel 773 Light Years(LY) Betelguese 427 LY Nebula (sword) Saiph (right knee) 1300 LY 720 LY Ballatrix (left shoulder) 243 LY PHYS 162 Class 2 7

Star Wheel Stars move East to West over the course of one Night (in circle about the North Star) Stars move East to West by 2 hours per month and return to the same position after one Year It s just caused by Earth s daily spin and yearly orbit about the Sun A very simple device, Star Wheel, can show what stars are visible on any night during the year. One ring has 24 hours as scale while the other has 12 months/365 days as scale Star wheel depends on latitude. Northern vs southern hemisphere completely different. For Northern, the center is North Star PHYS 162 Class 2 8

Star and Planet Locator (aka Planisphere or Star Wheel) Date Time Pole star Northern hemisphere. But south of DeKalb as North Star closer to horizon (in Arizona) Horizon PHYS 162 Class 2 9

Yearly Motion: Earth orbits Sun PHYS 162 Class 1 10

Different seasons, different constellations Earth moving around Sun. night side points at different directions. Orion in January PHYS 162 Class 2 11

Different seasons, different constellations. Seen from Earth. If in northern hemisphere, see north celestial pole, in southern see South celestial pole PHYS 162 Class 2 12

Different hemispheres, different constellations Sky seen at North pole (up) and South pole (right) have completely different constellations. Point at different regions of space. PHYS 162 Class 2 13

Polaris - The North Star Polaris is almost directly overhead at the North Pole. Polaris is about halfway up from the north horizon in DeKalb. Polaris is at the north horizon at the Equator. Polaris is not visible south of the Equator. Polaris doesn t move due to the Earth s rotation. No equivalent South Star PHYS 162 Class 2 14

Rising and Setting Stars Other stars move in circles about Polaris due to Earth spinning. It takes 1 day to complete the circle. The rising and setting time of a star changes with the seasons. Stars are directly overhead (zenith) 2 hours earlier each month. PHYS 162 Class 2 15

Star trails in the northern sky As the earth spins on its axis, the sky seems to rotate around us. This motion produces the concentric trails traced by the stars in this time exposure of the night sky. The north celestial pole (NCP) is at the center. PHYS 162 Class 2 16

Star trails in the northern sky short bright trail near the NCP was made by Polaris Show Polaris is not exactly due north. If use for navigation have correction factor. See Celestial Air Navigation, War Department Technical Manual TM 1-206, 1941 (carried in kit bag by all USAAF navigators) PHYS 162 Class 2 17

Celestial Navigation Extensively taught to US Army Air Force and Navy officers during WW II (larger planes had dedicated navigator). Has beginnings of radio detection finding then. Navigation (including celestial) still taught to USAF officers in case of emergencies PHYS 162 Class 2 18

Star trails in the southern sky While the bright star Polaris lies conveniently close to the North Celestial Pole, no bright star similarly marks the pole in the South. Still, the South Celestial Pole is easily identified in the picture as the point in the sky at the center of all the star trail arcs. Can use location of different stars to determine what direction is South PHYS 162 Class 2 19

Star trails at mid-latitudes Star trails from a lower latitude (trails set beneath the horizon) PHYS 162 Class 2 20

Compare rising and setting at high and low latitudes another way of determining latitude PHYS 162 Class 2 21

Circumpolar stars Some constellations are always above the northern horizon and so always visible. They will move by 90 degrees in 6 hours due to Earth spin, and by 90 degrees every 3 months due to Earth moving around Sun 8 PM June. Cassiopeia directly below (to north) of North Star. North Star at end of Little Dipper 2 AM June. Cassiopeia to East of North Star PHYS 162 Class 2 22

July and October near Sunset in LA. Note movement of Big Dipper PHYS 162 Class 2 23

January and April near Sunset in LA. Note can now see Orion almost directly overhead in January and near Milky Way PHYS 162 Class 2 24

Summer triangle directly overhead in DeKalb. Cloud is Milky Way, tough to see if near city due to light pollution Vega Deneb Altair PHYS 162 Class 2 25

Winter triangle to South in DeKalb PHYS 162 Class 2 26

What to Remember - NS Polaris (the North Star) doesn t move due to the Earth s rotation. The angle of Polaris to the north horizon gives the observer s latitude Polaris Location directly overhead about halfway up on horizon below horizon Latitude 90 0 N (North Pole) 42 0 N (DeKalb) 0 0 (Equator) Southern hemisphere Other stars move in circles about Polaris. 1 day to complete circle. Angle between star and Polaris gives declination (N-S location). Viewing particular constellation at certain time/day also gives observer s latitude PHYS 162 Class 2 27

What to Remember - EW What time during the day a star rises, is overhead, and sets changes with the seasons look up on Star Chart or Table (right ascension is the East-West location) Changes 2 hours/month Only on the Equator can all stars be viewed from a single location Hawaii or northern Chile a good place for telescopes (all of northern or southern hemisphere plus a little bit of the other) Stars (plus accurate clock) give EW location (longitude). Used for navigation pre-1950 (in WW II) PHYS 162 Class 2 28

Lecture Feedback E-mail me a paragraph describing one topic you learned from this set of presentations. Please include the phrase When a constellation is overhead changes by 2 hours each month due to Earth s movement around the Sun in your mini-report but do not use that as your one topic. PHYS 162 Class 1 29

Navigating using Stars not on tests Historically, the most impressive navigating over long stretches of ocean was the trip from Polynesia to Hawaii. About 2700 miles (direct). Hawaii is very isolated and to find sailed north and east until Orion s belt directly overhead and then sail straight West Red lines are path used by Polynesians in outriggers. About 4000 miles PHYS 162 Class 2 30

Navigating using Stars and Sun During WW II the US Army Air Force gave exams to officer candidates. See Stephen Ambrose The Wild Blue. Those with the highest score became navigators (2 nd =bombardiers, 3 rd =pilots). My Dad, who went to Lane Tech in Chicago, was a navigator and bombardier and then instructor in New Mexico before being deployed to China in 1945. They flew their B-25 to Florida, Trinidad, Brazil, West Africa, Morocco, Libya, Egypt, Iran, India, and then China where the war ended. My dad carried navigation books, including star charts, in his kit. While flying across the Atlantic the pilot accidentally dumped most of the fuel in the ocean and as navigator, my dad had to find Ascension Island before the gas ran out. Needed good navigational skills though some early radio direction finder equipment was available PHYS 162 Class 2 31

Zodiac Constellations (not on tests) a line between the Earth and the Sun traces out a circle in the sky called the ecliptic the 12-13 constellations along the circle are the signs of the Zodiac changes with the seasons PHYS 162 Class 2 32

Zodiac Constellations (not on tests) PHYS 162 Class 2 33

Zodiac Constellations modern may add Ophiuchus between Sagittarius and Scorpio PHYS 162 Class 2 34