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Please note!

    Listed below are questions submitted by users of "From Stargazers to Starships" and the answers given to them. This is just a selection--of the many questions that arrive, only a few are listed. The ones included below are either of the sort that keeps coming up again and again, or else the answers make a special point, often going into details which might interest many users.


For a complete list, including later questions not listed below, click here.
You may also link from here to a listing of questions arranged by topic.



Items covered:

  1. About asteroids hitting Earth.
  2. The swirling of water in a draining tub.
  3. Dispensing water at zero-g.
  4. Robert Goddard and World War II.
  5. Asymmetry of the Moon's orbit.
  6. Measuring distance from the Sun.
  7. Who owns the Moon?
  8. Acceleration of a rocket.
  9. Rebounding ping pong balls (re. #35)
  10. Rebounding ping pong balls and gravity-assist
  11. Why don't we feel the Sun's gravity pull?
  12. How hot are red, white and blue (etc.) stars?
  13. How does the solar wind move?
  14. The shape of the orbit of Mars
  15. What if the Earth's axis were tilted 90° to the ecliptic?


  16. Mars and Venus
  17. Where is the boundary between summer and winter?
  18. The Ozone Hole
  19. What keeps the Sun from blowing up?
  20. Those glorious Southern Skies!
  21. Should we fear big solar outbursts?
  22. Planetary line-up and the sunspot cycle
  23. What are comet tails made of?
  24. If light speed sets the limit, why fly into space?
  25. Does precession mis-align ancient monuments?
  26. Why does the Earth rotate? Why is it a sphere?
  27. What's so hard about reaching the Sun?


  28. Where does space begin?
  29. Gravity at the Earth's Center
  30. Radiation hazard in space (3 queries)
  31. "Danger, falling satellites"?
  32. The Lagrangian L3 point
  33. Distance to the Horizon on an Asteroid
  34. Overtaking Planets
  35. Falling Towards the Sun
  36. The Polar Bear
  37. Are the Sun's Rays Parallel?
  38. More thrust in reverse than going forward?
  39. The varying distance between Earth and Sun
  40. Mission to Mars
  41. Kepler's calculation
  42. The Appearance (Phase) of the Moon


  43. Stability of Lagrangian points
  44. Can an Asteroid Impact Change the Earth's Orbit?
  45. Can Gravity Increase with Depth?
  46. Lightspeed, Hyperspace and Wormholes
  47. Why do Rockets Spin?
  48. Around What does the Sun Revolve?
  49. Why are planets in nearly the same plane?
  50. The Shapes of Rockets and Spacecraft
  51. Space Debris
  52. Teaching Nuclear Fusion
  53. Contribution of different elements to Sunlight
  54. Jewish Calendar
  55. Spaceflight Without Escape Velocity?
  56. Who first proposed a round Earth?
  57. Does Precession change the Length of a Year?
  58. The Analemma
  59. Changes of the Polar Axis of Earth
  60. Van Allen Belt and Spaceflight
  61. Nearest Star Outside Our Galaxy
  62. (a) Why are Satellites Launched Eastward?
          What is a "Sun Synchronous" orbit?
     (b) Why are satellites launched from near the equator?

  63. How Tall Can People Get?
  64. Gunpowder and Rockets
  65. Precession
  66. Solar Sails
  67. (a) Distance to the Big Dipper
     (b) Big Dipper star names



  68. Was Moon landing a hoax?
  69. Clockwise or counter-clockwise?
  70. Isotopes in Center of Earth
  71. Density of the Sun's corona and the "Scale Height"
  72. Did Tesla extract free energy from thin air?
  73. What does "lapse rate" mean?
  74. Motion of the Sun through space
  75. Teaching about tides
  76. Distance to the Horizon
  77. Can geocentrist theory still be possible?
  78. Can Earth's rotation reverse, like its magnetic polarity?
  79. Why is the Earth round?
  80. The De Laval Nozzle
  81. Why 23.5 degrees?
  82. What is Gravitational Collapse?
  83. Can Earth capture a second moon?


  84. How far does the Earth's gravity extend?
  85. How far is the Moon?
  86. Twinkle, twinkle little star-- How I wonder, what you are.
  87. Teaching about seasons
  88. Space Launches by Cannon--A
  89. Space Launches by Cannon--B
  90. The Southern Pole of the Sky
  91. Do Astrologers use Wrong Positions for Planets?
  92. Why does the Moon have bigger craters?
  93. Why does Gravity Exist?
  94. Atmospheric "Thermals"--Triggered by Electric Forces?
  95. What would happen if Earth rotated faster?
  96. Where do gravity of Earth and Sun balance?
  97. The Ultimate Astronomy Tool
  98. High Temperature in Cold Outer Space


  99.   Refraction of sunlight and starlight by the atmosphere
  100.   Advice to a would-be astronomer
  101.   The effect of the Color of Light on the Output of Solar Cells
  102.   What is "radiation"?
  103.   Height of the Atmosphere
  104.   How does the upper atmosphere get so hot?
  105.   History of the use of De Laval's nozzle on rockets
  106.   Why don't Space Rockets use Wings?
  107. Distance of horizon on Mars
  108. Stopping the rotation of Earth?
  109. The equation of a parabola
  110. When does Jewish Sabbath start in the far north?
  111. Where is the center of the global landmass?
  112. What if our Sun was a much hotter star?
  113. Finding the north direction


  114. Why not use a heat shield going up?
  115. When and where can rainbows be seen?
  116. The unusual rotation of the planet Venus
  117. Why not use nuclear power for spaceflight?
  118. "Doesn't heat rise?"
  119. Have any changes been observed on the Moon?
  120. Why isn't our atmosphere flung off by the Earth's rotation?
  121. Can kinetic energy be reconverted to work?
  122. Does any location get the same number of sunshine hours per year?
  123. Speed of toy car rolling off an inclined ramp
  124. Acceleration due to gravity


  125. Re-entry from Space
  126. Balancing a Bicycle
  127. Is Absolute Zero reached on the Moon?
  128. Why isn't Longitude measured from 0° to 360°? "Constellation" or "Asterism"?
  129. "Position of the Stars when I was Born"
  130. Rotation of the Earth's Core"
  131. How hot is the Sun?
  132. How much weaker is gravity higher up?
  133. Eclipse of Venus?
  134. The Big Bang


  135. Thanks for the "Math Refresher" in Spanish
  136. The Pressure of Sunlight
  137. How is the instant the seasons change determined?
  138. Operation of Ion Rockets
  139. Physical Librations of the Moon
  140. The De-Laval Nozzle
  141. Why does the space shuttle rotate at take-off?
  142. Cold Fusion
  143. What if a Neutron Star hit the Sun?
    Why did the Moon appear Red?
  144. Centrifuge for Whirling Astronauts
  145. What Holds Galaxies Together?
  146. View of Earth and Moon from Mars
  147. Appearance of the Moon (1)
  148. Appearance of the Moon (2): Does it "roll around"?
  149. Altitude of the tail of the Big Dipper
  150. Sudden decompression, 5 miles up


  151. Do Negative Ions make you Feel Good?
  152. Shape of the Earth's Orbit
  153. Questions about the Solar Corona:
                       (1) Why don't its particles separate by weight?
                       (2) What accelerates the solar wind?
  154. Why does the rising Sun look so big?
  155. Drawing a Perpendicular Line in Rectangular Coordinates
  156. Unequal Seasons
  157. Is the Big Dipper visible from Viet Nam?
  158. Holes in a Solar Sail
  159. Consequences of no more solar X-rays
  160. Science Fair Project on the Size of the Earth
  161. Superposition of Waves
  162. The Sun and Seasons
  163. If the Earth's Rotation would   S t o p...     (1)
  164. If the Earth's Rotation would   C h a n g e...     (2)
  165. What if the Earth stopped in its orbit?
  166. Fast Trip to Mars     (1)
  167. Fast Trip to Mars     (2)


  168. Spacecraft Attitude
  169. What makes the Earth rotate?
  170. Energy from the Earth's Rotation?
  171. How were planets created?
  172. Does Precession of the Equinoxes shift our Seasons?
  173. "Zenial Days" on Hawaii
  174. Sun's Temperature and Energy Density of Sunlight
  175. Teaching about energy in 8th grade
  176. About the jetstream
  177. What would a breach in a space station do?
  178. Gravity at the Earth's center
  179. Freak waves on the ocean
  180. Citation on "Bad Greenhouse" web page
  181. How can radio waves carry sound?
  182. Do Cosmic Rays produce lightning?
  183. Star positions shifted by the atmosphere
  184. The equation of time
  185. Launch window of the Space Shuttle


  186. No "Man in the Moon" from Australia?
  187. Picturing the Sun from a different distance
  188. What makes the sun shine so brightly?
  189. Re-entry from orbit
  190. Effects of weightlessness on one's body
  191. Blimps on Mars
  192. Planet Mars "huge" in the sky, in August 2005?
  193. Astronomy and telescopes for ones' own children
  194. Does the solar wind have escape velocity
  195. Astronomy for cliff-dwellers of New York City
  196. Portable star finder
  197. What if the Moon was closer? (2 questions)
  198. Why doesn't the Moon have an atmosphere?
  199. Telling a 3-year old about the atmosphere (2 questions)
  200. Three-color vision


  201. Superconductors work, universe expands--with no energy input. Why?
  202. Shuttle orbit and Earth rotation
  203. Worrying about Wormholes and Black Holes
  204. What should I study?
  205. The greenhouse effect
  206. Separation between lines of latitude and longitude
  207. Motion of air: hot to cold, or high pressure to low?
  208. Removing "Killer Asteroids"
  209. Strange light seen from Hawaii
  210. Is the Sun attached to another star?
  211. What if the Sun turned into a black hole?
  212. Do absorption lines have a Doppler shift?
  213. What are "Electromagnetic Waves"?
  214. Why are the two daily tides unequal?
  215. Why air gets cold higher up--a wrong explanation


  216. Any limits to Newton's 2nd Law
  217. Gravity at the Earth's center
  218. Does the Earth follow a "squiggly" orbit?
  219. Third grader asks: how far to zero gravity?
  220. "How does inertia affect a rolling ball"?
  221. What determines the quality of a telescope?
  222. Why design maps around curved lines?
  223. "Drag" by the Sun on the Earth's motion
  224. Does precession affect the time of summer? (2 questions)
  225. Newton's law or Bernoulli's?
  226. Does the universe have an axis?
  227. Frictional electricity
  228. Syllabus for catching up on physics
  229. Parabolic reflector
  230. At what distance does Earth start looking spherical?
  231. Is the Sun on fire?
  232. Confusion about the "Big Bang"
  233. How did Tycho calibrate his instruments?


  234. Gases that fill balloons
  235. Asian tradition on the start of winter
  236. Why our year starts at January 1
  237. Sticking a hand out of a window...
  238. One year of continuous sunlight?
  239. Shielding out radio waves
  240. The way gravity changes with depth
  241. The Sun's Axis
  242. "Gravity Particles"?
  243. A "short stay on Mars"
  244. Weight and mass
  245. "The Moon Hoax"
  246. Shuttle re-entry from space
  247. Energy levels: plus or minus?
  248. How can such small targets be accurately hit so far away?
  249. A teacher asks about compiling lesson plans
  250. Why the Moon has its phases
  251. How can a spacecraft self-rotate?
  252. Stability during a rocket launch
  253. Boiling point of water in space


  254. Konstantin Tsiolkovsky
  255. The Color Indigo
  256. Electromagnetic Waves and Electromagnetic Induction
  257. Why do orbits curve?
  258. The "Sundial Bridge" in Redding
  259. (a) Temperature in space
      (b) Exposure to the space environment: Freeze or burn?
  260. Remote sensing of Thunderstorms
  261. What keeps Electrons away from the Atomic Nucleus?
  262. The Stars on the Winter Solstice of 2012
  263. Mars Sunset
  264. Gravity at the Center of Earth
  265. The Big Bang
  266. "How Often are Stars Born?"
  267. The Path of Lightning
  268. Launching a Rocket from an Airplane
  269. The Equation of Continuity
  270. The Four Corners Monument
  271. Which among the brightest stars is closest to N Pole?
  272. Gravity Assist
  273. Is the Centrifugal Force "Real"?
  274. How do we know Earth is bigger than the Moon?
  275. Sound Waves on the Sun?
  276. What if we had to give up use of Satellites?
  277. Rotation of Venus
  278. "Proper Motion" of Stars
  279. Doppler Shift from the Big Bang
  280. Science Fiction scenario for a Flight to Mars
  281. Motion of the Moon


  282. "Iridium" flares
  283. Discovering Planets outside the Solar System
  284. Landing speed of airplane
  285. The Hubble Constant
  286. Are Summer Nights Darker?
  287. "Space Elevator"
  288. Black Holes
  1. Don't use Diesel fuel in a gasoline car!
  2. How bright is our Sun when seen from space?
  3. What is a "field"?
  4. Outer limits of the Solar System
  5. Gravitational Energy
  6. Stresses on a Railroad Bridge
  7. The constellation of Cassiopeia
  8. Tracking of radioactivity carried by winds
  9. Why can't the space shuttle reenter "slowly"?
  10. "The Standard Model of the Universe"
  11. About the Maya Calendar
  12. Are light sabers possible?
  13. Can the heat of sunshine make the Earth expand?

  14. About Mountains
  15. "Will the World end in 2012?" (a,b)
  16. Advice to graduating High School Student
  17. Could a (heat resistant!) ship float on the Sun?
  18. Reducing the fuel weight of the Space Shuttle?
  19. How do Rockets Land?
  20. The Earth's Spin reduced by Global Warming
  21. Circumnavigation of the Sun
  22. Are nuclear forces merely gravity at very close distance?
  23. Changing the Earth's Rotation
  24. Why are planetary orbits eccentric?
  25. Forces on Comet-dwellers
  26. Nuclear reactors and bombs
  27. Why doesn't magnetism affect electro-magnetic waves?
  28. Is humanity changing the climate, or is it the Sun and the Earth's magnetism?
  29. Advice to home-schooling parent
  30. Science of Clothing
  31. Calculating a Collision
  32. The Coriolis force and more
  33. Why isn't the solar system stratified by density?

  34. Tapping Atmospheric Electricity
  35. Global Disaster in 2012?
  36. What's the difference between speed and velocity?
  37. Effect of Gravity on Electromagnetic Waves
  38. Why is North the reference, not South?
  39. The lowest 700 km of our Atmosphere
  40. Doomsday 2012?
  41. Where does a Flying Bird get its Support?
  42. Why does Sun seem to move?
  43. Why don't waves disturb each other?
  44. Does the Moon's motion Change?
  45. Big Dipper and Weather
  46. What IS the Ecliptic?
  47. Precession, Greenhouse and more...
  48. Latest Sunrise, Earliest Sunset
  49. Falling off the Earth's Bottom?
  50. Rolling down a slopea>
  51. Pelton Wheel Efficiency
  52. Energy loss rate of our Sun
  53. The Sun's distance
  54. Why does sunlight have a continuous spectrum?

  55. Harry Paul Sprain's perpetual Motion Device
  56. Can the plasma that fills space help spaceflight?
  57. Spiral arms of our galaxy
  58. What powers a glider?
  59. UFOs
  60. Maximum speed for propeller-driven airplane?
  61. The speed at which gravity spreads
  62. Layers of the Earth
  63. Why doesn't the sky fall on us?
  64. Imagine a non-rotating Earth
  65. Flying east with a 1° error
  66. US Flag on the Moon
  67. Rope stretched across a long lake...
  68. About studying electronics in the USA
  69. Publish Stargazers as a book?
  70. Charging of Earth by lightning:   +   or   –  ?
  71. If no stars were seen--could Earth's orbital motion be discovered?
  72. Local Solar Time in Iceland
  73. Is orbital motion same as free fall?
  74. Build a straight tower in warped space?

  75. The 2011-2 sunspot maximum
  76. Is Earth adding mass?
  77. Shape of a "bottle rocket"
  78. Fantasy spaceflight vs. reality
  79. Telling a 7-year old about stars "dying"
  80. (1) Why is lightning jagged?     (2) What did Tesla do?
  81. How can the north wall of my house be in sunlight?
  82. Heating the inside of Earth
  83. Dawning of the Age of Aquarius
  84. Why is hydrogen the fuel of choice?
  85. Gamma ray bursts
  86. Counter-clockwise swirling motion in the atmosphere
  87. Leap years on the Jewish calendar
  88. Earth axis tilt and climate (1)
  89. Earth axis tilt and climate (2)
  90. Does the Sun move?
  91. Can the Sun interfere with the visibility of the Big Dipper?
  92. Why can't we feel the Earth's rotation?
  93. Is our galaxy held together by a central black hole?
  94. Why don't gas planets just evaporate?
  95. Source of the Sun's energy
  96. Point of gravity equilibrium
  97. Solar system motion through the Galaxy
  98. Spaceflight by waiting for the Earth to turn?
  99. Does Earth rotation affect size of creatures?
  100. The year 2012
  101. Are our galactic arms winding up or opening up?
  102. Advice to a home-schooling mother
  103. Are all stars we see suns?
  104. Newton's 3rd law
  396A Posssibility of Asteroid Hitting Earth (1)
  396B Posssibility of Asteroid Hitting Earth (2)
  1. Author's IQ
  2. Global Warming caused by Sun getting nearer?
  3. The year 2012
  4. Empty space behind North Star?
  5. The year 2012 and the 26,000 year cycle
  6. "Quarter Squares"
  7. Do Rockets need "something to push against"?
  8. Sunrise-Sunset asymmetry
  9. Re-entry from orbit
  10. Earth Axis and Gravity
  11. The year 2012
  12. Choosing an Aerospace Career
  13. Advice for "new" physics teacher
  14. Paradox of Time Travel
  15. Is 7th grade Earth science boring?
  16. Air Resistance
  17. Experimenting with Microwave Oven
  18. Is the Sun losing mass?
  19. Sun's position at noon, south of equator
  20. Fred Hoyle's theory of the Sun's Corona
  21. Why don't Protons and Electrons combine?
  22. Days in a Year
  23. Position of the Moon in the sky

  24. Earth crossing Galactic Equator?
  25. Is the geocentric theory ruled out?
  26. Does the Southern Sky have a Pole Star?
  27. What is the fate of starlight energy?
  28. Double-slit diffraction of particles
  29. Does the Sun overhead reduce effective weight?
  30. Evidence for Global Warming ?
  31. Distances to the Equator
  32. Weight on the Equator and at the Pole
  33. Why doesn't gravity overcome buoyancy?
  34. The Prime Meridian
  35. Is L2 in the Earth's Shadow?
  36. In what direction is Israel from NY?
  37. Is the World Overpopulated?
    Magnetic Energy
  38. Magnetic Carnot Cycle
  39. Defining the Equator

  40. Second Moon for Earth?
  41. The year 2012 and a distant companion of our Sun
  42. Distance between two points on a sphere
  43. Getting sucked I by Gravity
  44. The work of Nikola Tesla
  45. Firing a cannon straight up
  46. Does one see half the sky--or more, or less?
  47. Why are nights dark?
  48. The origin of the Solar System
  49. Flying to other planets
  50. The heat of the Sun's corona
  51. Crossing our galaxy's equator
  52. Newton's 3rd law--in statics and dynamics
  53. Barycenter of Earth-Moon system
  54. What if Earth rotated in only 10 hours>




If you have a relevant question of your own, you can send it to
stargaze["at" symbol]phy6.org
Before you do, though, please read the instructions    

125.   Re-entry from Space

    I am taking an Introduction to Astronomy course and the question of manned space flight came up as we studied atmosphere. Supposedly, upon re-entering the Earth's atmosphere, the re-entry vehicle, say the Command Module from a Saturn V rocket, had to do so within the arc of a precise angle or else it would bounce off of the atmosphere helplessly into space.

    The instructor for this class, a Ph.D. in Physics, seems to think that the Van Allen Belt is the reason for this need for precision, but I believe it has something to with the ionosphere. ... He also told the class that upon launching, all rockets must tend toward the path of least resistance in the Van Allen Belts, which he surmised is near the poles, where, as he put it, "the hole in the donut" is. This to me sounds fishy. As you suggest, plenty of missions, both manned and unmanned have passed through the Van Allen Belts unscathed (or at least at this writing I presume they have.)

    But I ask you, and I beg you for a reply, what is it exactly that causes so much trouble to reentering manned space vehicles to earth? And what part of the atmosphere is it that they must hit at precisely the correct angle in order to avoid bouncing off of it and deflecting back into space?

    I hope you will answer this so that I can at least set my mind and that of the class and the Instructor to rest.

Reply

    The main factor dictating the mode of reentry is the need to dissipate a large amount of kinetic energy, without burning up in the process. Orbital velocity is about 8 km/sec, whereas a typical rifle bullet has about 1 km/sec, so mass for mass, a reentering space vehicle has 64 times more kinetic energy. Dissipating it safely is not easy.

    It is done mostly by forming a shock wave in the rarefied high atmosphere, which heats the air passing through it, heating which extracts energy from the motion. Hot air still hits the vehicle, also the shock wave glows and radiates infra red and visible light, and these heat the vehicle, all reasons why a heat shield is needed--e.g. the tiles on the underside of the shuttle, which faces forward during reentry.

    In order not to overload the heat shield, the descent angle is shallow, so that the shock forms where the atmosphere is not too dense. As the shuttle slows down, it needs (I guess) some lift to keep its trajectory from getting too steep; if the lift were somehow to get too big, it could in principle bounce the shuttle back into space, which would be bad, since it then comes down again far from the planned area, and probably at a bad angle.

    Going through the "hole in the doughnut" is hardly ever done (if at all), because the result is an orbit steeply inclined to the equator and the ecliptic. Most orbits we want are close to those planes. Once you launch into a steeply inclined orbit, it costs far too much to change the inclination. The way manned missions pass the inner radiation belt (that's the intense one) is go through it quickly, it may take just 15-20 minutes to cross.

    The international space station is well below the radiation belt. However, because Russia has no launch station close to the equator (as we do), in order to allow Russian resupply ships to reach it, the station's orbit has a fairly steep inclination to the equator, about 57 degrees. That brings it closer to the magnetic poles as you have suggested, but actually increases the risk, because it now skirts the auroral zone, and electrons of the polar aurora can create x-rays when hitting the station. Also, at high latitudes the protection by the Earth's magnetic field, against (rare) solar outbursts, is much reduced. By the way, space launches from near the equator are preferable, because spacecraft then get some (small) help from the rotation of the Earth. See
           
http://www.phy6.org/stargaze/StarFAQ3.htm#q62 .  

126.   Balancing a Bicycle

Subject: QUESTION FOR DR. STERN - HOW A BICYCLES WHEEL KEEP IT UPRIGHT

    Please explain how the spinning wheels of a bicycle help the rider keep the bike upright? My daughter (13 yrs old) and I have tried to research this but seem not to be able explain the complete relationship between centripetal force, angular velocity of the wheel and precession. Thanks in advance of your help.

Reply



    Your question was addressed in
            http://www.phy6.org/stargaze/Snewton3.htm

    I copy that section below:
===============================================
The Bicycle

    A more subtle example is afforded by the bicycle . It is well known that balancing a bicycle standing still is almost impossible, while on a rolling bike it is quite easy. Why?

    Different principles are at work in each case. Suppose you sit on a bike that stands still, and find it is leaning to the left. What do you do? The natural tendency is to lean to the right , to counterbalance the lean with your weight. But in moving the top of your body to the right, by Newton's 3rd law you are actually pushing the bike to lean more to the left. Maybe you should lean to the left and push the bike back? It might work for a fraction of a second, but now you are really out of balance. No way!

    On a rolling bike, balance is kept by a completely different mechanism. By slightly turning the handlebars right or left, you impart some of the rotation of the front wheel ("angular momentum") to rotate the bike around its long axis, the direction in which it rolls. That way the rider can counteract any tendency of the bike to topple to one side or the other, without getting into the vicious circle of action and reaction.
===============================================

You may note that when the bike is rolling slowly, you have to turn the handlebars by quite large angles to keep balance, but when its speed it up, little twists are sufficient. That is because at slow speed, the front wheel has less angular momentum. However, some turning is always essential. About 50 years ago I owned a British "Raleigh" bicycle which had a lock built into its handlebar pivot. When it was locked, the bike would still roll, but only absolutely straight ahead. Neither I nor any of my friends managed to ride it and keep it balanced when the handlebars were locked.

    The design of the front wheel "fork" is quite interesting, turning forward like the letter j. This is an "inverse caster" which makes the ride less stable--but allows a skilled rider nimble moves. If you ever look at a motorcycle, or at the bikes used in a circus on the high wire, they lack this "letter j" feature, the wheel axis is always in line with the handlebar shaft. That helps stability but reduces agility.
 

127.   Is Absolute Zero reached on the Moon?

    I would like to know if the temperature on the surface of the moon while there is no light (under a dome which you would install on the moon for example) is the zero absolute (0 degres Kelvin)?

Reply

Probably not, though it does get mighty cold on the Moon during lunar night.

    It has to be the night, because during the day it is hard to avoid the Sun's heat. Suppose you build a dome and place your equipment under it, in the shade. The Sun will heat the dome, and the dome will warm up, but after a while it will reach equilibrium (like any object in sunlight)--as much heat is radiated out as infra-red as is received from the Sun as regular sunlight.

    Where is it radiated to? I would guess, about half goes up, half goes down. Thus the shade won't be cool: if the equipment under it cannot get rid of heat, it will gradually become as hot as the roof. Similarly, it can get pretty hot in a closed car standing in the sunlight--even in a closed van, without windows for light to enter!

    Nights are cold, very cold, but 14 days are not enough to reach absolute zero. Some heat still comes in from earthlight, and I suspect the Moon contains enough radioactive elements to generate a little heat of its own, the way the solid Earth does. Also, some heat is always left over from the lunar day.
 

128.   Why isn't Longitude measured from 0° to 360°?

Hello, We are trying to find out why longitude goes from 0 to 180 and from 180 back to 0, rather than 0 to 360 degrees. Could you possibly answer this question for us. Thank you.

Reply

I don't know. Maybe because in the age of exploration, ships set out from England and other European ports which had longitudes near zero, and moved either east or west. It also turns out that the jump from -180 to + 180 (the international date line) is conveniently set in the middle of a big ocean.
 

129.   "Constellation" or "Asterism"?

Hello, I just happened across your Stargazers to Starships glossary in a Onelook.com dictionary search for "constellation." It says that the dippers are constellations. That's what I thought too until I was recently corrected. Apparently they're asterisms, not constellations. Do you have any idea when this distinction took hold?

Reply

    I don't know, but let me guess. I think astronomers are to blame. When star charts were first made, all stars had to be assigned in some way, so astronomers divided the sky into areas, and naturally, they chose the areas to correspond to constellation. If you look at a star atlas, you will see the sky divided into rectangles and pie shapes, a bit like the map of the states in the western USA. This lets an astronomer state that a nova, or a comet, appeared in (say) Aries, or assign some distant galaxy to the constellation. That too is why, for instance, Section 10 on "Kepler and his Laws" mentions "Tycho's nova in Cassiopeia."

    Astronomers therefore use the word "constellation" to refer to an area in the sky. A new term was now needed for those conspicuous formations involving a few bright stars, and that was"asterism."

    I did not use "asterism" on my web site, though. Most users are not astronomers, and might not even have known Cassiopeia before reading about it. So I stick to common English usage and talk about the "constellation Cassiopeia." In general, given choice of a technical term and plain language, I stick to plain language, which is more user friendly. Amateurs with telescopes and star charts will know what I mean even if I'm not completely technical.

    Look over the site. There's a lot more there, about 100 files.
 

130.   "Position of the Stars when I was Born"

Dear Sir:

        Today is my birthday, and I heard that if I got up early and looked outside, that I would see the stars in the position of when I was born, I'm 48 today. Would you please send me a picture of these positions. I live in northwest suburbs of Chicago. I need an explanation too?

Reply

    I have no star charts available--that is not something I work with. You should really go back to whoever told you what you wrote. Keep in mind two things, however:

(1)         The positions of "proper" stars do not change. Any motion they have relative to us appears so slow (because of the distance) that the eye does not notice. The constellations we see are essentially the same as the ones observed by ancient Greeks. Over the year, the times they rise and set wander over 24 hours, and on your birthday they indeed occupy the same positions (more or less) as they did at the SAME TIME on the day you were born. On any birthday.

(2)         The planets move all the time (and it's the planets which astrologers track). However, none of their motion is commensurate with the motion of the Earth--that is, with the length of the year. After exactly 48 Earth-years, they will not occupy the same positions in the sky.

    Oh to be 48 again! (I'm 72). Congratulations!
 

131.   Rotation of the Earth's Core

    Hi! I am student teaching in a third grade classroom in Tennessee. We just began a unit on space last week. One of my curious little minds asked if the center of the Earth rotated as Earth rotated. I told him that I was unsure, but I would think it would. I've searched and cannot find anything regarding this aspect of Earth. Could you please answer my question and maybe point me to something to back this up for him and the rest of the class? Thank you so much.

Reply

    We now know that the Earth has a core of about half its radius, made mostly of iron  --  molten iron, though in its middle is a smaller solid "inner core." (We know all that by studying the distribution of earthquake waves, reaching us from earthquakes on the opposite side of the Earth. On their way they pass near or through the core, and studying their arrival tells about what they passed through).

    So, does the core rotate at the same rate as the outer part of the Earth-one turn per day-- or not?

    The two MUST rotate together. If there is an inner ball and an outer ball, somewhere there must be a boundary between the two, at which they touch each other.

    (In fact, they do not just touch, but press very hard. Any point on the boundary has above it the weight of 2000 miles or rock, pressing down!)

    If they do not rotate together, one must slide past the other, and they will rub together. There will be friction.

    The faster one will try to get the slower one to speed up.
    The slower one will get the faster one to slow down.
    And this goes on until they move together.

Are you with me, third grade?
 

132.   How hot is the Sun?

Dear David,

    My name is Brendan. I really like to learn about things like space and geography. When I talk about the temperature of the sun, people always ask me, How do you know? So, how do you know the temperature of the sun?

Reply

You ask a very good question. First of all, it shows you think like a scientist. Most people--students in schools, too, even teachers--ask "what is the answer?" How many years is the age of the universe? How far from Earth is the Moon? What is the highest mountain on Earth? Answers like that can be read in books, but once you have them, you really haven't added to your understanding. The meaningful question is usually "How do we know"?

    The temperature of the Sun can be inferred from its color. All hot objects emit light, or radiations similar to light, and the hotter they are, the further their light is to the blue end of the rainbow sequence. A hot pot radiates in infra-red (your eye cannot see it, but your hand can sense it if held close). A red-hot piece of iron glows dark-red, a lightbulb glows yellow (and in a flashlight with a weak battery, orange--the wire in it is not as hot). The very hot star Sirius (brightest non-planet in the sky) emits light near the blue, but since it emits other colors too, to the eye it is bright white.

    The Sun is sort of yellow. Not just that: spectrographs can measure how much light is emitted in each color, and verify that its colors are distributed as you would expect in a hot object. (Light from a rarefied gas would be different, it gets its color not from heat but from the properties of the atoms that emit is; the colors of neon lights for instance--also fluorescent lamps). More than that, the distribution tells what the temperature is. I believe it is 5780 degrees above absolute zero, give or take 10 degrees.

    Glad you asked.

Now about the height of the tallest mountain... see
        http://www.phy6.org/stargaze/Strig1.htm
and the distance of the Moon:
        http://www.phy6.org/stargaze/Shipprc2.htm
 

133.   How much weaker is gravity higher up?

Hi mr stern

        I'm from Mexico, and I'm studying mechanical engineering. I was reading the FAQs and I didn't find an answer suitable for my problem. I seek everywhere I can, and haven't found an equation describing gravity for my needs. I've found one that describes gravity depending on the latitude, but I need one depending on altitude. I know gravity has an accepted value of 9.81 m/s2 at sea level, but as I get higher and higher in the atmosphere or as I take my car and reach my city 2000 meter above sea level, which is the gravity there?

Thanks.

Reply

If the Earth were an exact sphere, with density everywhere varying the same way with depth (a good approximation), gravity would only depend on the distance r from the Earth's center, and would decrease with distance like 1/r2. That was first proposed by Newton (the story and calculation are in section #20 of "stargazers") and has been confirmed with great accuracy since then. The equatorial bulge of the Earth and variations of valleys and mountains modify this only slightly (and the effects of rotating with the Earth need always be added, too); see section 24a).

    Rising 2 kilometers means about 1/3000 of the Earth's radius r, so gravity at that altitude is weaker by about 1/1500. You will need an accurate instrument to observe the difference. A good pendulum clock should vary by about 1 minute/day from one at sea level at the same altitude (unless the attraction of the mountains reduces the difference, about which I am not sure.)
 

134.   Eclipse of Venus?

(Received March 31, 2004)

    Just visited a web site and a mail address of yours appeared. My question: There appears to be a partial eclipse of Venus when you use the backyard telescope. Is this a normal event, or is it connected to the transit-of-Venus expected in June?

Thanks

Reply

No, no no! There cannot be an eclipse of Venus, because no dark object is close enough to block its light, or shade it from the Sun. What you are seeing are the phases of Venus, similar to those of the Moon. Like the Moon, Venus shines in reflected sunlight, but unlike the Moon, we never see all of its sunlit face (it would have to be exactly on the opposite side of the Sun). Usually we see part of the sunlit side--often just a thin crescent--and part of the dark one. What you saw through your telescope was also seen by Galileo (1609 or so) with the first-ever astronomical telescopes, and once he understood it, he realized Venus must be a planet orbiting the Sun, strong evidence that Copernicus was right.

    The transit of Venus occurs when the planet comes between us and the Sun, when it appears to be a dark spot crawling across the Sun's disk. At that time, in a little over two months, Venus will present to us only its dark side. As it is now approaching that position, the side we now see is mostly dark and it appears as a crescent.
 

135.   The Big Bang

There are several aspects of the Big Bang theory that puzzle me greatly, none more than the consequences of expansion.

    As explained by current theory, we are not at the centre of the expansion. Since the whole universe is expanding, we would not remain at the origin. Therefore the universe should appear asymmetrical to us. i.e. there should be more of it in one direction than the other. As matter in the universe is emitting light, one side of the view from Earth should appear brighter than the other, all else being equal.

    If we are not at the centre of the universe then as we look further into space and hence back in time, when the universe was smaller, one part of the sky should appear older than all the rest. The further we look and the further back in time we go that area should be smaller still. If we could see right back to the big bang it would be the oldest point in the sky.

    Finally the universe is not expanding at the speed of light so the light emitted from the early universe should have simply rushed past us long ago and become undetectable. How do we see it now?

Reply

Cosmology is not my field, so I limit myself to just a few observations. Your view of the expanding universe has a basic problem, being rooted in concepts of the era before Einstein. Namely, you view as space being infinite and eternal, and regard the universe as a collection of matter and energy expanding in this space, starting from some initial instant which was the big bang, and from some initial location.

    Current thinking is different. The matter and energy of the universe are filling all the space available to them, and have always done so. That space, however, is itself expanding. The big bang is not an explosion in space, like that of a bomb, but an expansion of space itself.

    A common analogy is the surface of an expanding rubber balloon. The rubber is filling all the area available to it, but that area is itself growing, and as it grows, the thickness (in our case, the density of matter in the universe) is gradually decreasing. The way 3-dimensional space is expanding can be described mathematically, but it is not otherwise intuitively graspable, except by that analogy--or perhaps (not sure how well that works) as expansion inside a higher dimensionality.

    Look at it another way. If the universe started 13.5 billion years ago (a good guess), as we look into space, no place we see is more distant that 13.5 billion light years. The volume available is thus limited, though any point sees the same expansion, just as on the balloon.



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Author and Curator:   Dr. David P. Stern
     Mail to Dr.Stern:   stargaze("at" symbol)phy6.org .

Last updated 9-17-2004