Difference between revisions of "March 1, 2005"
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− | <tr><td><div align="center" class="main_sm">Image Credit: [mailto:nardes@optusnet.com.au Dennis Simmons]</p> | + | <tr><td><div align="center" class="main_sm"><p>Image Credit: [mailto:nardes@optusnet.com.au Dennis Simmons]</p> |
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<p align="center"><b>A Close Approach</b></p> | <p align="center"><b>A Close Approach</b></p> | ||
<p align="left">The fact that the Moon makes close approaches to the planets demonstrates one of the important regularities of our solar system. The planets orbit within a relatively flat ecliptic plane and the Moon, orbiting near the Earth’s equatorial plane, bobs around the ecliptic. We can’t easily imagine a solar system whose planets orbit at all angles to their sun’s equator because we believe that only planets in the same direction and nearly in the same plane can survive for billions of years without collisional destruction. And so because our solar system has this regularity we can enjoy the close approaches and eclipses of distant planets by our orbitally constrained Moon. As I have commented [[March_5,_2004|before]], all planets, even giant Jupiter, are so visually small (at their biggest they are about the angular size of Plato) that it is a wonder anyone bothers to observe them! </p> | <p align="left">The fact that the Moon makes close approaches to the planets demonstrates one of the important regularities of our solar system. The planets orbit within a relatively flat ecliptic plane and the Moon, orbiting near the Earth’s equatorial plane, bobs around the ecliptic. We can’t easily imagine a solar system whose planets orbit at all angles to their sun’s equator because we believe that only planets in the same direction and nearly in the same plane can survive for billions of years without collisional destruction. And so because our solar system has this regularity we can enjoy the close approaches and eclipses of distant planets by our orbitally constrained Moon. As I have commented [[March_5,_2004|before]], all planets, even giant Jupiter, are so visually small (at their biggest they are about the angular size of Plato) that it is a wonder anyone bothers to observe them! </p> | ||
− | <blockquote><p align="right">— [mailto:tychocrater@yahoo.com Chuck Wood]</blockquote> | + | <blockquote> |
− | <p align="left" | + | <p align="right">— [mailto:tychocrater@yahoo.com Chuck Wood]</p></blockquote> |
+ | <p align="left"><b>Technical Details:</b><br> | ||
27 Feb 2005 close conjunction of the Moon and Jupiter as seen at Brisbane, Australia. Vixen 102mm f9 refractor + Televue x2.5 Powermate + Meade LPI CMOS camera + Vixen GPDX with Skysensor 2000. A 4 tile mosaic comprising 1 Jupiter and 3 Lunar. Jupiter exposure 0.250 secs; Moon exposure 0.050 secs. Images stitched together in Corel PhotoPaint 12. The 4 Galilean moons of Jupiter can be seen.</p> | 27 Feb 2005 close conjunction of the Moon and Jupiter as seen at Brisbane, Australia. Vixen 102mm f9 refractor + Televue x2.5 Powermate + Meade LPI CMOS camera + Vixen GPDX with Skysensor 2000. A 4 tile mosaic comprising 1 Jupiter and 3 Lunar. Jupiter exposure 0.250 secs; Moon exposure 0.050 secs. Images stitched together in Corel PhotoPaint 12. The 4 Galilean moons of Jupiter can be seen.</p> | ||
<p><b>Related Links:</b><br> | <p><b>Related Links:</b><br> | ||
− | [ | + | [http://www.ayton.id.au/gary/Science/Astronomy/Gary/Jupiter_Occult_20050227_CRW.jpg Jupiter Occulted ] |
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+ | <p><b>Yesterday's LPOD:</b> [[February 28, 2005|A Fractured Plateau]] </p> | ||
+ | <p><b>Tomorrow's LPOD:</b> [[March 2, 2005|LPOD Image of the Month: February, 2005]] </p> | ||
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<p align="center" class="main_titles"><b>Author & Editor:</b><br> | <p align="center" class="main_titles"><b>Author & Editor:</b><br> | ||
[mailto:tychocrater@yahoo.com Charles A. Wood]</p> | [mailto:tychocrater@yahoo.com Charles A. Wood]</p> | ||
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Latest revision as of 15:11, 15 March 2015
A Close Approach
Image Credit: Dennis Simmons |
A Close Approach The fact that the Moon makes close approaches to the planets demonstrates one of the important regularities of our solar system. The planets orbit within a relatively flat ecliptic plane and the Moon, orbiting near the Earth’s equatorial plane, bobs around the ecliptic. We can’t easily imagine a solar system whose planets orbit at all angles to their sun’s equator because we believe that only planets in the same direction and nearly in the same plane can survive for billions of years without collisional destruction. And so because our solar system has this regularity we can enjoy the close approaches and eclipses of distant planets by our orbitally constrained Moon. As I have commented before, all planets, even giant Jupiter, are so visually small (at their biggest they are about the angular size of Plato) that it is a wonder anyone bothers to observe them! Technical Details: Related Links: Yesterday's LPOD: A Fractured Plateau Tomorrow's LPOD: LPOD Image of the Month: February, 2005 |
Author & Editor: |
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