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Thu Jul 16 06:53:57 UTC 2009
<SPAN class=texhtml><I>I</I><SUB><I>m</I></SUB>¥ø<SUB><I>m</I></SUB><I>s</I><I>i</I><I>n</I>¥è<SUB><I>m</I></SUB> = <I>I</I><SUB><I>e</I></SUB>¥ø<SUB><I>e</I></SUB><I>s</I><I>i</I><I>n</I>¥è<SUB><I>e</I></SUB></SPAN><BR>
If we assume equivalent density for moon and earth,<BR>
Rm/Re =2.626.<BR>
then <SPAN class=texhtml><I>d</I><SUB><I>m</I><I>e</I></SUB> = 0.38<I>M</I> * 2.626 / 0.273</SPAN> =3.656 Giga Meter<BR>
Then Inverse biquadrate Gravity constant is G" should be multiplied by 9.549*9.549.<BR>
<SPAN class=texhtml><I>G</I><I>E</I><I>F</I><I>R</I> = 9.549<SUP>2</SUP> * 2.46</SPAN> = 224.31%<BR>
The above value is reasonable because inverse square potantial is larger for outer radius. and the density of the sun converge to over 1,000 times.<BR>
ref: <A class="external free" href="http://gravity.wikia.com/wiki/UFT" rel=nofollow>http://gravity.wikia.com/wiki/UFT</A><BR>
<H3><SPAN class=editsection>[<A title="Edit section: Satellite Hypothesis of Earth" href="http://meta.wikimedia.org/w/index.php?title=User:PauloHelene/Planet_moon&action=edit&section=3">edit</A>]</SPAN> <SPAN class=mw-headline id=Satellite_Hypothesis_of_Earth><A class=new title="Satellite (page does not exist)" href="http://meta.wikimedia.org/w/index.php?title=Satellite&action=edit&redlink=1">Satellite</A> Hypothesis of Earth</SPAN></H3>
<A class=new title="Moon (page does not exist)" href="http://meta.wikimedia.org/w/index.php?title=Moon&action=edit&redlink=1">Moon</A> is nearer to <A class=new title="Earth (page does not exist)" href="http://meta.wikimedia.org/w/index.php?title=Earth&action=edit&redlink=1">earth</A> when it is full . That is to say, moon make earth reced more than earth make when it is near the sun. For constant radial gravitational center of sun, earth and moon, Earth should go further when moon is near the sun. <BR>
Unlike most satellites of other planets, the Moon orbits near the <A class=new title="Ecliptic (page does not exist)" href="http://meta.wikimedia.org/w/index.php?title=Ecliptic&action=edit&redlink=1">ecliptic</A> and not the Earth's <A class=new title="Equatorial plane (page does not exist)" href="http://meta.wikimedia.org/w/index.php?title=Equatorial_plane&action=edit&redlink=1">equatorial plane</A>. If Earth is satellite of the moon, It is Lunar stationary and orbits nearly Lunar <A class=new title="Equatorial plane (page does not exist)" href="http://meta.wikimedia.org/w/index.php?title=Equatorial_plane&action=edit&redlink=1">equatorial plane</A>.<BR>
<BR><BR>
The lunar orbit plane is inclined to the ecliptic by 5.1¡Æ, whereas the Moon's spin axis is inclined by only 1.5¡Æ.<BR>
Compared to Moon, The Earth currently has an axial tilt of about 23.44¡Æ.The axis remains tilted in the same direction towards the stars throughout a year and this means that when a hemisphere (a northern or southern half of the earth) is pointing away from the Sun at one point in the orbit then half an orbit later (half a year later) this hemisphere will be pointing towards the Sun.<BR>
<BR><BR>Typed Sign : Myoung-June Ha-Sang Paulo Kim<BR><BR><BR> <BR>> Date: Fri, 13 Nov 2009 11:36:08 +0000<BR>> From: ather24 at ovi.com<BR>> To: Translators-l at lists.wikimedia.org<BR>> Subject: [Translators-l] (no subject)<BR>> <BR>> <BR>> <BR>> Sent from my Nokia phone<BR>> <BR>> --------------------------------------------------------------<BR>> Ovi Mail: Simple and user-friendly interface<BR>> http://mail.ovi.com<BR>> <BR>> <BR>> _______________________________________________<BR>> Translators-l mailing list<BR>> Translators-l at lists.wikimedia.org<BR>> https://lists.wikimedia.org/mailman/listinfo/translators-l<BR> <br /><hr />¾ÏÈ£¸¦ ÀÒ¾î¹ö·ÈÀ» ¶§¸¦ ´ëºñÇÏ¿© ¹Ì¸® ¾ÏÈ£ È®ÀÎ¿ë ¸ÞÀÏ ¼³Á¤Çϼ¼¿ä! <a href='http://im.msn.co.kr/im/main/mainCoverDetail.asp?seq=2251&page=1&BbsCode=bbs01&ser_k=a&ser_v=' target='_new'>Áö±Ý ¼³Á¤Çϱâ</a></body>
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