LEGO SYSTEM Space : 9730


Space / 9730	9729 \| 9731

Subject:	Evolution of Earth and moon (was: Couldn't resist)
Newsgroups:	lugnet.space, lugnet.off-topic.geek
Date:	Sat, 7 Jul 2001 22:36:55 GMT
Viewed:	8944 times

> In lugnet.space, Jason J. Railton writes: > > Actually, I seem to remember that the moon's pull on the tides is mutual > (the moon is affected by the gravity of water on the Earth), and because > tidal waters drag across the surface (thus slowed by friction), this is > gradually decelerating the moon's orbit. So, it's orbit is very slowly > shrinking... Actually, you have this backwards. The friction of Earth's oceans against its solid parts is slowing the Earth's rotation down. This translates into a loss of angular momentum for the Earth. But angular momentum must be conserved. The angular momentum is transferred to the moon, so the moon is actually gradually moving *farther* from the Earth. IIRC the increasing separation of the Earth and Moon has been measured quite accurately by bouncing lasers off of the mirrors left behind by the Apollo missions. When the Earth has slowed enough so that its period of rotation equals the period of the moon's revolution, there will be no more tidal friction. The Earth will cease to slow, and the moon will cease to move farther away. Interestingly, at this point one side of the Earth will always point towards the moon -- just as, right now, one side of the Moon is always pointed towards the Earth. This state of affairs is known as "tidal locking." When this finally happens, one Earth day will be somewhat longer than 28 current Earth days. This tidal locking will take a pretty long time. In fact, some recent studies suggest that increasing solar radiation will cause Earth's oceans to evaporate in the next 500 million to 1 billion years, sooner than tidal lock is expected to be achieved. Tidal lock can also occur with an ostensibly solid body (e.g., Jupiter's moons), but it's a slower process. -- John J. Ladasky Jr., Ph.D. Department of Biology Johns Hopkins University Baltimore MD 21218

Message has 1 Reply:

		Re: Evolution of Earth and moon (was: Couldn't resist)
Hi, Long time no see, John! Have you just been lurking about? (I'm finally back from Europe myself.) Coming to Brickfest? How's JHU? (...) Weren't there other methods used recently as well? I'm not sure that any would be as accurate as a laser, (...) (23 years ago, 8-Jul-01, to lugnet.space, lugnet.off-topic.geek)

Message is in Reply To:

		Re: Couldn't resist
(...) Whoa, that's something I never thought of before! It kind of raises an interesting idea, too. If this is always a trend for the satellite (i.e., "moon") of any planet with large amounts of liquid on the surface, then maybe over time there is a (...) (23 years ago, 7-Jul-01, to lugnet.space, lugnet.off-topic.geek)

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