Talk:Earth's atmosphere

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Revision as of 05:26, 22 August 2009 by imported>Paul Wormer (→‎Boltzmann distribution: new section)
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 Definition An envelope of gas that surrounds the Earth and extends from the Earth's surface out thousands of kilometres, becoming increasingly thinner (less dense) with distance but always held in place by Earth's gravitational pull. [d] [e]
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This article was ported here from Wikipedia

I have taken it apart and rebuilt with major reformatting, major deletions, majors additions, new tables and a new image. It is now a full-fledged CZ article. Milton Beychok 18:48, 18 August 2009 (UTC)

My first venture outside my field of expertise

This is my first venture outside my field of expertise. CZ needed this article, so I ported it here from WP and re-did it (see just above).

I would very much appreciate it if someone with atmospheric science expertise would offer comments and/or edits. Milton Beychok 18:59, 18 August 2009 (UTC)

Some initial thoughts, which may or may not fit.
Let's be sure to have some redlinks for radio propagation, which isn't restricted to the ionosphere (e.g., troposcatter). I'll try to fill them in.
I'm not sure if it's worth mentioning the issue of microclimatology vs. climatology/meteorology, and how terrain features can have surprising effects. This is something I learned to appreciate when working on the Vietnam-era "People Sniffer" (an ammonia detector), and also in chemical warfare.
Will spend some more time later -- I am getting some notes out of an overdue book I need to return to the library before it closes.Howard C. Berkowitz 19:29, 18 August 2009 (UTC)
Milton, in reply to your post on my talk, I think the article is excellent. As a general rule I'm against ex-wikipedia content appearing on CZ, not out of any dislike for WP (I'm a member of both) but just because I want to see CZ stand on its own feet. But putting that aside this time, I think it's excellent. CZ needs more like you. My knowledge is more extra-terrestrial, but I'll see if there's anything I can add at some point. Tom F Walker 20:30, 18 August 2009 (UTC)
Milton, it looks good to me, very readable (except for "lapse rate"). I have the following very minor comments: Maybe you should explicitly mention that the inversion layer is not shown in the figures? I was looking for it. Further you write 101,325 Pascals. I'm somewhat pedantic about this, but the accepted (counterintuitive) rule is: if name of person is in full then lowercase, if abbreviated then uppercase, e.g., 1 N = 1 newton. And one should not use plural, hence 101,325 Pascals ---> 101,325 pascal or 101,325 Pa. (Also 26,437 Pascals -->26,437 pascal). As I said, I don't know what a "lapse rate" is and its link is red. Equation 2 is the Boltzmann distribution, known from thermodynamics; maybe it is useful to mention this name? The table below --> the table on the right (or is this my browser?). That's it, cheerio, --Paul Wormer 07:05, 19 August 2009 (UTC)

(no indent) Paul, thanks for the comments:

  • I will change the Pascals to pascals.
  • As for lapse rate, I am currently gathering information in preparation for that being the next article I plan to write. Lapse rates are covered in my book about air pollution dispersion modeling ... so writng an article about lapse rates will give me a chance to cite my book.
  • I'll try to work in mention of inversion layers ... although they are not always present, only under certain conditions. So I didn't consider them to be a bona fide atmospheric layer.
  • Nothing wrong with your browser. The table was below at first. When I moved it to the right, I forgot to change the text ... which I will do now.
  • I haven't the faintest notion what the Boltzmann distribution is. Did you mean that Equation 2 "is" the Boltzmann distribution or did you mean Equation 2 can be derived from it? Can you (I hope) provide some wording that could be used in mentioning it? The two equations were obtained from the U.S. Standard Atmosphere, 1976 cited as a reference in the article.Milton Beychok 08:13, 19 August 2009 (UTC)
Paul, as of last night and this morning, I have revised the article on the points above except that I have yet to write an article on "lapse rate" (which I hope to do in a few days). However, I did add a note/reference with a very brief definition of "lapse rate". Inversion layers are now included in the discussion of the "atmospheric boundary layer" as are two referenced books that cover inversion layers. Thanks again for your comments. Milton Beychok 19:00, 19 August 2009 (UTC)

Suggestions for additional content

Milton, nicely done.

Would like to learn something about how the Earth's atmosphere evolved over the 4.6 billion year history of the Earth. Enjoyed reading about some aspects of that topic in:

Also, would like to know something about the history of our learning about the Earth's atmosphere, the pioneers and major players. I know John Dalton as a pioneer meterologist, but not much more. Anthony.Sebastian 03:03, 21 August 2009 (UTC)

Hi, Anthony. Its midnight and I was headed for bed when I saw your comment. After I've had an opportunity tomorrow to read your references to that book about "Oxygen: The Molecule That Made the World", I will respond. Milton Beychok 07:02, 21 August 2009 (UTC)
Anthony, I agree with you that this article could use a section devoted to the history of our knowledge about the Earth's atmosphere. Perhaps, some knowledgeable atmospheric scientist or meteorologist in CZ might add such a section. If some such member of CZ does not do so in the coming 3-4 weeks, I'll try to do it myself.
As for the book "Oxygen: The Molecule That Made the World", from what I read in the references you provided, it strikes me as primarily being about the origins of life and death, the evolutionary past and future of life on Earth, killer diseases and aging. Some quotes from the publisher's promotional material and from the author's website:
  • ... he unravels the unexpected ways in which oxygen spurred the evolution of life and death. He shows how oxygen underpins the origin of biological complexity, the birth of photosynthesis, the sudden evolution of animals, the need for two sexes, the accelerated aging of cloned animals like Dolly the sheep, and the surprisingly long lives of bats and birds.
  • Drawing on this grand evolutionary canvas, "Oxygen" (the book) offers fresh perspectives on our own lives and deaths, explaining modern killer diseases, why we age, and what we can do about it.
  • This book is about life, death and oxygen: about how and why life produced and adapted to oxygen; about the evolutionary past and future of life on Earth; about energy and health, disease and death, sex and regeneration; and about ourselves. Oxygen is important in ways that most of us hardly even begin to imagine, ways that are far more fascinating than the loud claims of health features.
  • The identity of LUCA, or the Last Universal Common Ancestor of all life on Earth, can be pieced together by comparing the genes of different organisms, especially from the domains of bacteria and archaea.
  • The exact sequence of our genes is less important in human ageing than the changes in their activity imposed by oxygen. The double-agent theory, introduced later in this chapter, argues that there is an evolutionary tradeoff between our vulnerability to infectious diseases in youth and the diseases of old age later in life.
If I had to define the book in a few words, I would say it is about environmental biochemistry and evolution. I think a stand-alone article about the book would be interesting. Perhaps you or someone in the biochemistry subgroup would undertake the writing of such a stand-alone article.
To sum up my my response to your above suggestion, I don't believe the book is about atmospheric science and I don't believe it should be a part of this article which is about the structure and composition of the Earth's atmosphere as it now exists. Milton Beychok 18:03, 21 August 2009 (UTC)

Boltzmann distribution

Milton, in answer to your question I wrote Boltzmann distribution, where I give (almost) your formula and use the term lapse rate. --Paul Wormer 11:26, 22 August 2009 (UTC)