Talk:Mars/Archive 9

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Archive 9

Archive 10

Opposition and minimum distance time.

Latest comment: 13 years ago3 comments2 people in discussion

The statement that the times of opposition and closest approach differ by up to 8.5 days does not mean the gap between successive oppostions varies by 8.5 days. That varies by much more. Example: in 2037, Mars reached a minimum of 73.838 Gm on Novemeber 11.3332, and eight days later, on Nov 19.382,5 reached opposition with a distance of 74.74066 Gm. The statement says the gap can be as much as eight and a half days. Saros136 (talk) 03:52, 1 October 2010 (UTC)

Thank you Saros for pointing out my error. I misunderstood the article and thought my clear brief statement was equivalent to what the article was trying to state. I have since sought relevant information and correctly stated the relationship of successive oppositions with a reference in the article. If that can be improved upon I welcome it. --Fartherred (talk) 18:01, 2 October 2010 (UTC)

You're welcome. I doubt I could improve your edit. Saros136 (talk) 02:58, 3 October 2010 (UTC)

Opposition page

Latest comment: 13 years ago3 comments1 person in discussion

The opposition primer is referring to close approaches, not oppositions, in the bottom table. The wording is misleading, granted. Higher up they discuss the fact that close approaches do not occur at the same instant as an opposition, and in one table make it clear they refer to the approaches in the vicinity of the oppositions. Good, but some later numbers are referred to as the distance at oppositions. Inspection of the table shows that it is indeed the time of close approach. The Mars opposition of 2003 did not happen on the 27th. The other reference, that I deleted, only covers decades, not nearly enough the a sentence mentioning an approach distance that has not been reached for tens of thousands of years. I'm substituting the number for greatest close approaches, form Solex. Saros136 (talk) 22:01, 2 October 2010 (UTC)

Oh, by the way, my source for the far close approach distances was Solex. Saros136 (talk) 22:42, 2 October 2010 (UTC)

I've got more ideas on the subject and sentence. Stay tuned. Saros136 (talk) 22:02, 2 October 2010 (UTC)

Picture of Mars Caption

Latest comment: 13 years ago2 comments2 people in discussion

The caption under the picture of Mars says it's from the Hubble, but the pic info says it's a "Global mosaic of 102 Viking 1 Orbiter images" —Preceding unsigned comment added by 94.196.177.210 (talk) 09:33, 12 October 2010 (UTC)

You are correct. Thanks for the catch.—RJH (talk) 15:08, 12 October 2010 (UTC)

Unverified statement

Latest comment: 13 years ago1 comment1 person in discussion

The following statement was tagged as unverified in the article, so I'm moving it here for cleanup.

In the eight century, the Persian astronomer, Yaqūb ibn Tāriq, attempted to estimate the distance between the Earth and Mars in his Az-Zīj al-Mahlul min as-Sindhind li-Darajat Daraja.

The source listed for this statement was:

Sachau, Eduard (2001). Alberuni's India: an account of the religion, philosophy, literature, geography, chronology, astronomy, customs, laws and astrology of India about A.D. 1030. Routledge. p. 68. ISBN 0415244986. {{cite book}}: External link in |title= (help)

It looks like a valid source, but it does not confirm the statement. I haven't found any other source that will confirm the statement either, so at this point it is looking like possible misinformation. What the source does say is that the author of the Vishnu-Purâna lists distances between the planets, but there is nothing about them being measured using astronomical instruments. Yaqūb ibn Tāriq was noted mainly for his translation of Indian astronomy texts.

If somebody can provide a reliable source, then we can move the statement back into the article. Thanks.—RJH (talk) 18:06, 9 November 2010 (UTC)

metallicity

Latest comment: 14 years ago2 comments2 people in discussion

the first paragraph tells us this is a star with a lower metallicity then the sun, whence it is not supposed to easily form rocky planets, but also says it has a ten times more massive debris disk then the sun. i think that is kinda paradoxal, since my understanding is more debris actually promotes the formation of planets, so either the indicator of metallicity for rock is flawed (it surely seems so), and i think since secondary factors but the primary star play significant roles in the formation of debris disks it is the most logical,(the inference of planets for metallicity then being "spurious") or it remains completely unexplained that there is a relation between a lot of debris but still not a planet (wich seems illogical), i don't mind paradoxes much personally, they keep me thinking, but i wonder what it contributes to our understanding of star systems.24.132.171.225 (talk) 08:45, 7 February 2010 (UTC)

A debris disk isn't necessarily the same thing as a protoplanetary disk. A debris disk consisting of fine dust can decay over time, so the fact that Tau Ceti has a denser debris disk may only mean that its disk is much younger than the Sun's. Plus a debris disk doesn't contain much mass, so it may only require the collision of a couple of large asteroids, for example. I.e. it is random and subject to variation. Finally, the subject of a star being more likely to have planets when it has a higher metallicity is also a statistical quantity rather than an iron-clad rule. Thus there will be exceptions.—RJH (talk) 16:34, 7 February 2010 (UTC)

Proxima Centauri/Tau CETI

Latest comment: 13 years ago2 comments2 people in discussion

Someone showed me this, which might me of interest to the article. Don't know anything about anything though, and it's probably a hoax.

http://projectavalon.net/forum/showthread.php?t=18677 —Preceding unsigned comment added by 62.72.110.11 (talk) 09:48, 9 June 2010 (UTC)

Yes a hoax from a blog, and so unusable here. Extraordinary claims require extraordinary evidence.—RJH (talk) 20:57, 9 June 2010 (UTC)

Work needed

Latest comment: 13 years ago10 comments6 people in discussion

Hello everyone! This article currently appears near the top of the cleanup listing for featured articles, with six cleanup tags. Cleanup work needs to be completed on this article, or a featured article review may be in order. Please contact me on my talk page if you have any questions. Thank you! Dana boomer (talk) 17:51, 8 November 2010 (UTC)

Tags I have noticed:

Unlike Earth, Mars is now geologically and tectonically inactive
reactions between iron and the excess oxygen may be the reason Mars has much more[vague] iron in its crust and mantle than does the Earth
attempted to estimate the distance between the Earth and Mars in his (Az-Zīj al-Mahlul min as-Sindhind li-Darajat Daraja)

-- Kheider (talk) 18:51, 8 November 2010 (UTC)

I thought I had this article cleaned up at one point after adding a bunch of cites and making revisions, but still it remained on the cleanup list. Seems like articles remain there in perpetuity once they are listed. Am I the only one helping take care of this page?—RJH (talk) 18:57, 8 November 2010 (UTC)

I think you are the primary. I keep a closer eye on the "Orbit and rotation" and "Close approach" sections, but I have not followed the rover missions in the last ~12 months. I think due to the on going Rover missions/orbiters this page gets hit regularly with cn tags. Mars has 205 references, more than any planet. Even the Earth has only 176 references. -- Kheider (talk) 19:13, 8 November 2010 (UTC)

The cleanup listings have been switched to a new bot, so they will be updated more. Check out the link I gave above to the featured articles cleanup listing - the same bot also does the project listings. Dana boomer (talk) 17:15, 9 November 2010 (UTC)

I think that all of the issues have been dealt with, although the table hasn't updated itself yet. Thanks.—RJH (talk) 20:13, 11 November 2010 (UTC)

Update the section on life on mars. Article claims that amounts of methane and formaldehyde could have come from volcanic/geologic process's. Mars is volcanically and geologically dead. HerrSticks (talk) 02:21, 13 November 2010 (UTC)

Mars is not geologically dead or even areologically (if that would be the right word for the analogous study of Ares) dead. It never developed plate tectonics, but had other tectonic activity. It has no presently active volcanoes, but there is still heat flow from a hot core that might have molten regions. The article is correct in suggesting that volcanic, geologic or biologic processes causing the methane would be consistent with our present state of knowledge. It is a pity I cannot give a reference for that. --Fartherred (talk) 04:40, 13 November 2010 (UTC)

Yes. Neukum et al (2004) states that, "calderas on five major volcanoes on Mars have undergone ... phases of activity as young as two million years, suggesting that the volcanoes are potentially still active today".—RJH (talk) 20:03, 16 November 2010 (UTC)

I have a few comments to add to the first two bulleted tag items above. To say "Unlike Earth, Mars is now geologically and tectonically inactive" is imprecise and probably incorrect. First, what does "geologically" inactive mean? Mars has a lot of active geological processes today (e.g. mass wasting, wind erosion and deposition, etc.). Second, if the phrase is meant to mean no internal (volcanic, tectonic) processes are active, this would have to be based on seismology and heat flow data. Only one seismometer has operated on Mars (Viking 2), which did record a low-magnitude quake. Golombek et al. (1992) suggests that Mars remains seismically active at the present time. Mars is probably still volcanically active too, although at a very low rate. We currently have no heat-flow data, so it's unknown exactly how warm Mars' interior currently is or isn't.

As for the second item, my understanding is that the anlayses of Martian meteorites and models of Mars' bulk density suggest that its mantle is enriched in iron as iron oxide (FeO). Some theories hold that Mars accreted from two populations of plantesimals: One was rich in metallic iron, and the other rich in water. The two were able to chemically interact early in Mars' history (before all the iron sank to the core) to form FeO and hydrogen, with the hydrogen readily escaping into space. See Boyce, J. (2009) The Smithsonian Book of Mars, for a discussion of the topic for general readers, and Barlow, N. (2008). Mars: An Introduction to Its Interior, Surface and Atmosphere, for more details. Hope this adds to the discussion. Schaffman (talk) 23:14, 11 December 2010 (UTC)

Martian temperatures

Latest comment: 13 years ago5 comments4 people in discussion

The article says: "Martian surface temperatures vary from lows of about -87 °C during the polar winters to highs of up to -5 °C in summers."

But another source (MarsNews.com :: Focus Sections :: The Planet Mars) says: "While the average temperature on Mars is about 218 K (-55 °C, -67 F), Martian surface temperatures range widely from as little as 140 K (-133 °C, -207 F) at the winter pole to almost 300 K (27 °C, 80 F) on the dayside during summer" (I suppose this is in the equatorial areas).

Another interesting fact is this: "The meteorology mast on the lander has observed a rapid drop-off in temperatures just a few feet above the surface, and one detailed 24-hour measurement set revealed temperature flucuations of 30-40 degrees Fahrenheit in a matter of minutes." MARS PATHFINDER WINDS DOWN AFTER PHENOMENAL MISSION. But this was written in 1997, so new relevant information could have collected since then. Hipporoo (talk) 04:55, 5 December 2010 (UTC)

Mmm, I guess it depends on who you trust to give you the temperature information: the people who send spacecraft to Mars or some generic web site. It would be nice to use primary sources for that information though.—RJH (talk) 23:32, 6 December 2010 (UTC)

We've known for a long time that the temperature at the winter poles can drop to 140K, the condensation temperature of CO2 on Mars [Leighton, R.B.; Murray, B.C. (1966). Behavior of Carbon Dioxide and Other Volatiles on Mars. Science, 153(3732), 136–144.] This is about -133° C. The way the article is worded now: "...lows of about -87 °C during the polar winters.." is wrong and needs to be fixed.Schaffman (talk) 22:08, 11 December 2010 (UTC) 22:06, 11 December 2010 (UTC)

That "about -87 °C" (while still apparently wrong) looks like one of those over accurate approximations we get from sloppy conversions. I'll bet someone took the quite rough figure of "about -125 °F" and converted it to Celsius. The 7 on the end implies a precision that was never in the original figure. Gee I wish America would properly metricate, then all this confusion would go away. HiLo48 (talk) 22:32, 11 December 2010 (UTC)

Yep, we'd have had a successful Mars Climate Orbiter mission, too. Schaffman (talk) 00:00, 12 December 2010 (UTC)

is there life on mars

Latest comment: 13 years ago4 comments4 people in discussion

is there life on mars —Preceding unsigned comment added by 70.24.115.84 (talk) 23:15, 6 December 2010 (UTC)

It's a definite maybe.—RJH (talk) 23:29, 6 December 2010 (UTC)

You are going to want to think along the lines of extremophiles. -- Kheider (talk) 23:39, 6 December 2010 (UTC)

Nobody knows. Schaffman (talk) 22:25, 11 December 2010 (UTC)

Phobos Lifespan

Latest comment: 13 years ago1 comment1 person in discussion

Hello everyone! The article states in relation to Phobos "In about 50 million years it will either crash into Mars’ surface or break up into a ring structure around the planet." This information was taken from http://nineplanets.org/phobos.html By Bill Arnett; last updated: 2004 Nov 20. However on May 10th 2008 Dr. Bijay Kumar Sharma submitted an article about this subject. In the article he recalculates the descent of Phobos and found that Phobos has much less time left and will crash into Mars in 10.4 Million Years. He also states that Phobos will reach the Roche Limit in 7.6 Million Years, at that point Phobos will break apart into a Saturn-like ring. Information about Dr. Sharma's article can be found at: http://arxiv.org/abs/0805.1454 Here is a direct link to the article itself in PDF format: http://arxiv.org/ftp/arxiv/papers/0805/0805.1454.pdf WNSwins (talk) 02:41, 13 December 2010 (UTC)

Dates of Martian time periods are off

Latest comment: 13 years ago1 comment1 person in discussion

The age of the Hesperian/Amazonian boundary given in the article (1.8 bya) is a lot younger than what is most commonly cited. Although the absolute age is very uncertain and could vary by a factor of 2, I've seen it usually given as somewhere between 3.2 and 2.0 bya. (See Hartmann and Neukum, 2001 and Hartmann, 2005.) A readily accessible discussion of this is in Hartmann, W.K. (2003) Traveller's Guide to Mars; Workman: New York, pp. 33-34. Schaffman (talk) 20:10, 18 December 2010 (UTC)

Surface pressure of atmosphere

Latest comment: 13 years ago1 comment1 person in discussion

Is the atmospheric pressure indicated representative of the mass of the atmosphere independent of gravitation, or is it as per definition of pascals, a measure of actual pressure exerted in the Martian gravity field? Lucy Skywalker (talk) 21:47, 2 January 2011 (UTC)

acidic or alkaline surface

Latest comment: 13 years ago2 comments2 people in discussion

In the first paragraph under the 'Life' section it is stated that the Martian surface is acidic. However in the third paragraph in the same section it is stated that the soil has a very alkaline pH. These appear to be contradictory statements. Can someone who knows the correct conditions of the surface/soil. please resolve this apparent conflict? --Ddraig2 (talk) 01:01, 4 January 2011 (UTC)

I presume the two statements in question are:

Soil: "...the Martian soil has a basic acidity of 8.3..."

Life: "...that the soil has a very alkaline pH and it contains magnesium, sodium, potassium and chloride."

Both of these statements are in full agreement. However, using the word 'acidity' could be confusing to some (and obviously is). Does changing that word to 'pH' clear things up? --Xession (talk) 20:16, 4 January 2011 (UTC)

Actually I was referring to the last sentence in the 1st paragraph: "....Martian surface would have been too salty and acidic to support terrestrial life". A pH of 8.3 is not acidic under anyone's definition. I would also comment that the statement 'basic acidity' is an oxymoron. I am a chemist and the use of the term 'acidity' as a synonym for 'pH' while popularly used is scientifically unsupportable. Something can be acidic, or basic, or neutral (Ddraig2).

Edit request from Nightdave, 18 January 2011

Latest comment: 13 years ago3 comments3 people in discussion

{{edit semi-protected}} NASA Mars resources: http://mars.jpl.nasa.gov

Nightdave (talk) 20:47, 18 January 2011 (UTC)

Exactly what is your request? HiLo48 (talk) 21:47, 18 January 2011 (UTC)

I'll be happy to make the edit for you when you say what you want edited specifically. Inka ⁸⁸⁸ 23:17, 18 January 2011 (UTC)

Length

Latest comment: 13 years ago4 comments4 people in discussion

Is there any area of this article that could be shunted off to a sub-article to trim its massive length? Serendi ^pod ous 09:31, 26 January 2011 (UTC)

The article is already sectioned off into numerous articles leaving just abroad overview of everything that is Mars in this article. Generally the length of an article is not an issue so long as the information is complete and doesn't repeat information continuously throughout. In the case of Mars there's an incredible amount of information and it warrants a long, thorough page. --Xession (talk) 14:26, 26 January 2011 (UTC)

There's a few steps that I think could be taken. To me, some of the Exploration section seems a little too detailed and could be better summarized. (For example, I think it only needs to say when a probe arrived at Mars; not when it was launched.) The "Future Missions" section could be moved to its own article and summarized in a couple of sentences. There are also a few paragraphs scattered throughout the article that seem to cover tactical details at an excessive level and could be better summarized. (Example: "Two photographs, taken six years apart...".) I also wonder whether we really need to know what spacecraft discovered specific tactical details on Mars? Thanks.—RJH (talk) 16:27, 26 January 2011 (UTC)

Yes, each probe has its own article for such dry details. Look for anything that has its own article and trim away... Abductive (reasoning) 23:46, 28 January 2011 (UTC)

Pressure at the bottom of Valles Marineris?

Latest comment: 13 years ago2 comments2 people in discussion

If I am reading the section correctly, the pressure of Mars' atmosphere changes more slowly with altitude than it does on Earth. So does anyone know what the pressure would be at the bottom of the deep sections of Valles Marineris, 7 km down. Maury Markowitz (talk) 22:27, 28 January 2011 (UTC)

Hellas Planitia is actually the lowest point on Mars at a little more than 7-kilometers deep. The article states that the pressure at the deepest point of the basin should be around 1,155 Pa (.17 psi) while the mean surface pressure of Mars is 636 Pa (0.09 psi). Valles Marineris should have a comparable pressure at the lowest depths. --Xession (talk) 22:45, 28 January 2011 (UTC)

Original units were clearer?

Latest comment: 13 years ago16 comments3 people in discussion

According to IUPAC recommendations (see IUPAC Green Book http://old.iupac.org/publications/books/gbook/green_book_2ed.pdf and also page 1387-1388 of http://www.iupac.org/publications/pac/67/8/1377/pdf), the units ppm, ppb and ppt should not be used. That's why I have replaced them. Also, I think that chemists as well as astronomers understand the meaning of the prefixes mu for 1E-6 and n for 1E-9. Please let's discuss this here and not start an edit war! RolfSander (talk) 22:52, 4 March 2011 (UTC)

Wikipedia has it's own standards. For scientific articles, this means using "the units employed in the current scientific literature on that topic". There are a large... okay, huge number of scientific journal articles about Mars that employ ppm.—RJH (talk) 23:32, 4 March 2011 (UTC)

I can see your point now, thanks for the link. I work in atmospheric chemistry. Publications in this field currently have a mix of the old "ppb" and the new "nmol/mol". Although "ppb" still occurs more often, there is a trend to the new notation. Thus, I think both would be consistent with the WP-MOS recommendation which says: "In scientific articles, use the units employed in the current scientific literature on that topic. This will usually be SI, but not always". However, I see another problem with the old units. The WP-MOS says: "Only in the rarest of instances should ambiguous units be used". I can see at least 3 ambiguities with the old units:

1) "ppb" may either refer to mass fraction or mole fraction, which are quite different.
2) The "b" in "ppb" stands for billion, which can either be 1E9 or 1E12, see Long and short scales.
3) "ppt" is even worse: if may either refer to parts per trillion (1E-12) or to parts per thousand (1E-3).

RolfSander (talk) 00:53, 5 March 2011 (UTC)

I've asked for input from the members of the WikiProject Astronomical Object. If the consensus turns out to be to convert the units and if #1 is a problem, then I'm not sure a straight conversion of units would work. We would need to find appropriate sources with units in "nmol/mol".—RJH (talk) 18:19, 5 March 2011 (UTC)

My immediate reaction is to use ppm. If ppb is considered too ambiguous, fractions less than 1ppm can be expressed as eg. 4×10^-2 ppm. I know that's weird, and contrary to the 'official' units, but astronomy is full of such things (e.g. wavelengths in angstroms, distances in parsecs etc). Besides, IUPAC is not the relevant body to make such recommendations; the IAU is. Notice that the NASA-produced File:Martian Methane Map.jpg uses parts per billion. Of course any such ppm usage should state whether it is by mass or by number. Modest Genius ^talk 18:35, 5 March 2011 (UTC)

If IAU is the relevant body for you, do you know if they have any recommendations regarding this question?RolfSander (talk) 18:57, 5 March 2011 (UTC)

On concentrations, I'm not aware of any. Their web page on units discusses SI units etc, but is of no use here because 1) that deals only with dimensional units, but concentration is dimensionless, 2) the page clearly states that some very common astronomical units (angstrom, micron etc) should not be used, which is clearly neither enforced nor supported by the community, and 3) the 'official' recommendations should serve to inform us, but not bind us - the WP policy states 'use the units employed in the current scientific literature', which is not necessarily what the standards bodies proclaim is the 'correct' unit. Modest Genius ^talk 01:41, 6 March 2011 (UTC)

You are right, using the recommended SI units is clearly neither enforced nor supported by the community. I have a hard time understanding why this is so. This is not nitpicking as some people may think. Refusing to use SI units can even destroy a spacecraft. Here on the Mars page readers probably know what I refer to. If not, take a look at the Mars Climate Orbiter. RolfSander (talk) 16:31, 6 March 2011 (UTC)

Yes I do. In the case of Wikipedia, much of the style guide was built through a process of consensus. In some instances there were presumably objections to blanket enforcement of the SI standard; specifically when certain fields have preferred non-SI unit conventions and particularly when the non-SU units are more convenient to use. (For example, using cgs for describing planetary density or Janskys in radio astronomy.) I think it is just going to take time to change over.—RJH (talk) 23:36, 6 March 2011 (UTC)

I'm well aware of MCO, and could get into a very detailed discussion about why certain units have or have not been adopted by practising scientists, and the costs and benefits those entail. But this is not a forum, and this tangential direction of discussion is not helping us reach a consensus as to which units of atmospheric concentration are best to use on wikipedia. Modest Genius ^talk 23:54, 6 March 2011 (UTC)

Ok, let me try to summarize the current status then: RolfSander prefers using SI units, Modest Genius and RJH don't. No consensus here. However, I hope we all agree with the WP-MOS which says: "Only in the rarest of instances should ambiguous units be used". Here is my suggestion for a consensus: We keep ppm and ppb but add the information to all occurences if this is a mass fraction (kg/kg) or a mole fraction (mol/mol). AFAICS, on the Mars page all numbers are mole fractions. RolfSander (talk) 20:43, 7 March 2011 (UTC)

Certainly, that seems sensible to me. Of course ppm / ppb should never be used without stating whether they're by mass or by number. Either a footnote or a simple 'mass fraction' in the prose would be fine. Modest Genius ^talk 21:13, 7 March 2011 (UTC)

Good, looks like we've found a consensus. I'd like to wait for a comment from RJH though. BTW: "...should never be used without stating whether they're by mass or by number..." They NEVER should but they ALWAYS are! RolfSander (talk) 22:11, 7 March 2011 (UTC)

I don't believe that this information is necessarily readily available. For example, the NASA Mars Fact Sheet provides abundances in ppm without specifying the type. I suspect the convention is to use whatever form is most readily measured spectroscopically, which I would presume is by number.—RJH (talk) 16:10, 8 March 2011 (UTC)

Interesting! Even you (although very familiar with the topic) have to admit that you don't know for sure what ppm means here. I cannot understand why you are opposed to using non-ambigous units at least in the cases where we do know what is meant. Anyway, I checked the CH4 value in the original paper by Formisano et al. They use the expression "ppbv". Assuming an ideal gas, this is equal to mole fraction. Thus I assume that the other numbers are also mole fractions. RolfSander (talk) 19:53, 8 March 2011 (UTC)

Right, ppm in the sense of "by volume" appears to be the common usage in the astronomical literature for planetary atmospheres. We're following what is available in the literature, which is easier to cite and is a Wikipedia standard.—RJH (talk) 21:10, 8 March 2011 (UTC)

Water-worn structures on Mars

Latest comment: 13 years ago2 comments2 people in discussion

The section about water-worn structures on Mars under Hydrology is muddled (as was the source material under Water on Mars, to be fair). The description of the outflow channels is OK, but IMO spends too long on reasoning against the water origin without also presenting the evidence for water origin. More pressingly though, as in the daughter article, there's a critical confusion here between the dendritic, Noachian, valley networks and the huge, single thread, Hesperian outflow channels. These are fundamentally different things, well recognised as such in the literature, and it is in fact the valley networks that present the more compelling evidence for a warm, wet early Mars (which is surely where this section should be headed). This is totally unclear as the article stands.

If no-one has any comments, I'll make a discreet rewrite of this section for clarity at some point in the near future. And given the FA status of the article, I promise not to muck it up. And also not to noticeably increase the length!

DanHobley (talk) 03:16, 31 March 2011 (UTC)

I'd say, WP:SOFIXIT applies here. As long as WP:NPOV is maintained, I don't think anybody is going to complain too much about an improvement to the article. Thank you. Regards, RJH (talk) 14:44, 31 March 2011 (UTC)

Epoch vs. Period in geologic history section

Latest comment: 13 years ago8 comments3 people in discussion

I know this will sound pedantic to some, but Noachian, Hesperian, and Amazonian are periods, not epochs. The epochs are subdivisions of the periods (e.g. early Noachian, middle Noachian, late Noachian, etc.). I think the article should comply with standard stratigraphic nomenclature. I can change this if no one objects. Schaffman (talk) 14:01, 18 April 2011 (UTC)

Unfortunately the scholarly literature is pretty inconsistent about this. There are more uses of "Nochain epoch" than there are of "Nochian period", for example. I think we should probably discuss it first.—RJH (talk) 16:32, 18 April 2011 (UTC)

You're right; the literature is inconsistent. I'm curious though where you got the "more uses of Noachian epoch than period..." from. I did a Google Scholar search and got the opposite result. There were nearly twice as many instances of Noachian period over Noachian epoch (193 vs. 100). The inconsistancy in the literature doesn't surprise me too much. Not all Mars researchers are familiar with stratigraphic principles, and journal editors don't always do their job well. Still, I'm curious to hear from others on the topic. You got me thinking that maybe the period/epoch convention is strictly a North American thing. If so, I stand corrected. Schaffman (talk) 19:57, 18 April 2011 (UTC)

You're correct, there are more instances of "Noachian Period"; I think I was doing some odd search combinations, which gave me the opposite result. I added a request for comment on the Astronomical Objects WikiProject.—RJH (talk) 20:10, 18 April 2011 (UTC)

I agree, it probably ought to be period. Though it's only just occurred to me that it would be far more sensible if it were eon, based on comparison to the lengths of divisions on Earth! But there you go, it's not. DanHobley (talk) 00:33, 19 April 2011 (UTC)

I think the reason the time length of periods on Mars is so large compared to Earth is due to inadequate resolution, absence of a fossil record to examine, and the less dynamic nature of Mars’ geologic history. The time periods are based on the stratigraphic relationships of rock units that can be mapped from space (or historically for the Moon, through telescopes). For better or worse, these mappable units are grouped into time-stratigraphic systems (for Mars: Noachian, Hesperian, Amazonian). The geologic time equivalent of system (at least in North America) is the period. On Earth, the time-stratigraphic equivalent of eon is eonothem, a term rarely used, and one certainly not in use when planetary geologic mapping began in the 1960s and 70s. Schaffman (talk) 13:48, 19 April 2011 (UTC)

It turns out the Geology of Mars article has been using 'Period' for some time. It would make sense to be consistent between the two and use 'Period' in this article as well. Thanks. Regards, RJH (talk) 20:19, 19 April 2011 (UTC)

As there was no further discussion, I implemented the agreed upon change of 'epoch' to 'period'. Thank you.—RJH (talk) 21:13, 25 April 2011 (UTC)

Degrees C and F, relative

Latest comment: 13 years ago2 comments2 people in discussion

In the Climate section it says that temperatures in the south varies by 30C (86F) more than they do in the north. This is wrong as it is a relative temperature not an absolute one 30C corresponds only to 54F. —Preceding unsigned comment added by 93.162.119.14 (talk) 05:38, 27 April 2011 (UTC)

Good catch! Thanks. Regards, RJH (talk) 21:36, 27 April 2011 (UTC)

Planetary embryo (?)

Latest comment: 12 years ago2 comments2 people in discussion

"Hf-W-Th evidence for rapid growth of Mars and its status as a planetary embryo" by Dauphas and Pourmand: Mars allegedly is a "oligarch", a protoplanet, while Earth is some kind of later collision product. Rursus dixit. (^mbork³!) 10:43, 31 May 2011 (UTC)

That's interesting, but it appears to be a preliminary result at this time. Regards, RJH (talk) 15:04, 3 June 2011 (UTC)

Edit request from 198.102.153.2, 2 June 2011

Latest comment: 12 years ago2 comments2 people in discussion

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{{Vertical images list|align=right|image1=Karte Mars Schiaparelli MKL1888.png|image2=Lowell Mars channels.jpg|image3=Mars HST Mollweide map 1999.png|width=200px|caption1=Map of Mars by Giovanni Schiaparelli|caption2=Mars sketched as observed by Lowell sometime before 1914. (South top)|caption3=Map of Mars from [[Hubble Space Telescope]] as seen near the 1999 opposition. (North top)}}

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{{multiple image|direction=vertical|width=200|image1=Karte Mars Schiaparelli MKL1888.png|image2=Lowell Mars channels.jpg|image3=Mars HST Mollweide map 1999.png|caption1=Map of Mars by Giovanni Schiaparelli|caption2=Mars sketched as observed by Lowell sometime before 1914. (South top)|caption3=Map of Mars from [[Hubble Space Telescope]] as seen near the 1999 opposition. (North top)}}

This rest of the article is using {{multiple image}} and this will make the caption font and image margins uniform throughout the article. Thank you. 198.102.153.2 (talk) 22:32, 2 June 2011 (UTC)

Done. Thanks! Samwb123^T-C-E 02:20, 3 June 2011 (UTC)

Trimming images

Latest comment: 12 years ago1 comment1 person in discussion

I did some trimming of the images in this article because it was getting steadily bloated with new additions, which significantly impacts the article download time. There is already a Mars gallery on the commons. Regards, RJH (talk) 19:09, 6 June 2011 (UTC)

areoid vs "sea level"

Latest comment: 12 years ago2 comments2 people in discussion

A recent edit summary:

(added reference and mention to the ""areoid"" of Mars -- which is another term for its mean surface gravity, a measure analogous to zero sea level on Earth.)

On Earth, sea level may be the median altitude but it is not the mean altitude, and local gravity is not constant on the geoid (though potential energy ought to be). Nor is "sea level" on Mars defined as a mean of anything.

The geoid is defined as a surface perpendicular to local gravity, which on the oceans coincides with mean sea level. An areoid can be defined similarly, but I'm less sure that atmospheric pressure (which defines 'sea level' on Mars) would be constant on such a surface, and I'm confident that local gravity would not be. —Tamfang (talk) 04:26, 28 June 2011 (UTC)

Yes, I agree. Though the reference to sea level is probably the clearest way to describe what this is is a single sentence - and I think more detail would be inappropriate here. I've made some minor adjustments... feel free to change again. DanHobley (talk) 13:34, 1 July 2011 (UTC)

surface gravity

Latest comment: 12 years ago13 comments6 people in discussion

Equatorial surface gravity is given as 3.711 m/s² = 0.376 g; but 3.711/9.81 = 0.378. —Tamfang (talk) 03:50, 26 March 2011 (UTC)

Yes and I don't think we need three digits anyway. Most sources list it as 0.38.—RJH (talk) 17:17, 26 March 2011 (UTC)

What are the extremes (polar and equatorial)? —Tamfang (talk) 19:16, 26 March 2011 (UTC)

On Earth at least, the surface gravity at the equator is about 1/291 (=0.34%) less than at the Pole.[1] From the centripetal force article, F = mrω². The ω is about the same for Earth and Mars, so the Force would be reduced by the ratio of the two planets radii (0.53). Assuming I got that right, then the percentage is slightly higher than on the Earth (0.53/0.38 = ×1.4).—RJH (talk)

Rotation isn't the only thing contributing to the difference. —Tamfang (talk) 23:37, 5 April 2011 (UTC)

Besides radius, what else are you suggesting?—RJH (talk) 15:02, 6 April 2011 (UTC)

What does 0.53/0.38 get you? —Tamfang (talk) 23:58, 6 April 2011 (UTC)

The radius is 0.53 Earth, while the gravity is 0.38 Earth. Thus the ratio of the centripetal force to the gravitational force is 1.4 times that of the Earth. 1.4 × 0.34% = 0.48%. So, for this back of the envelope calculation, the gravity at the equator is roughly 0.48% less than the gravity at the pole. That doesn't match your result below though, which shows a reduction of 1.63%. Shrug.—RJH (talk) 15:59, 7 April 2011 (UTC)

Using the given numbers for mass, equatorial and polar radius, and equatorial rotation speed, and applying the spherical approximation, I get polar gravity 3.7582 and equatorial gravity 3.6970 m/s²; but GM/R² is accurate only when the mass is spherically symmetric, and besides I don't know how much the Tharsis bulge affects the gravity. So I wish I knew where to look for better estimates of the gravity at the poles and at the top of Pavonis Mons. —Tamfang (talk) 23:58, 6 April 2011 (UTC)

I'm pretty sure these values are out there in the literature, but it's proving tricky to track down. I can tell you though that the gravitational anomaly at long wavelengths across the Tharsis bulge is about 0.5 Gal (i.e., 0.005ms^-2), and the anomaly associated with the specific volcanoes around that area is between 1 and 3 Gal (i.e., 0.01-0.03ms^-2, c. 1% of total gravity!) - see papers by Smith et al. (1999; Science) and McKenzie et al. (2002; EPSL). I suspect this huge bulge in the gravity field in one hemisphere is why you don't see the actual figures for g at the pole and "equator" quoted very often. Nevertheless, I'll try to find a paper that actually gives absolute values (probably in the Viking literature from the late 70s early 80s). And yes, I think you're right that there's more to the calculation than radius & rotational speed - the way to do it properly appears to require solving for the spherical harmonics, not just going for the spherical approximation. DanHobley (talk) 13:27, 7 April 2011 (UTC)

Infact,Mars can be lived on!It might have some water.It might or might not have oxegin.But that is ok.Because we can take care of that.The best way of getting oxegin is planting plants on it. — Preceding unsigned comment added by 137harnsberrya (talk • contribs) 00:28, 6 August 2011 (UTC)

Dan, the surface gravity at the pole is given as 3.758 m/s² and 3.711 m/s² at the equator in H.H. Kieffer et al. (1992) Mars; University of AZ Press, p. 29. This is based on the difference between equatorial and polar radius (GM/R²). Not sure how these numbers have changed with more recent geophysical data, but that's what's out there in the older literature. Schaffman (talk) 13:22, 18 April 2011 (UTC)

OK, I think I get this now. The spheroid (AKA, "geoid", "areoid"), which is the 1st harmonic spherical approximation - the one that lets the planet bulge out at the equator, but nothing else - gives values of 3.758 and 3.711 m/s² at the pole and equator respectively. This is calculated purely in abstract, based on known bulk planetary density and geometry. However, more recent satellite observations of the actual magnetic field have shown that the volcanoes (and associated ?basaltic intrusions) really do affect local gravity at least a bit, with the amount of perturbation to the areoid you see depending on the scale you're looking at - as you would expect. The maps of the gravitational anomalies in the Smith and McKenzie papers are both describing deviations away from this (hypothetical) areoid. Hence, the answer to Tamfang's question is - it depends on the scale you look at. Tharsis gives a broad wavelength bulge of about 0.5 Gal, but with local anomalies corresponding to each volcano of between 1 and 3 Gal (= 0.01-0.03 m/s², c. 1% of the total gravity, c. 25%-75% of the difference in average gravity between the pole and equator!). DanHobley (talk) 15:54, 29 April 2011 (UTC)

Of course, the assumption that gravity figures are constant over time, is not entirely correct. Cheers, Greenodd (talk) 23:37, 11 August 2011 (UTC)

Differences in the sources

Latest comment: 12 years ago2 comments2 people in discussion

Параметр	English Wikipedia	Allen's astrophysical quantities, 2000:294-297 ^[1]	NASA [1] ^[2]	NASA [2] ^[3]	NASA [3] ^[4]
Semimajor axis of orbit	227,939,100 km 1.523 679 AU	227.93664×10⁶ km 1.52366231 AU	227.92×10⁶ km	227,943,824 km 1.523662 A.U.	-
Orbital period	1.8808 Julian years, 686.971 days	1.88071105 Julian years (Sideral)	686.980 days	1.8808476 Earth years, 686.98 Earth days	1.8808476 y
Synodic period	779.96 days	779.9361 days	779.94 days	-	-
Eccentricity	0.093315	0.09341233	0.0935	0.0933941	-
Inclination to ecliptic	1.850° to ecliptic	1.85061 (deg.)	1.850 (deg.)	1.85 degrees	-
Longitude of ascending node	49.562°	49.57854 (deg.)	-	-	-
Equatorial radius	3,396.2 ± 0.1 km	3397 km	3396.2 km	-	3396.19 ±.1
Volume	0.151 Earths, 1.6318×10¹¹ km³	0.149 Earths	0.151 Earths, 16.318×10¹⁰ km³	0.151 Earths, 1.63116×10¹¹ km³	-
Mass	6.4185×10²³ kg	0.64191×10²⁷ g	0.64185×10²⁴ kg	6.4169×10²³ kg	0.641693±.000064 ×10²⁴ kg
Density	3.9335 ± 0.0004 g/cm³	3.94 g/cm³	3933 kg/m³	3.934 g/cm³	3.9340±.0008 g/cm³
Equatorial surface gravity	3.711 m/s²	371 cm/s²	3.71 m/s²	3.71 m/s²	3.71 m/s²
Escape velocity	5.027 km/s	5.02 km/s	5.03 km/s	5.030×10³ m/s	5.03 km/s
Sideral rotation period	1.025 957 day	1.025 956 75 day / 1.025 956 754 3 days	24.6229 hrs	1.026 Earth days 24.623 hours	1.02595676 d
Axial tilt (Inclination equator to orbit, Obliquity to orbit)	25.19°	25.19 (deg.)	25.19	25.2	-
North pole right ascension	317.681 43°	317.681°	317.681 - 0.106T	-	-
North pole declination	52.886 50°	52.886°	52.887 - 0.061T	-	-

^ http://books.google.com/books/about/Allen_s_astrophysical_quantities.html?id=w8PK2XFLLH8C
^ Williams, David R. Mars Fact Sheet. National Space Science Data Center. http://nssdc.gsfc.nasa.gov/planetary/factsheet/marsfact.html copy http://www.peeep.us/ecc3a885
^ Mars: Facts & Figures. NASA. http://solarsystem.jpl.nasa.gov/planets/profile.cfm?Object=Mars&Display=Facts&System=Metric copy http://www.peeep.us/7437231b
^ Planets and Pluto: Physical Characteristics http://ssd.jpl.nasa.gov/?planet_phys_par копия http://www.peeep.us/70bbd459

Well, the good news is that the values all seems to agree with each other in the first few digits. Allen is referencing the Explanatory Supplement to the Astronomical Almanac from 1992, which may be a little dated. Regards, RJH (talk) 17:39, 11 August 2011 (UTC)

It is bad practice to show in the article's card bad data from unknown source. Марсианский хро (talk) 12:28, 17 August 2011 (UTC)

Comparing orbital characteristics with referenced source

Latest comment: 12 years ago2 comments1 person in discussion

File:HORIZONS Mars data 2007 08 08.png - screenshot NASA's site on date 2007 08 08 for compare with card. Марсианский хро (talk) 17:02, 16 August 2011 (UTC)

Parameter	English Wikipedia	Source (ssd.jpl.nasa.gov/horizons.cgi on 2007-Aug-08)	Conclusion
Aphelion	249,209,300 km	not in source	^{[citation needed]}
-"-	1.665 861 AU	not in source	^{[citation needed]}
Perihelion	206,669,000 km	not in source	^{[citation needed]}
-"-	1.381 497 AU	not in source	^{[citation needed]}
Semi-major axis	227,939,100 km	3397+-4	^{[citation needed]}
-"-	1.523 679 AU	"1.523676824505276E+00"	^{[citation needed]}
Eccentricity	0.093 315	"9.331952575248627E-02"	^{[citation needed]}
Orbital period	686.971 days	686.98 d	^{[citation needed]}
-"-	1.8808 Julian years	1.88081578 y	^{[citation needed]}
-"-	668.5991 sols	not in source	^{[citation needed]}
Synodic period	779.96 days	not in source	^{[citation needed]}
-"-	2.135 Julian years	not in source	^{[citation needed]}
Average orbital speed	24.077 km/s	24.1309 km/s	^{[citation needed]}
Mean anomaly	19.3564°	"3.377586933117296E+01"	^{[citation needed]}
Inclination	1.850° to ecliptic	"1.849069591375086E+00"	^{[citation needed]}
-"-	5.65° to Sun's equator	not in source	^{[citation needed]}
-"-	1.67° to invariable plane[2]	not in source (some digits lost)	^{[citation needed]}
Longitude of ascending node	49.562°	"4.953665683803469E+01"	^{[citation needed]}
Argument of perihelion	286.537°	"2.865833028032102E+02"	^{[citation needed]}
Satellites	2	not in source	^{[citation needed]}

Марсианский хро (talk) 12:24, 17 August 2011 (UTC)

Web citation does not work automatically

Latest comment: 12 years ago2 comments2 people in discussion

For the citation "Scientists Discover Concealed Glaciers on Mars at Mid-Latitudes" I can go to WayBackMachine and manually plug in http://www.jsg.utexas.edu/news/rels/112008.html and choose the 20th of May 2011 to get the Jackson School of Geosciences article, but just clicking on the link does not work. Is my software out of date or is the link broken? Fartherred (talk) 16:05, 4 December 2011 (UTC)

It seems to work for me, but takes a couple of seconds to load the proper page. Regards, RJH (talk) 18:04, 4 December 2011 (UTC)

Suggested minor change in headline: Timeline -> Timeline of Mars Missions

Latest comment: 12 years ago7 comments6 people in discussion

When reading the content, it is unclear weather 'Timeline' refers to the Timeline of Mars missions or the history of the planet. — Preceding unsigned comment added by 109.125.105.149 (talk) 08:44, 8 December 2011 (UTC)

I agree with the suggested change but also would like to point out that there would be a repeat of the table Timeline of Mars exploration at the Exploration of Mars article. I think that this kind of table should appear only once in that article. Tom Paine (talk) 12:52, 10 January 2012 (UTC)

I'm slightly opposed to the proposed title. Is there any way it could be done without including the word "Mars"? --W. D. Graham _{(previously GW)} 17:43, 10 January 2012 (UTC)

What about 'Timeline of Exploration Missions' or simply 'Timeline of Exploration Missions'? Anyway I still think this table should only appear in the Exploration of Mars article.Tom Paine (talk) 18:28, 11 January 2012 (UTC)

or "Timeline of Human Exploration" OlympusMoons (talk) 17:17, 20 January 2012 (UTC)

Well, the name of the article shouldn't be used in the section headings, so "Mars" can be removed. "Human" is assumed here, as Wikipedia is written by humans, for humans. That would reduced the list to "Timeline of missions" (or "Missions timeline"), "Timeline of exploration" (or "Exploration timeline"), or "Timeline of Exploration Missions". Regards, RJH (talk) 17:48, 20 January 2012 (UTC)

I like "Exploration timeline", but no strong opinion. DanHobley (talk) 03:11, 21 January 2012 (UTC)

Spacemaster

Latest comment: 12 years ago2 comments2 people in discussion

WE Johns in one of his "Biggles" stories wrote in fair depth about a trip to Mars, using the disc shaped space ship "Space master".AT Kunene (talk) 10:07, 14 February 2012 (UTC)

That might be suitable material for the Mars in fiction article. Fartherred (talk) 02:41, 15 February 2012 (UTC)