Difference between revisions of "Minerals"

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'''Minerals''' are [[natural resources]] needed as raw material for setup and extension of [[settlement|settlements]] on [[Mars]]. From recent unmanned missions some valuable minerals have been found, most of them by the [[Mössbauer spectrometer]] [[MIMOS II]].  
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'''Minerals''' are [[natural resources]] needed as raw material for setup and extension of [[settlement|settlements]] on [[Mars]]. From recent unmanned missions some valuable minerals have been found in the [[regolith]], most of them by the [[Mössbauer spectrometer]] [[MIMOS II]]. The atmospheric [[dust]] contains minerals, which allows [[atmospheric mining]].  The crust is enriched in iron.  It is rich in chlorine, sulphur, potassium and phosphorus (as well as other volatile elements).
  
==Goethite==
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The most common elements making up Mars' crust are: silicon, oxygen, iron, magnesium, aluminum, calcium, & potassium.  The elements sulphur, phosphorus, sodium, boron, chlorine, and bromine are needed for life and have been found on the planet.
 +
 
 +
==Overview:==
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Mars is fundamentally a igneous planet, made up of magma and minerals caused by the erosion of lava.  These include plagioclase feldspar, pyroxenes and olivine (all basalt based minerals).  Magnetite has been found. Opportunity found what is likely titanomagnetite (titanium rich magnetite).
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In the presence of water, olivine gradually weathers into clays, which are common on Mars, especially in the northern low lands.
 +
 
 +
In the southern highlands, low calcium (ortho-) pyroxenes are present.  These have a higher melting temperature, which suggests that the older highlands had higher temperature lavas than areas of more recent volcanism.
 +
 
 +
Intermediate and felsic rocks are present on Mars, but seem to be fairly rare.  These include quartz rich dacites and granitoids which have been found by spacecraft in Syrtis Major and near the crater Antoniadi.
 +
 
 +
Curiosity found hydrated minerals, including calcium sulphate (gypsum).
 +
 
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Secondary minerals formed by water based weathering include: hematite, phyllosilicates (clay minerals), various carbonates (fairly rare), goethite, jaorsite, iron sulphite minerals, and opaline silica.  (Thus, we may find opals on Mars.)  Some of these minerals require acidic water, other need neutral or basic solutions.  It is believed that carbonate formations are much more widespread, but buried.
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Opportunity found a variety of sulphated minerals, thought to include: kieserite, sulphate anhydate, bassanite, hexahydrite, epsomite, jarosite, and gypsum.  Salts including halite, bischofite, antarticite, bloedite, vanhoffite and glauberite are believed to be found.  Jarosite is a mineral which can only form in water, which proved that Mars had liquid water (perhaps under a layer of surface ice) for long periods of time.
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Silica has been found in the Columbia hills.  This may have formed from acid vapours in the presence of water, as if it was in a hot spring.
 +
 
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Sedimentary formations are widespread, including sandstone.
 +
 
 +
A number of meteorites have been found on the Martian surface.
 +
 
 +
 
 +
No minerals that are formed by life have been found on Mars, i.e. no amber, limestone, coral, petrochemicals, coal, marble, stromatolites, etc.
 +
 
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==Detailed Descriptions of Particular Minerals:==
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===Goethite===
 
Chemical formula: α-FeO(OH)
 
Chemical formula: α-FeO(OH)
  
 
This mineral has been identified near the landing zones of the [[rover|rovers]] [[Spirit]] and [[Opportunity]], for example at "[[Columbia Hills]]". This mineral was probably created from [[iron]] under the influence of liquid [[water]].
 
This mineral has been identified near the landing zones of the [[rover|rovers]] [[Spirit]] and [[Opportunity]], for example at "[[Columbia Hills]]". This mineral was probably created from [[iron]] under the influence of liquid [[water]].
  
If you ask 100 players in World of Warcraft what thing they would like to do most, most of them would say make more gold. What is it about this shiny liltte metal that gets so many players excited? Likely it’s all the amazing things you can buy with it – from the epic mounts to the high-level gear and consumables needed to run the highest level raids.So what exactly do you need to build your own truly epic gold stash? There are a few tricks you can use but mostly you just need to be smart about how you spend your gold and more importantly how you spend your time.Using the Auction HouseFirst on the list is the auction house. The auction house is by far the best way to make gold in World of Warcraft. It may seem boring at first, but if you think about it the auction house is very similar to the stock market in the real world. If you know what you’re doing, have enough gold to get started, and are willing to spend a lot of time researching and learning about different items in the game you can make a ton of gold in very liltte time.Now compare that to how most people make gold. They spend hours running around, farming on everything from herbs to ore to skins and beyond. In reality there is a cap on how much gold you can make using these methods. If you try to make gold solely from farming, you can make anywhere from 400 to 1000 gold per hour. But why stop there?With the auction house you can actually make thousands of gold per hour and not actually spend any extra time playing the game. For sure time is needed to set it up and even more time will be spent checking in on your investments and reading up on the most recent news in the game, but after two or three weeks you can spend as liltte as 20 or 30 minutes in the auction house and make thousands of gold a day.Getting the Right ToolsTo use the auction house successfully, you need the right tools. This means getting add-ons for your World of Warcraft UI including Auctioneer, Market Watcher, Postal, and a couple other tools that may be useful to you. Exactly how you set up your auction house UI depends largely on what you prefer, but regardless of your preference you’ll find that there are a lot of ways to make gold that don’t require you to spend hundreds of hours each week farming.In fact you can even pay other people to farm for you and make money off their work. The bottom line is this – if you’re a smart player and invest time now you’ll eventually be able to do pretty much anything you want in World of Warcraft with a big stash of gold.
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===Hematite===
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Chemical formula: α-Fe<sub>2</sub>O<sub>3</sub>
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This mineral has been found at the landing zone of Opportunity. It is also very common over the entire Martian surface and is the source of the red color of Mars. Hematite is an [[iron ore]], a source of [[Iron]] on Earth and is a major part of the Martian dust which is found planet wide.
  
==Olivine==
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===Olivine===
 
Chemical formula: (Mg,Fe)<sub>2</sub>SiO<sub>4</sub>
 
Chemical formula: (Mg,Fe)<sub>2</sub>SiO<sub>4</sub>
  
This mineral has been found in [[Gusev Crater]].
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This mineral has been found in [[Gusev Crater]].  
  
==Salt==
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===Salt===
[[Calcium carbonate]], [[magnesium]], [[sodium]], [[potassium]], [[chloride]] and [[perchlorate]] have been found by the [[Phoenix]] lander (http://phoenix.lpl.arizona.edu/09_09_pr.php). Chloride, perhaps ''table salt'', have also been found by [[Mars Odyssey]].<ref>[http://news.bbc.co.uk/1/hi/sci/tech/7302591.stm BBC: Mars is 'covered in table salt']</ref>  
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[[Calcium carbonate]], [[magnesium]], [[sodium]], [[potassium]], [[chloride]] and [[perchlorate]] have been found by the [[Phoenix]] lander (http://phoenix.lpl.arizona.edu/09_09_pr.php). Chloride, perhaps ''table salt'', have also been found by [[Mars Odyssey]].<ref>[http://news.bbc.co.uk/1/hi/sci/tech/7302591.stm BBC: Mars is 'covered in table salt']</ref>
  
 
==References==
 
==References==
<references/>
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// Wikipedia article on Mars Geology:
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 +
https://en.wikipedia.org/wiki/Composition_of_Mars
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 +
"The Geology of Mars: Evidence from Earth-Based Analogs", edited by Mary Chapman, ISBN 0-521-83292-6
  
==Open Issues==
 
*How exactly can iron, magnesium, etc. be extracted out of these minerals? What we need here are simple processes, allowing the exploitation with limited chemical and energy resources on Mars. The processing should be strictly [[hi-tech versus lo-tech|lo-tech]].
 
  
  
[[Category: Geology]]
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<references />
[[category:chemistry]]
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[[category:Mineralogy]]

Latest revision as of 09:47, 2 May 2024

Minerals are natural resources needed as raw material for setup and extension of settlements on Mars. From recent unmanned missions some valuable minerals have been found in the regolith, most of them by the Mössbauer spectrometer MIMOS II. The atmospheric dust contains minerals, which allows atmospheric mining. The crust is enriched in iron. It is rich in chlorine, sulphur, potassium and phosphorus (as well as other volatile elements).

The most common elements making up Mars' crust are: silicon, oxygen, iron, magnesium, aluminum, calcium, & potassium. The elements sulphur, phosphorus, sodium, boron, chlorine, and bromine are needed for life and have been found on the planet.

Overview:

Mars is fundamentally a igneous planet, made up of magma and minerals caused by the erosion of lava. These include plagioclase feldspar, pyroxenes and olivine (all basalt based minerals). Magnetite has been found. Opportunity found what is likely titanomagnetite (titanium rich magnetite).

In the presence of water, olivine gradually weathers into clays, which are common on Mars, especially in the northern low lands.

In the southern highlands, low calcium (ortho-) pyroxenes are present. These have a higher melting temperature, which suggests that the older highlands had higher temperature lavas than areas of more recent volcanism.

Intermediate and felsic rocks are present on Mars, but seem to be fairly rare. These include quartz rich dacites and granitoids which have been found by spacecraft in Syrtis Major and near the crater Antoniadi.

Curiosity found hydrated minerals, including calcium sulphate (gypsum).

Secondary minerals formed by water based weathering include: hematite, phyllosilicates (clay minerals), various carbonates (fairly rare), goethite, jaorsite, iron sulphite minerals, and opaline silica. (Thus, we may find opals on Mars.) Some of these minerals require acidic water, other need neutral or basic solutions. It is believed that carbonate formations are much more widespread, but buried.

Opportunity found a variety of sulphated minerals, thought to include: kieserite, sulphate anhydate, bassanite, hexahydrite, epsomite, jarosite, and gypsum. Salts including halite, bischofite, antarticite, bloedite, vanhoffite and glauberite are believed to be found. Jarosite is a mineral which can only form in water, which proved that Mars had liquid water (perhaps under a layer of surface ice) for long periods of time.

Silica has been found in the Columbia hills. This may have formed from acid vapours in the presence of water, as if it was in a hot spring.

Sedimentary formations are widespread, including sandstone.

A number of meteorites have been found on the Martian surface.


No minerals that are formed by life have been found on Mars, i.e. no amber, limestone, coral, petrochemicals, coal, marble, stromatolites, etc.

Detailed Descriptions of Particular Minerals:

Goethite

Chemical formula: α-FeO(OH)

This mineral has been identified near the landing zones of the rovers Spirit and Opportunity, for example at "Columbia Hills". This mineral was probably created from iron under the influence of liquid water.

Hematite

Chemical formula: α-Fe2O3

This mineral has been found at the landing zone of Opportunity. It is also very common over the entire Martian surface and is the source of the red color of Mars. Hematite is an iron ore, a source of Iron on Earth and is a major part of the Martian dust which is found planet wide.

Olivine

Chemical formula: (Mg,Fe)2SiO4

This mineral has been found in Gusev Crater.

Salt

Calcium carbonate, magnesium, sodium, potassium, chloride and perchlorate have been found by the Phoenix lander (http://phoenix.lpl.arizona.edu/09_09_pr.php). Chloride, perhaps table salt, have also been found by Mars Odyssey.[1]

References

// Wikipedia article on Mars Geology:

https://en.wikipedia.org/wiki/Composition_of_Mars

"The Geology of Mars: Evidence from Earth-Based Analogs", edited by Mary Chapman, ISBN 0-521-83292-6