Rocks and Minerals

Rocks and Minerals will rotate in for both B and C divisions in 2012. See the [[Media:RocksandMineralsLIST2012.pdf|Official Rock and Mineral List]] for specific rocks and minerals that will be covered.

General Information
In Rocks & Minerals, teammates identify rocks and minerals from the [[Media:RocksandMineralsLIST2012.pdf|Official List]] and answer questions about them. This competition is usually in a station format. Items competitors are allowed to bring to the competition include one 3-ring binder of any size and one field guide.

Speed is the key; Rocks & Minerals is a very fast-paced event, and you need to be able to find what you want quickly because most stations have multiple tasks in a short time period, so organization is key. Get to know your book and binder very well; this is important especially in the overfilled stations. Make sure you don't have too many resources. As a rule of thumb, keep it travel size: a one-inch binder should be plenty, and a fairly good book will do.

Rocks
There are three classifications of rocks: igneous, metamorphic, and sedimentary. Any type of rock can be transformed into the other kind. Igneous rocks are created from solidified magma (rock that has been melted inside the earth), sedimentary rocks are created when smaller bits of rock or sand are cemented together, and metamorphic rocks occur when other types of rocks are subjected to heat and pressure.

Igneous Rocks
There are two main classifications of igneous rocks: intrusive and extrusive rocks.


 * Intrusive rocks harden slowly beneath the surface of the earth, and often form large mineral crystals within the rock. Granite is a good example of an intrusive rock.
 * Porphyritic intrusive rocks have large crystals embedded in a matrix of smaller crystals. Pegmatite is the only porphyritic rock on the Science Olympiad list.
 * Extrusive rocks harden quickly during a volcanic eruption and are usually smooth-grained. Basalt is the most common form of extrusive rock.

Sedimentary Rocks
Sedimentary rocks occur when smaller bits of rock and sand are cemented together. Sedimentary rocks are either clastic or organic.


 * Clastic rocks, like sandstone, form from other rocks and minerals.
 * Organic rocks, like limestone and coal, form from the bodies or shells of organisms.

Metamorphic Rocks
Metamorphic rocks are composed of other rocks which have been subjected to heat and pressure. Often these rocks bear little resemblance to their parent rocks.

Minerals
By definition, minerals must have a definite chemical and crystal structure. There are a huge variety of minerals, many of which are very common. In order to understand minerals, it is helpful to understand basic chemistry and the periodic table. I won't attempt to go over all of that here, just look it up in any chemistry book. Each mineral can be classified by ten different characteristics: group, formula, color, streak, luster, crystal structure, cleavage, fracture, hardness, and specific gravity.

Definitions

 * Group:Minerals are organized into groups based on their chemical makeup. Native elements are composed of a single, pure element; Sulfides contain sulfur, arsenic, tellurium, or selenium; Oxides and Hydroxides contain oxygen compounds; Halides contain sodium, chlorine, fluorine, iodine, or bromine; Carbonates and Borates contain the carbonate or borate groups; Sulfates contain the sulfate group; Phosphates, Arsenates, and Vanadates contain one of those chemical groups, and the Silicates and Tectosilicates contain the element silicon.


 * Formula:Each mineral has a definite chemical composition. For example, fluorite is CaF2?. Again, if you need a review on chemical formulas, look in any chemistry textbook.


 * Color:Color is not a good way to identify a mineral!!! Some minerals can be any color under the sun. While color can sometimes be useful, don't rely on it!


 * Streak:Streak is the color you get when you rub a rock across an unglazed piece of porcelain. Streak is much more useful than color because a mineral always has the same streak.


 * Luster:A mineral's luster is the way it reflects light. Descriptions of luster are very subjective, but sometimes useful. Common types of luster are vitreous (glassy), adamantine (brilliant or gem-like), resinous (resin-like), greasy, pearly, waxy, and silky.


 * Crystal Structure:I can describe each type of crystal structure, but you should also get a good mineral book, like the Peterson Field Guide, and read the section on crystal structure.


 * Isometric:Three axes of symmetry, all at right angles to one another, and all of equal lengths. Sometimes called cubic.


 * Tetragonal:Three axes of symmetry, all at right angles to one another, two of the same length and one shorter.


 * Hexagonal (Trigonal):Four axes of symmetry; three are of equal length and lie in the same plane at 120 degrees, the other can be any length and lies at right angles to the others.


 * Note:Trigonal is sometimes considered to be separate from hexagonal.


 * Orthorhombic:Three axes, all at right angles to one another, of three different lengths.


 * Monoclinic:Three unequal axes, two at right angles, and the other inclined.


 * Triclinic:-Three unequal axes, none of which are at right angles to any others.


 * Cleavage:When a mineral has the tendency to break along smooth, flat surfaces, it has cleavage. If the break is perfectly smooth and shiny, it is said to have perfect cleavage. Cleavage can also be described as good, distinct, or poor.


 * Fracture:Fracture is described as the way a mineral breaks (not along a cleavage plane). It can be uneven, hackly (sharp, jagged surface like broken metal), splintery, or conchoidal (shell-like).


 * Hardness:The Mohs Hardness Scale, which is used my most mineral collectors, is based on the hardness of other minerals. It is on a scale of one to ten, ten being the hardest. To test two minerals against each other, try to scratch each mineral with the other in an inconspicuous place. If they both scratch each other, they have the same hardness. If only one causes a scratch, it is the hardest. Or, you can use common objects to see if the scratch or can be scratched by a mineral.


 * {|class="wikitable"

!Hardness !Mineral or Common Object !1 !2 !2.5 !3 !3 !4 !5 !5.5 !6 !6 !7 !7 !8 !9 !10
 * Talc
 * Gypsum
 * Fingernail
 * Calcite
 * Copper penny
 * Fluorite
 * Apatite
 * Knife blade
 * Feldspar
 * Window glass
 * Quartz
 * Steel file
 * Topaz
 * Corundum
 * Diamond
 * }


 * Specific Gravity:Specific gravity (SG) is a measure of how dense a mineral is. It compares the mass of one gram of the mineral to the mass of one gram of water. So, a mineral with a SG of 4.5 is 4.5 times as heavy as water. With practice, you can tell whether a mineral specimen is "light" (usually less that 3.5) or "heavy" (greater than 4). Specific gravity can be helpful in detecting metallic minerals (they are usually heavier), or in cases where a mineral is unusually heavy. For example, galena is a gray, metallic mineral with a high lead content, and it is noticeably heavy. It is especially useful in the case of barite, a white mineral which is unusually heavy because it contains the heavy metal barium, but does not look metallic at all.

I'm not going to go through and type the characteristics of every single mineral on the list. You can get all that information from any good mineral identification handbook. However, it is really helpful to know the one distinguishing characteristic of each mineral (in my opinion), or just a short description that helps me remember that mineral, so that's what I'll supply.

Mineral Name Description

 * Albite:White, tan, or cream feldspar


 * Almandine:Dark red, garnet.


 * Amazonite:Bright green feldspar.


 * Apatite:Usually green or purple, but can be almost any color.


 * Aragonite:white, powdery variety of calcite. Can often form amber colored hexagonal crystals.


 * Augite:There's about six different minerals on the list that just look like nondescript black rocks. They're not much fun to tell apart. Augite is one of them. I usually identify it because it has a greenish tinge and cleavage at a right angle.


 * Azurite:Always blue (I love those times when color actually means something), with a blue streak.


 * Bauxite:Tan rock with orange, white, and prown pisoliths of aluminum, causing light weight. Formed from weathering of feldspars.


 * Barite:White and kind of platy, but very heavy because it contains barium. Can form rosettes.


 * Beryl:The cheap specimens we usually see in Science Olympiad are mostly light green and opaque. Often have hexagonal crystal. Aquamarine and Emerald


 * Biotite:Black mica--it's thin and platy. It comes off in thin sheets.


 * Bornite:"Peacock Copper." It has a dark, purplish-blue tarnish. Chalcopyrite, which looks almost the same, tarnishes purple, orange, yellow, and red.


 * Calcite:Looks almost like fluorite and can be any color, but it's a little softer and it has a more rhombus like shape. It also bubbles in hydrochloric acid (HCl), but most people don't have that lying around to test rocks with.


 * Celestite:Usually a soft, translucent white or blue.


 * Chalcopyrite:Very brassy yellow, tarnishes bright red, purple, yellow, and orange.


 * Copper:looks like�.well, copper. You can usually see the green tarnish.


 * Corundum:very hard reddish or purplish rock. Very hard and often has small column-like opaque crystals. Rubies and Sapphires.


 * Diamond: Adamantine luster. Comes in various lighter colors. Hardest mineral.


 * Dolomite:You can often see thin, platy cream-colored crystals. Sometimes there are dark specks embedded between the crystals.


 * Epidote:Mostly greenish-yellow and grainy, but can be almost any shade of green. Often confused with olivine. Described as "pistachio"


 * Feldspar:Kind of a salmony-pink color. It has a very distinctive luster.


 * Flourite:Almost any color. Hard to distinguish from calcite, but it's a little harder. Usually has dipyramidal or cubic stucture.


 * Galena:One of my personal favorites. It has perfect cubic cleavage and is very heavy. It is made of lead sulfide and is a important lead ore.


 * Goethite:Yet another dark indistinctive mineral that gives Science Olympians headaches. This one sometimes has a slightly iridescent tarnish, though. We knew it as the "ugly brownish orange-black rock"


 * Gold: Gold is...well gold colored. Don't mistake with pyrite. Typically smoother than pyrite. Also, gold generally forms nuggets, while pyrite usually forms cubic crystals.


 * Graphite:Silver, shiny, soft, and leaves dark smudges on your hands. Used for pencil lead.


 * Gypsum:Looks like any number of transparent colorless minerals, but luckily gypsum is very soft and easily scratched with your fingernail. Alabaster gypsum is white and opaque, satin-spar is white and fibrous, and selenite is transparent.


 * Halite:Rock Salt. About the color and hardness of selenite gypsum. It has nice cubic crystals, though, and you can usually identify it from that. Tasting specimens is against the rules in Science Olympiad, but smelling them is not and salt has a distinct smell along with a greasy feel.


 * Hematite:Hematite will either be black and shiny, dark gray and dull, or rusty red. Its most distinctive feature is it's cherry red streak, but it also has one other interesting property. It is almost always cool to the touch, much more than magnetite (which it looks like).


 * Hornblende:Black with short stubby crystals, and usually striated lengthwise.


 * Kaolinite:Looks like chalk, but is actually clay. It is usually white and orange.


 * Lepidolite:A very pretty pink or lilac color. It also has darker purple dots, called lamellae. A type of mica so it is sometimes found in sheets.


 * Magnetite:Looks a lot like hematite, except it's magnetic. If you don't have the equipment to check for that, it has a gray or black streak. Hematite's streak is cherry-red.


 * Malachite:This mineral is easy because it is always green, with a green streak. It is often found with azurite.


 * Muscovite:White, yellow, or tan mica--thin and platy.


 * Olivine:Usually light green or yellowish-green. Transparent specimens are called peridot.


 * Opal:Precious opal is iridescent, but most opal is white and opaque with a greasy or waxy luster. Usually amorphous crystals.


 * Pyrite:Metallic fool's gold, often found in cubic or hexagonal crystals. It has a blackish green streak. Distinguished from gold by greater hardness, lower specific gravity, rougher surface, and tendency to form cubic crystals as opposed to nuggets.


 * Quartz:Fairly hard, no cleavage. Agate is often grey or brown and is banded, onyx is a black variety of agate, amethyst is purple and transparent, chalcedony is waxy, transparent grey and usually found in bulbous masses, chert/flint is white/black and noncrystalline with a marked conchoidal fracture, citrine is yellow or orange and transparent, crystal is colorless and transparent, jasper is orange or red and opaque, milky is crystalline but white or light tan, rose is pale pink.


 * Rhodonite:Comes in all shades of pink and red. It's usually massive, but sometimes crystalline.


 * Silver:Metallic silver color. Pure form has the highest reflectiveness of any element, but it is usually tarnished. This tarnish is silver sulfide and appears dull, dark gray.


 * Sodalite:Always blue, but usually a very dark, mottled blue. It's darker color and colorless streak tell it apart from azurite.


 * Sphalerite:Can be almost any color, but usually yellowish, tan, or reddish. It sometimes comes in crystals, but it can be massive, too when it is usually a dark brown. It has a resinous luster.


 * Staurolite:Almost always forms short, prismatic crystals. It's usually brown, and sometimes forms cruciform twins.


 * Sulfur:It's always some shade of yellow, and it gives off a sulfurous odor when rubbed.


 * Talc:Very soft, often light green, white, or grey and feels very waxy.


 * Topaz:Extremely variable color, but usually comes in well-formed prismatic crystals. A light colored gem


 * Tourmaline:Also extremely variable when it comes to color, but it often comes in long prismatic crystals with vertical striations on it's surface. Pleochroric (same crystal appears different color depending on viewing angle).


 * Tremolite:Usually comes in small, bladed crystals. It's light-colored and sometimes transparent. Commercially, tremolite was used as asbestos.


 * Ulexite:Almost always white, and looks like a densely-packed bundle of white threads. It's opaque in one direction, and conducts light in the other. It's fiber-optic abilities gave it the nickname "T.V. rock".

Picking a Field Guide
Before I answer, please note my aforementioned response - USE A BINDER! Not only can you organize it to your own discretion, you can learn the facts and pseudo-memorize them as you create your sheets. (Plus it's great for general geology/petrology/mineralogy notes) But that's just me.

If you're into field guides, however...

Simon and Schuster: Definitely the best one of them all. Okay pictures, a lot of information, and has great notes in the start of each section. I think it's quite concise and efficient - very reliable. Not the easiest read, but definitely numero uno. Hands down.

Peterson: Ehh, a not-so-close second, but a clear silver medalist here. Not as informative as S&S, but does have nice pictures and good ID tips. I like the layout. Good backup.

Audubon: Personally, I think this guide shouldn't be used - first of all, I hate it when the notes are just crammed together tightly on pages. The pictures are iffy, and the information was a bit outdated even in the most recent version. Find something else.

Smithsonian: This one is great for learning how to ID the rocks, but once you get past that, its use and value drops considerably. Not a terrible start, though.

The Complete Guide to Rocks and Minerals: A bit similar to that of Smithsonian, but at least goes a bit in depth. Seems quite large to carry around while running to stations - might as well just use a binder.

So, in short, if you're just starting off, try Peterson or Smithsonian. Once you've mastered some of the general basics, try your hand at Simon and Schuster. But why use them when you can have a lovely binder? (Protip: it's perfectly okay to splice pages of your field guide into your binder).

Conclusion
Well, I hope this is helpful to everyone doing this event. If you want to be successful, don't just read this and expect it to tell you everything. Get a couple of good books and get to know them really, really well. Eventually you won't need the books for basic identification, but it's always good to keep them around just in case. I recommend the Peterson Field Guide to Rocks and Minerals, but my partner and I also use the Audubon book (the field guide, not the pocket guide) and the Eyewitness Handbook. If you're really serious, buy or borrow a college book on geology or mineralogy. There are also a lot of good internet resources. I'd suggest starting at http://www.minerals.net. It has good descriptions of minerals, and a lot of nice links. Good luck!

Links

 * Printable Cheat Sheet
 * GMOA Notes
 * Definitions
 * Some lecture notes to get started on