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Carbon
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| General | |||||||||||||||||||||||||
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| Name, symbol, number | carbon, C, 6 | ||||||||||||||||||||||||
| Element category | nonmetal | ||||||||||||||||||||||||
| Group, period, block | 14, 2, p | ||||||||||||||||||||||||
| Appearance | black (graphite) colorless (diamond)  | ||||||||||||||||||||||||
| Standard atomic weight | 12.0107(8) g·mol−1 | ||||||||||||||||||||||||
| Electron configuration | 1s2 2s2 2p2 | ||||||||||||||||||||||||
| Electrons per shell | 2, 4 (Image) | ||||||||||||||||||||||||
| Physical properties | |||||||||||||||||||||||||
| Phase | solid | ||||||||||||||||||||||||
| Density (near r.t.) | (graphite) 1.9-2.3[1] g·cm−3 | ||||||||||||||||||||||||
| Melting point | 3925 K (3652 °C, 6605 °F) | ||||||||||||||||||||||||
| Heat of fusion | (graphite) ? 100 kJ·mol−1 | ||||||||||||||||||||||||
| Heat of fusion | (diamond) ? 120 kJ·mol−1 | ||||||||||||||||||||||||
| Heat of vaporization | 715 kJ·mol−1 | ||||||||||||||||||||||||
| Specific heat capacity | (25 °C) (graphite) 8.517 J·mol−1·K−1 | ||||||||||||||||||||||||
| Specific heat capacity | (25 °C) (diamond) 6.115 J·mol−1·K−1 | ||||||||||||||||||||||||
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| Atomic properties | |||||||||||||||||||||||||
| Crystal structure | (graphite) hexagonal | ||||||||||||||||||||||||
| Oxidation states | 4, 3 [2], 2, 1 [3], 0, -1, -2, -3, -4[4] (mildly acidic oxide) | ||||||||||||||||||||||||
| Electronegativity | 2.55 (Pauling scale) | ||||||||||||||||||||||||
| Ionization energies (more) | 1st: 1086.5 kJ·mol−1 | ||||||||||||||||||||||||
| 2nd: 2352.6 kJ·mol−1 | |||||||||||||||||||||||||
| 3rd: 4620.5 kJ·mol−1 | |||||||||||||||||||||||||
| Atomic radius | 70 pm | ||||||||||||||||||||||||
| Atomic radius (calc.) | 67 pm | ||||||||||||||||||||||||
| Covalent radius | 77 pm | ||||||||||||||||||||||||
| Van der Waals radius | 170 pm | ||||||||||||||||||||||||
| Miscellaneous | |||||||||||||||||||||||||
| Magnetic ordering | diamagnetic | ||||||||||||||||||||||||
| Electrical resistivity | (graphite) 1.375*10-5 [5]Ω·m | ||||||||||||||||||||||||
| Thermal conductivity | (300 K) (graphite) (80–230) W·m−1·K−1 | ||||||||||||||||||||||||
| Thermal conductivity | (300 K) (diamond) (900–2320) W·m−1·K−1 | ||||||||||||||||||||||||
| Thermal diffusivity | (300 K) (diamond) (503–1300) mm²/s | ||||||||||||||||||||||||
| Mohs hardness | (graphite) 1-2 [6] | ||||||||||||||||||||||||
| Mohs hardness | (diamond) 10.0 [6] | ||||||||||||||||||||||||
| CAS registry number | 7440-44-0 | ||||||||||||||||||||||||
| Selected isotopes | |||||||||||||||||||||||||
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| References | |||||||||||||||||||||||||
Carbon (pronounced /kɑrbən/) is a chemical element with symbol C and atomic number 6. As a member of group 14 on the periodic table, it is nonmetallic and tetravalent—making four electrons available to form covalent chemical bonds. There are three naturally occurring isotopes, with 12C and 13C being stable, while 14C is radioactive, decaying with a half-life of about 5730 years.[7] Carbon is one of the few elements known to man since antiquity.[8][9] The name "carbon" comes from Latin language carbo, coal, and, in some Romance and Slavic languages, the word carbon can refer both to the element and to coal.
There are several allotropes of carbon of which the best known are graphite, diamond, and amorphous carbon.[10] The physical properties of carbon vary widely with the allotropic form. For example, diamond is highly transparent, while graphite is opaque and black. Diamond is among the hardest materials known, while graphite is soft enough to form a streak on paper. Diamond has a very low electrical conductivity, while graphite is a very good conductor. Under normal conditions, diamond has the highest thermal conductivity of all known materials. All the allotropic forms are solids under normal conditions but graphite is the most thermodynamically stable.
All forms of carbon are highly stable, requiring high temperature to react even with oxygen. The most common oxidation state of carbon in inorganic compounds is +4, while +2 is found in carbon monoxide and other transition metal carbonyl complexes. The largest sources of inorganic carbon are limestones, dolomites and carbon dioxide, but significant quantities occur in organic deposits of coal, peat, oil and methane clathrates. Carbon forms more compounds than any other element, with almost ten million pure organic compounds described to date, which in turn are a tiny fraction of such compounds that are theoretically possible under standard conditions.[11]
Carbon is the fourth most abundant element in the universe by mass after hydrogen, helium, and oxygen. It is present in all known lifeforms, and in the human body carbon is the second most abundant element by mass (about 18.5%) after oxygen.[12] This abundance, together with the unique diversity of organic compounds and their unusual polymer-forming ability at the temperatures commonly encountered on Earth, make this element the chemical basis of all known life.
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How to Build an Asado Grill
Instructions
Difficulty: EasyThings You’ll Need:
- Large v-shaped terra cotta plant pot approximately 16 inches in diameter
- Three clay pot feet
- Circular metal BBQ grill approximately 10 inches in diameter
- Circular metal BBQ grill approximately 15 inches in diameter
Purchase a large v-shaped terra cotta clay plant pot from your local nursery supply store and three clay feet for the pot to sit on, which keep it off the ground by a few inches for sake of ventilation. Be sure to select a double rimmed pot made of Italian terra cotta to ensure a long lasting quality grill that does not crack with frequent use.
Step2
Purchase two circular metal grills designed for BBQ use. One larger grill will serve as the actual cooking surface and a smaller grill will be used as a surface to hold the charcoal below.
Step3
Align the clay pot feet evenly spaced in a triangle shape just wide enough so that the base of the plant pot can rest on the feet. Place the pot on top of the three feet. The pot feet are used to keep the plant pot up off the ground in order to allow air circulation and the fire to draw air up through the drainage hole.
Step4
Insert the smaller metal grill inside the plant pot. The size of the grill should be slightly larger than the bottom diameter of the inside of the plant pot so that the grill rests a wee bit above the bottom of the pot and not flush against the interior bottom.
Step5
Cross section of pot with grills inserted.
Place the larger metal grill just inside the top of the plant pot. The size of this grill should be such that the grill does not rest far down inside the pot, but toward the top most reaches yet just beneath the top edge or lip of the pot by a few inches.
