rubidium –strontium – yttrium Ca Sr Ba       Full table
General
Name, Symbol, Number	Strontium, Sr, 38
Series	Alkaline earth metal
Group, Period, Block	2 (IIA), 5, s
Density, Hardness	2630 kg/m3, 1.5
Appearance	silvery white metallic
Atomic properties
Atomic weight	87.62 amu
Atomic radius	215.1 pm
Covalent radius	192 pm
van der Waals radius	no information
Electron configuration	[Kr]5s2
e- 's per energy level	2, 8, 18, 8, 2
Oxidation states (Oxide)	2 (strong base)
Crystal structure	Cubic face centered
Physical properties
State of matter	solid (paramagnetic)
Melting point	1050 K (1431 �F)
Boiling point	1655 K (2520 �F)
Molar volume	33.94 ×10-6 m3/mol
Heat of vaporization	144 kJ/mol
Heat of fusion	8.3 kJ/mol
Vapor pressure	246 Pa at 1042 K
Speed of sound	data not available
Miscellaneous
Electronegativity	0.95 (Pauling scale)
Specific heat capacity	300 J/(kg*K)
Electrical conductivity	7.62 106/(m·ohm)
Thermal conductivity	35.3 W/(m*K)
1st ionization potential	549.5 kJ/mol
2nd ionization potential	1064.2 kJ/mol
3rd ionization potential	4138 kJ/mol
Most stable isotopes
iso NA half-life DM DE MeV DP 84Sr 0.56% Sr is stable with 46 neutrons 86Sr 9.86% Sr is stable with 48 neutrons 87Sr 7.0% Sr is stable with 49 neutrons 88Sr 82.58% Sr is stable with 50 neutrons 90Sr {syn.} 28.78 y beta- 0.546 90Y
SI units & STP are used except where noted.

Strontium is a chemical element in the periodic table that has the symbol Sr and the atomic number 38. An alkaline earth metal, strontium is a soft silver-white or yellowish metallic element that is highly reactive chemically. This metal turns yellow when exposed to air and occurs in celestite and strontianite. Sr-90 is present in radioactive fallout and has a half-life of 28 years.

Contents

1 Notable characteristics 2 Applications 3 History 4 Occurrence 5 Isotopes 6 Precautions 7 References 8 External links

Notable characteristics

Due to its extreme reactivity to air, this element always naturally occurs combined with other elements and compounds, as in the minerals strontianite, celestite, etc. It is isolated as a yellowish metal and is somewhat malleable. It is chiefly employed (as in the nitrate) to color pyrotechnic flames red.

Strontium is a bright silvery metal that is softer than calcium and even more reactive in water; strontium will decompose on contact to produce strontium hydroxide and hydrogen gas. It burns in air to produce both a strontium oxide and strontium nitride, but since it does not react with nitrogen below 380°C it will only form the oxide spontaneously at room temperature. It should be kept under kerosene to prevent oxidation; freshly exposed strontium metal rapidly turns a yellowish color with the formation of the oxide. Finely powdered strontium metal will ignite spontaneously in air. Volatile strontium salts impart a beautiful crimson color to flames, and these salts are used in pyrotechnics and in the production of flares. Natural strontium is a mixture of four stable isotopes.

Applications

At present the primary use for strontium is in glass for color television cathode ray tubes.

Other commercial uses:

• Production of ferrite magnets and refining zinc.
• Strontium titanate has an extremely high refractive index and an optical dispersion greater than that of diamond, making it useful in a variety of optics applications.
• Strontium titanate, has been used as a gemstone, but is very soft and easily scratches so its use is rare.
• Strontium is also used in fireworks for red color.
• Strontium chloride is sometimes used in toothpastes for sensitive teeth. One popular brand includes 10% strontium chloride hexahydrate by weight.

History

Adair Crawford recognized the mineral strontianite, named after the Scottish town of Strontian, as differing from other barium minerals in 1790. However, Klaproth and Hope discovered strontium itself in 1798 and metallic strontium was first isolated by Sir Humphry Davy in 1808 using electrolysis.

Occurrence

Strontium commonly occurs in nature, averaging 0.034% of all igneous rock and is found chiefly as the form of the sulfate mineral celestite (SrSO₄) and the carbonate strontianite (SrCO₃). Of the two, celestite occurs much more frequently in sedimentary deposits of sufficient size to make development of mining facilities attractive. Strontianite would be the more useful of the two common minerals because strontium is used most often in the carbonate form, but few deposits have been discovered that are suitable for development. The metal can be prepared by electrolysis of melted strontium chloride mixed with potassium chloride:

Sr²⁺ + 2 e^- → Sr
2 Cl^- → Cl_{2 (g)} + 2 e^-

Alternatively it is made by reducing strontium oxide with aluminium in a vacuum at a temperature at which strontium distills off. Three allotropes of the metal exist, with transition points at 235 and 540°C. Strontium metal (98% pure) in January 1990 cost about $5/oz. The largest commercially exploited deposits are found in England.

Isotopes

The alkali earth metal strontium has four stable, naturally occurring isotopes: Sr-84 (0.56%), Sr-86 (9.86%), Sr-87 (7.0%) and Sr-88 (82.58%). Only Sr-87 is radiogenic; it is produced by decay from the radioactive alkali metal rubidium-87, which has a half-life of 48,800,000 years. Thus, there are two sources of Sr-87 in any material: that formed during primordial nucleo-synthesis along with Sr-84, Sr-86 and Sr-88, as well as that formed by radioactive decay of Rb-87. The ratio Sr-87/Sr-86 is the parameter typically reported in geologic investigations. Because strontium has an atomic radius similar to that of calcium, it readily substitutes for Ca in minerals. Sr-87/Sr-86 ratios in minerals and rocks have values ranging from about 0.7 to greater than 4.0.

Sixteen unstable isotopes are known to exist. Of greatest importance is Sr-90 with a half-life of 29 years. It is a by-product of nuclear fallout and presents a health problem since it substitutes for calcium in bone, preventing expulsion from the body. This isotope is one of the best long-lived high-energy beta emitters known, and is used in SNAP (Systems for Nuclear Auxiliary Power) devices. These devices hold promise for use in spacecraft, remote weather stations, navigational buoys, etc, where a lightweight, long-lived, nuclear-electric power source is required.

Precautions

In its pure form strontium is extremely reactive with air and spontaneously combusts. It is therefore considered to be a fire hazard.

The human body absorbs strontium as if it were calcium. The stable forms of strontium do not pose a significant health threat, but the radioactive strontium-90 can lead to various bone disorders and diseases, including bone cancer. The strontium unit is used in measuring radioactivity from absorbed strontium-90.

References

• Los Alamos National Laboratory – Strontium (http://pearl1.lanl.gov/periodic/elements/38.html)

External links

• WebElements.com – Strontium (http://www.webelements.com/webelements/elements/text/Sr/index.html)
• EnvironmentalChemistry.com –Strontium (http://environmentalchemistry.com/yogi/periodic/Sr.html)

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