Radium

Radium, ₈₈Ra
Radium
Pronunciation	/ˈreɪdiəm/ (RAY-dee-əm)
Appearance	silvery white metallic
Mass number	[226]
Radium in the periodic table
	francium ← radium → actinium
Atomic number (Z)	88
Group	group 2 (alkaline earth metals)
Period	period 7
Block	s-block
Electron configuration	[Rn] 7s2
Electrons per shell	2, 8, 18, 32, 18, 8, 2
Physical properties
Phase at STP	solid
Melting point	973 K (700 °C, 1292 °F) (disputed)
Boiling point	2010 K (1737 °C, 3159 °F)
Density (near r.t.)	5.5 g/cm3
Heat of fusion	8.5 kJ/mol
Heat of vaporization	113 kJ/mol
Atomic properties
Oxidation states	+2 (expected to have a strongly basic oxide)
Electronegativity	Pauling scale: 0.9
Ionization energies	1st: 509.3 kJ/mol ; 2nd: 979.0 kJ/mol ; ;
Covalent radius	221±2 pm
Van der Waals radius	283 pm
	Spectral lines of radium
Other properties
Natural occurrence	from decay
Crystal structure	body-centered cubic (bcc)
Thermal conductivity	18.6 W/(m⋅K)
Electrical resistivity	1 µΩ⋅m (at 20 °C)
Magnetic ordering	nonmagnetic
CAS Number	7440-14-4
History
Discovery	Pierre and Marie Curie (1898)
First isolation	Marie Curie (1910)
Isotopes of radium

Radium is a chemical element; it has symbol Ra and atomic number 88. It is the sixth element in group 2 of the periodic table, also known as the alkaline earth metals. Pure radium is silvery-white, but it readily reacts with nitrogen (rather than oxygen) upon exposure to air, forming a black surface layer of radium nitride (Ra₃N₂). All isotopes of radium are radioactive, the most stable isotope being radium-226 with a half-life of 1,600 years. When radium decays, it emits ionizing radiation as a by-product, which can excite fluorescent chemicals and cause radioluminescence.

Radium, in the form of radium chloride, was discovered by Marie and Pierre Curie in 1898 from ore mined at Jáchymov. They extracted the radium compound from uraninite and published the discovery at the French Academy of Sciences five days later. Radium was isolated in its metallic state by Marie Curie and André-Louis Debierne through the electrolysis of radium chloride in 1911.

In nature, radium is found in uranium ores and (to a lesser extent) thorium ores in trace amounts as small as a seventh of a gram per ton of uraninite. Radium is not necessary for living organisms, and its radioactivity and chemical reactivity make adverse health effects likely when it is incorporated into biochemical processes because of its chemical mimicry of calcium. As of 2014, other than its use in nuclear medicine, radium has no commercial applications. Formerly, from the 1910s to the 1970s, it was used as a radioactive source for radioluminescent devices and also in radioactive quackery for its supposed curative power. These applications have become obsolete owing to radium's toxicity; as of 2020, less dangerous isotopes (of other elements) are instead used in radioluminescent devices.

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