Element:	Lawrencium
Symbol:	Lr
Atomic number:	103
Atomic weight:	[262]
Electron configuration:	[Rn] 5f14 7s2 7p ?
Ground level:	2Po1/2 ?
Ionization potential:	4.9 ev ?
Physical form:	Metal
Melting point:	1627°C
Boiling point:
Critical temperature:
Density:
Specific heat:
Valence	3

Origin of name: after Ernest O. Lawrence [1901–1958], inventor of the cyclotron

This member of the 5f transition elements (actinide series) was discovered in March 1961 by A. Ghiorso, T. Sikkeland, A. E. Larsh, and R. M. Latimer. A 3-µg californium target, consisting of a mixture of isotopes of mass number 249, 250, 251, and 252, was bombarded with either ¹⁰B or ¹¹B. The electrically charged transmutation nuclei recoiled with an atmosphere of helium and were collected on a thin copper conveyor tape which was then moved to place collected atoms in front of a series of solid-state detectors. The isotope of element 103 produced in this way decayed by emitting an 8.6-MeV alpha particle with a half-life of 8 s. In 1967, Flerov and associates of the Dubna Laboratory reported their inability to detect an alpha emitter with a half-life of 8 s which was assigned by the Berkeley group to ²⁵⁷103. This assignment has been changed to ²⁵⁸Lr or ²⁵⁹Lr. In 1965, the Dubna workers found a longer lived lawrencium isotope, ²⁵⁶Lr, with a half-life of 35 s. In 1968, Ghiorso and associates at Berkeley were able to use a few atoms of this isotope to study the oxidation behavior of lawrencium. Using solvent extraction techniques and working very rapidly, they extracted lawrencium ions from a buffered aqueous solution into an organic solvent, completing each extraction in about 30 s. It was found that lawrencium behaves differently from dipositive nobelium and more like the tripositive elements earlier in the actinide series.

Ten isotopes of lawrencium are now recognized.