Meitnerium
109
Mt
Groep
9
Periode
7
Blok
d
Protrone
Elektrone
Neutrone
109
109
159
Algemene Eienskappe
Atoom Nommer
109
Atoommassa
[278]
Massa Nommer
268
Kategorie
Oorgangsmetale
Kleur
n/a
Radioaktief
Ja
Named after Lise Meitner, the Austrian physicist
Kristalstruktuur
n/a
Geskiendenis
Meitnerium was first synthesized in 1982 by a German research team led by Peter Armbruster and Gottfried Münzenberg at the Institute for Heavy Ion Research (Gesellschaft für Schwerionenforschung) in Darmstadt.
The team bombarded a target of bismuth-209 with accelerated nuclei of iron-58 and detected a single atom of the isotope meitnerium-266.
The team bombarded a target of bismuth-209 with accelerated nuclei of iron-58 and detected a single atom of the isotope meitnerium-266.
Elektrone per skil
2, 8, 18, 32, 32, 15, 2
Elektronkonfigurasie
[Rn] 5f14 6d7 7s2
Meitnerium has 7 isotopes whose half-lives are known
Fisiese Eienskappe
Fase
Soliede
Digtheid
35 g/cm3
Smeltpunt
-
Kookpunt
-
Heat of Fusion
n/a
Heat of Vaporization
n/a
Spesifieke Hitte Kapasiteit
-
Oorvloed in die aardkors
n/a
Oorvloed in die heelal
n/a
Beeld Krediete: Wikimedia Commons (Commander-pirx)
The element was discovered at the Institute for Heavy Ion Research in Darmstadt, Germany
CAS Nommer
54038-01-6
PubChem CID Nommer
n/a
Atomiese Eienskappe
Atoom radius
-
Kovalente Radius
129 pm
Elektronegatiewiteit
-
Ionisasie potensiaal
-
Atoom volume
-
Termiese geleidingsvermoë
-
Oksidasiestate
3, 4, 6
Toepassings
Meitnerium is used for scientific research purposes only.
Meitnerium is harmful due to its radioactivity
Isotope
Stabiele Isotope
-Onstabiele Isotope
265Mt, 266Mt, 267Mt, 268Mt, 269Mt, 270Mt, 271Mt, 272Mt, 273Mt, 274Mt, 275Mt, 276Mt, 277Mt, 278Mt, 279Mt