Talk:Lawrencium/GA1
Latest comment: 10 years ago by Double sharp in topic GA Review
GA Review
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Reviewer: Parcly Taxel (talk · contribs) 09:53, 9 September 2014 (UTC)
Once this goes to GA, we'll have an actinide GT. Parcly Taxel 09:53, 9 September 2014 (UTC)
GA review – see WP:WIAGA for criteria
- Is it reasonably well written?
- Is it factually accurate and verifiable?
- A. Has an appropriate reference section:
- B. Citation to reliable sources where necessary:
- C. No original research:
- A. Has an appropriate reference section:
- Is it broad in its coverage?
- A. Major aspects:
- B. Focused:
- A. Major aspects:
- Is it neutral?
- Fair representation without bias:
- Fair representation without bias:
- Is it stable?
- No edit wars, etc:
- No edit wars, etc:
- Does it contain images to illustrate the topic?
- A. Images are tagged with their copyright status, and valid fair use rationales are provided for non-free content:
- B. Images are provided if possible and are relevant to the topic, and have suitable captions:
- A. Images are tagged with their copyright status, and valid fair use rationales are provided for non-free content:
- Overall:
- Pass or Fail:
- Pass or Fail:
Lead
- "Twelve isotopes of lawrencium are currently known: the most stable is 266Lr with a half-life of 11 hours; but the shorter-lived 260Lr (half-life 2.7 minutes) is most commonly used in chemistry because it can be produced on a larger scale." Colon should be a semicolon, semicolon should be a comma.
History
- "Eighteen tracks were noted, with decay energy around (9 ± 1) MeV and half-life around 1⁄4 s; the Berkeley team noted that while the cause could be the production of an isotope of element 103, other possibilities could not be ruled out."
Characteristics -> Chemical
- "It has been speculated that the 7s electrons would be are relativistically stabilized, so that in reducing conditions, only the 7p1/2 or 6d electron would be ionized, leading to the monovalent Lr+ ion."
Atomic
- "If the s2p configuration is correct, then lawrencium could not cannot be regarded as a transition metal under the IUPAC definition ("An element whose atom has an incomplete d sub-shell, or which can give rise to cations with an incomplete d sub-shell."), …"