rutherfordium$520930$ - definitie. Wat is rutherfordium$520930$
Diclib.com
Woordenboek ChatGPT
Voer een woord of zin in in een taal naar keuze 👆
Taal:

Vertaling en analyse van woorden door kunstmatige intelligentie ChatGPT

Op deze pagina kunt u een gedetailleerde analyse krijgen van een woord of zin, geproduceerd met behulp van de beste kunstmatige intelligentietechnologie tot nu toe:

  • hoe het woord wordt gebruikt
  • gebruiksfrequentie
  • het wordt vaker gebruikt in mondelinge of schriftelijke toespraken
  • opties voor woordvertaling
  • Gebruiksvoorbeelden (meerdere zinnen met vertaling)
  • etymologie

Wat (wie) is rutherfordium$520930$ - definitie

CHEMICAL ELEMENT WITH THE ATOMIC NUMBER OF 104
Kurchatovium; Unnilquadium; Element 104; Unq; Eka-Hafnium; Eka-hafnium; Kurchatorium; Rf (element); Ruterfordium; Rutherfordium(IV) chloride; History of rutherfordium
  • Element 104 was eventually named after [[Ernest Rutherford]]
  • The tetrahedral structure of the RfCl<sub>4</sub> molecule

Rutherfordium         
Rutherfordium is a chemical element with the symbol Rf and atomic number 104, named after New Zealand-born British physicist Ernest Rutherford. As a synthetic element, it is not found in nature and can only be made in a laboratory.
rutherfordium         
[?r???'f?:d??m]
¦ noun the chemical element of atomic number 104, a very unstable element made by high-energy atomic collisions. (Symbol: Rf)
Origin
1960s: mod. L., named after the New Zealand physicist Ernest Rutherford.
Extended periodic table         
  • Energy eigenvalues for the 1s, 2s, 2p<sub>1/2</sub> and 2p<sub>3/2</sub> shells from solutions of the [[Dirac equation]] (taking into account the finite size of the nucleus) for ''Z''&nbsp;=&nbsp;135–175 (–·–), for the Thomas-Fermi potential (—) and for ''Z''&nbsp;=&nbsp;160–170 with the self-consistent potential (---).<ref name=Fricke/>
  • Energy eigenvalues (in eV) for the outermost electrons of elements with Z = 100 through 172, predicted using Dirac–Fock calculations. The − and + signs refer to orbitals with decreased or increased azimuthal quantum number from spin–orbit splitting respectively: p− is p<sub>1/2</sub>, p+ is p<sub>3/2</sub>, d− is d<sub>3/2</sub>, d+ is d<sub>5/2</sub>, f− is f<sub>5/2</sub>, f+ is f<sub>7/2</sub>, g− is g<sub>7/2</sub>, and g+ is g<sub>9/2</sub>.<ref name=BFricke/>
  • Kulsha's first suggested form
  • Kulsha's second suggested form
  • 512px
REFERS TO THE EXTENSION ON THE PERIODIC TABLE BEYOND ITS CURRENT 7 PERIODS INCLUDING ADDITIONAL PERIODS
Periodic table (extended); Periodic table/extended; Periodic table/Extended Table; Period 8 element; G-orbital; Period 8; Superactinide; Element 123; Untriseptium; Untrioctium; Untriennium; Untrihexium; Feynmanium; Eka-protactinium; Ekauranium; Unbipentium; Unbiseptium; Unbioctium; Unbiennium; Untrinilium; Untriunium; Untribium; Untripentium; Element 139; Element 138; Element 137; Element 136; Eka-Protactinium; Ekaprotactinium; Unquadunium; Unsepthexium; Superactinide series; Superactinides; Period 9 element; Unoctbium; Element 125; Element 127; Element 128; Element 129; Element 130; Element 131; Element 132; Unquadseptium; Unquadhexium; Untritrium; Untriquadium; G orbital; G block; Uqn; G-block; End of the periodic table; Unsepttrium; Template:Extension of the periodic table beyond the seventh period; Superactinoid; Extension of the periodic table beyond the seventh period; Unpentunium; Unquadbium; Unquadennium; Unquadnilium; Unquadoctium; Unquadpentium; Unquadquadium; Unquadtrium; Unseptbium; Unseptennium; Unseptnilium; Unseptoctium; Unseptpentium; Unseptquadium; Unseptseptium; Unseptunium; Unpenttrium; Unpentseptium; Unpentquadium; Unpentpentium; Unpentoctium; Unpentnilium; Unpenthexium; Unpentennium; Unpentbium; Unoctunium; Unocttrium; Unoctquadium; Unoctnilium; Unhexunium; Unhextrium; Unhexseptium; Unhexquadium; Unhexpentium; Unhexoctium; Unhexnilium; Unhexhexium; Unhexennium; Unhexbium; Unseptrium; Element 173; Element 152; G (Block); Isotopes of untriseptium; Element 133; Element 134; Element 135; Extended periodic table (detailed cells); Eka-neptunium; Eka-americium; Eka-curium; Eka-berkelium; Eka-californium; Eka-einsteinium; Eka-fermium; Eka-mendelevium; Eka-nobelium; Eka-lawrencium; Eka-rutherfordium; Eka-dubnium; Eka-seaborgium; Eka-bohrium; Pyykkö model; Eka-superactinide; Eka-superactinides; Period 10; Period 9; Period 10 element; Fricke model; Burkhard Fricke; Eight-period table; Element 140; Element 141; Element 142; Element 143; Element 144; Element 145; Element 146; Element 147; Element 148; Element 149; Element 150; Element 151; Element 153; Element 154; Element 155; Element 156; Element 157; Element 158; Element 159; Element 160; Element 161; Element 162; Element 163; Element 164; Element 165; Element 166; Element 167; Element 168; Element 169; Element 170; Element 171; Element 172; Element 174; Element 175; Element 176; Element 177; Element 178; Element 179; Element 180; Element 181; Element 182; Element 183; Element 184; Eka-ununoctium; Eka-hassium; Eka-meitnerium; Eka-darmstadtium; Eka-roentgenium; Eka-copernicium; Eka-flerovium; Eka-livermorium; Superlanthanide; Superlanthanides; Extended periodic table (large cells); Unsepttriium; Uoq; Utq; Uqb; Uqt; Uqq; Uqh; Uqe; Uqs; Upq; Predicted elements; Extended periodic table (large version); Biunnilium; Biseptquadium; Extended Periodic Table; Unbitrium; Extended chemical periodic table; Period 8 elements; Period 9 elements; Period 10 elements; Elements beyond oganesson; Beyond oganesson; Biunnillium; Draft:Unbitrium; Hypothetical chemical elements; Hypothetical chemical element; Hypothetical elements; Hypothetical element
An extended periodic table theorises about chemical elements beyond those currently known in the periodic table and proven. Those elements could include any beyond oganesson, which completes the seventh period (row) in the periodic table at atomic number (Z) 118.

Wikipedia

Rutherfordium

Rutherfordium is a chemical element with the symbol Rf and atomic number 104, named after New Zealand-born British physicist Ernest Rutherford. As a synthetic element, it is not found in nature and can only be made in a particle accelerator. It is radioactive; the most stable known isotope, 267Rf, has a half-life of about 48 minutes.

In the periodic table, it is a d-block element and the second of the fourth-row transition elements. It is in period 7 and is a group 4 element. Chemistry experiments have confirmed that rutherfordium behaves as the heavier homolog to hafnium in group 4. The chemical properties of rutherfordium are characterized only partly. They compare well with the other group 4 elements, even though some calculations had indicated that the element might show significantly different properties due to relativistic effects.

In the 1960s, small amounts of rutherfordium were produced at Joint Institute for Nuclear Research in the Soviet Union and at Lawrence Berkeley National Laboratory in California. Priority of discovery and hence the name of the element was disputed between Soviet and American scientists, and it was not until 1997 that the International Union of Pure and Applied Chemistry (IUPAC) established rutherfordium as the official name of the element.