"mendeleevium" meaning in English

{
  "head_templates": [
    {
      "args": {
        "1": "-"
      },
      "expansion": "mendeleevium (uncountable)",
      "name": "en-noun"
    }
  ],
  "lang": "English",
  "lang_code": "en",
  "pos": "noun",
  "senses": [
    {
      "categories": [
        {
          "kind": "other",
          "name": "English entries with incorrect language header",
          "parents": [
            "Entries with incorrect language header",
            "Entry maintenance"
          ],
          "source": "w"
        },
        {
          "kind": "other",
          "name": "Pages with 2 entries",
          "parents": [],
          "source": "w"
        },
        {
          "kind": "other",
          "name": "Pages with entries",
          "parents": [],
          "source": "w"
        }
      ],
      "examples": [
        {
          "ref": "1963, “New Physical Research Facilities”, in Major Activities in the Atomic Energy Programs, January–December 1962, United States Atomic Energy Commission, United States Government Printing Office, page 336:",
          "text": "Seven new elements were discovered with the 60-inch cyclotron: 85 (astatine), 93 (neptunium), 94 (plutonium), 96 (curium), 97 (berkelium), 98 (californium), and 101 (mendeleevium).",
          "type": "quote"
        },
        {
          "ref": "1970, O. A. Songina, Rare Metals, page 290:",
          "text": "In 1960 the following transuranide elements were definitely known to exist (atomic numbers are given in parentheses): neptunium (93); plutonium (94); americium (95); curium (96); berkelium (97); californium (98); einsteinium (99); fermium (100); mendeleevium (101).[…]Element 101 — mendeleevium — was prepared in an even smaller quantity: 17 atoms in all.",
          "type": "quote"
        },
        {
          "ref": "1977, D. A. Johnson, “Oxidation States of the Lanthanides”, in Advances in Inorganic Chemistry and Radiochemistry, volume 20, Academic Press, →ISBN, section “Extension to Other Systems”, subsection “Actinide Series”, page 110:",
          "text": "The first dipositive actinide ion to be identified in aqueous solution was that of mendeleevium (262).[…]As mendeleevium is the analog of thulium, it was not surprising that nobelium, the analog of ytterbium, was subsequently found to form a very stable dipositive oxidation state.",
          "type": "quote"
        }
      ],
      "form_of": [
        {
          "word": "mendelevium"
        }
      ],
      "glosses": [
        "Rare form of mendelevium."
      ],
      "id": "en-mendeleevium-en-noun-LbR5U0j6",
      "links": [
        [
          "mendelevium",
          "mendelevium#English"
        ]
      ],
      "tags": [
        "form-of",
        "rare",
        "uncountable"
      ]
    }
  ],
  "word": "mendeleevium"
}

{
  "head_templates": [
    {
      "args": {
        "1": "-"
      },
      "expansion": "mendeleevium (uncountable)",
      "name": "en-noun"
    }
  ],
  "lang": "English",
  "lang_code": "en",
  "pos": "noun",
  "senses": [
    {
      "categories": [
        "English entries with incorrect language header",
        "English lemmas",
        "English nouns",
        "English rare forms",
        "English terms with quotations",
        "English uncountable nouns",
        "Pages with 2 entries",
        "Pages with entries"
      ],
      "examples": [
        {
          "ref": "1963, “New Physical Research Facilities”, in Major Activities in the Atomic Energy Programs, January–December 1962, United States Atomic Energy Commission, United States Government Printing Office, page 336:",
          "text": "Seven new elements were discovered with the 60-inch cyclotron: 85 (astatine), 93 (neptunium), 94 (plutonium), 96 (curium), 97 (berkelium), 98 (californium), and 101 (mendeleevium).",
          "type": "quote"
        },
        {
          "ref": "1970, O. A. Songina, Rare Metals, page 290:",
          "text": "In 1960 the following transuranide elements were definitely known to exist (atomic numbers are given in parentheses): neptunium (93); plutonium (94); americium (95); curium (96); berkelium (97); californium (98); einsteinium (99); fermium (100); mendeleevium (101).[…]Element 101 — mendeleevium — was prepared in an even smaller quantity: 17 atoms in all.",
          "type": "quote"
        },
        {
          "ref": "1977, D. A. Johnson, “Oxidation States of the Lanthanides”, in Advances in Inorganic Chemistry and Radiochemistry, volume 20, Academic Press, →ISBN, section “Extension to Other Systems”, subsection “Actinide Series”, page 110:",
          "text": "The first dipositive actinide ion to be identified in aqueous solution was that of mendeleevium (262).[…]As mendeleevium is the analog of thulium, it was not surprising that nobelium, the analog of ytterbium, was subsequently found to form a very stable dipositive oxidation state.",
          "type": "quote"
        }
      ],
      "form_of": [
        {
          "word": "mendelevium"
        }
      ],
      "glosses": [
        "Rare form of mendelevium."
      ],
      "links": [
        [
          "mendelevium",
          "mendelevium#English"
        ]
      ],
      "tags": [
        "form-of",
        "rare",
        "uncountable"
      ]
    }
  ],
  "word": "mendeleevium"
}