iridium
[ ih-rid-ee-uh m, ahy-rid- ]
/ ɪˈrɪd i əm, aɪˈrɪd- /
noun Chemistry.
a precious metallic element resembling platinum: used in platinum alloys and for the points of gold pens. Symbol: Ir; atomic weight: 192.2; atomic number: 77; specific gravity: 22.4 at 20°C.
Words nearby iridium
iridescence,
iridescent,
iridescent seaweed,
iridesis,
iridic,
iridium,
iridize,
irido-,
iridoavulsion,
iridocapsulitis,
iridocele
Example sentences from the Web for iridium
British Dictionary definitions for iridium
iridium
/ (aɪˈrɪdɪəm, ɪˈrɪd-) /
noun
a very hard inert yellowish-white transition element that is the most corrosion-resistant metal known. It occurs in platinum ores and is used as an alloy with platinum. Symbol: Ir; atomic no: 77; atomic wt: 192.22; valency: 3 or 4; relative density: 22.42; melting pt: 2447°C; boiling pt: 4428°C
Word Origin for iridium
C19: New Latin, from
irido- +
-ium; from its colourful appearance when dissolving in certain acids
Medical definitions for iridium
iridium
[ ĭ-rĭd′ē-əm ]
n. Symbol Ir
A hard, brittle, corrosion-resistant metallic element, whose radioisotope is used in the treatment of tumors. Atomic number 77.
Scientific definitions for iridium
iridium
[ ĭ-rĭd′ē-əm ]
Ir
A rare, whitish-yellow element that is the most corrosion-resistant metal known. It is very dense, hard, and brittle, and is is used to make hard alloys of platinum for jewelry, pen points, and electrical contacts. Atomic number 77; atomic weight 192.2; melting point 2,410°C; boiling point 4,130°C; specific gravity 22.42 (at 17°C); valence 3, 4. See Periodic Table.
A Closer Look
In 1978 geologist Walter Alvarez discovered a high concentration of iridium in a layer of clay that had formed between the Mesozoic and Cenozoic eras, a period about 65 million years ago during which dinosaurs and many other organisms became extinct. This finding was significant as iridium is rare at Earth's surface (an unusually high concentration is called an iridium anomaly). Most surface iridium is thought to come from dust created when meteors disintegrate in the atmosphere or collide with Earth. Alvarez's father, the physicist Luis Alvarez, suggested that the iridium might have come from the impact of a meteor about 10 km (6.2 mi) across. Such an impact would have caused an enormous explosion, sending huge clouds of dust into the atmosphere. The dust, blocking out the Sun and causing extensive acid rain, would have triggered a worldwide ecological disaster. Many scientists think that such a disaster caused the extinction of the dinosaurs and at least 70 percent of all other species alive at the time, including most of Earth's land plants. Geologists have since found iridium deposits in rocks of a similar age in more than 100 places worldwide. Scientists in the early 1990s identified a large impact crater in the Yucatán peninsula of central Mexico that is the same age as the iridium deposit found by Alvarez. It is 200 km (125 mi) wide and may have been caused by the same impact.