Titanium (Ti)

Sifat-Sifat Umum

Simbol Ti
Nomor Atom 22
Berat atom 47.867
Kelompok
4 (keluarga titanium)
IVA (IUPAC), IVB (CAS)
Solid, Paramagnetic, Conductor, Transition Metal, Metal, Stable, Natural
Periode 4
Blok d

Media

Kepadatan 4.54 g/cm3
Isipadu Atom 10.6 cm3/mole
Radius Atom 1.45 angstroms
Radius Kovalen 136 pm
Crust Abundance 0.66%
Crystal Structure Hexagonal
Color Silver

Energi

Elektronegativitas 1.5 (Skala Pauling)
Afinitas Elektron 7.6 kJ/mol
Ionisasi Energi Pertama 659 kJ/mol
ke-2 Ionization Energy 1309.8 kJ/mol
ke-3 Ionization Energy 2652.5 kJ/mol
ke-4 Ionization Energy 4174.6 kJ/mol
ke-5 Ionization Energy 9581 kJ/mol
ke-6 Ionization Energy 11533 kJ/mol
ke-7 Ionization Energy 13590 kJ/mol
ke-8 Ionization Energy 16440 kJ/mol
ke-9 Ionization Energy 18530 kJ/mol
ke-10 Ionization Energy 20833 kJ/mol
ke-11 Ionization Energy 25575 kJ/mol
ke-12 Ionization Energy 28125 kJ/mol
ke-13 Ionization Energy 76015 kJ/mol
ke-14 Ionization Energy 83280 kJ/mol
ke-15 Ionization Energy 90880 kJ/mol
ke-16 Ionization Energy 100700 kJ/mol
ke-17 Ionization Energy 109100 kJ/mol
ke-18 Ionization Energy 117800 kJ/mol
ke-19 Ionization Energy 129900 kJ/mol
ke-20 Ionization Energy 137530 kJ/mol
ke-21 Ionization Energy 602930 kJ/mol
ke-22 Ionization Energy 639294 kJ/mol
Kapasitas Panas Spesifik 0.523 J g−1 K−1
Konduktivitas Termal 21.9 W·m−1·K−1

Elektron & Oksidasi

Kondisi Oksidisasi +4,3,2
Elektron Setiap Kelopak 2 8 10 2
Konfigurasi Elektron [Ar] 3d2 4s2
1s2 2s2 2p6 3s2 3p6 3d2 4s2
Diagram Orbital
1s
↿⇂
2s
↿⇂
2p
↿⇂
↿⇂
↿⇂
3s
↿⇂
3p
↿⇂
↿⇂
↿⇂
3d
↿ 
↿ 
 
 
 
4s
↿⇂
4p
 
 
 
4d
 
 
 
 
 
4f
 
 
 
 
 
 
 

Nuclear

Radioaktif Tidak

Media

Keplanetan Model Bohr Titanium (Ti)
Description
Shiny, dark-gray metal. Ninth most abundant element in the earth's crust (5700 ppm). It can be highly polished, and is relatively immune to tarnishing.
Uses
Since it is strong and resists acids it is used in many alloys. Titanium dioxide (TiO2), a white pigment that covers surfaces very well, is used in paint, rubber, paper and many others.
Sources
Usually occurs in the minerals ilmenite (FeTiO3) or rutile (TiO2). Also in Titaniferous magnetite, titanite (CaTiSiO5), and iron ores. Pure metal produced by heating TiO2 with C and Cl2 to produce TiCl4 then heated with Mg gas in Ar atmosphere.
Pronounciation (English)
tie-TAY-ni-em

Terjemahan

Afrikaans Titaan
Aragonese Titanio
العربية تيتانيوم
Armãneashte Titanu
asturianu Titaniu
azərbaycan Titan
български Титан
বাংলা টাইটেনিয়াম
brezhoneg Titan
bosanski Titanij[um]
Byelorussian Тытан
Cebuano Titanyo
čeština Titan
Chuvash Титан
Cymraeg Titani
dansk Titan
Deutsch Titan
Ελληνικά Τιτανιο
English Titanium
esperanto Titano
español Titanio
eesti Titaan
euskara Titanioa
فارسی تیتانیم
suomi Titaani
føroyskt Titan
français Titane
furlan Titani
Frysk Titaan
Gaeilge Tíotáiniam
Gàidhlig Tìotainiam
galego Titanio
ગુજરાતી ટાઇટેનિયમનો
Gaelg Çhitaanium
Hakka Chinese Thai (鈦)
עברית טיטניום
हिन्दी टाइटानियम
hrvatski Titanij
magyar Titán
հայերեն Տիտան
Indonesia Titanium
íslenska Titan
italiano Titanio
日本語 チタン
ქართული ტიტანი
کٲشُر Titan
қазақ тілі Титан
한국어 타이타늄, 타타늄, 타탄
kurdî Tîtanyûm
Komi Титан
kernewek Tytanyum
кыргызча Титан
Latin Titanium
Lëtzebuergesch Titan
Lombard Titàni
lingála Titani
lietuvių Titanas
latviešu Titāns
Mari Титан
Māori Titanium
македонски Титан
മലയാളം ടൈറ്റാനിയം
монгол Титан
Мокшан Титан
Melayu Titanium
Malti Titanju[m]
Nahuatl Titanio
Nederlands Titaan
norsk Titan
Occitan Titani
ирон Титан
polski Tytan
português Titânio
Runasimi Titanyu
română Titan
русский Титан
slovenčina Titán
slovenščina Titan
Samoan Titanimi
Samogitian Titans
shqip Titan
српски Титан
Southern Sotho Titaniamo
svenska Titan
Kiswahili Titani
தமிழ் டைட்டேனியம்
тоҷикӣ Титан
ไทย ไทเทเนียม
Türkçe Titan
ئۇيغۇرچە تىتان
українська Титан
o‘zbek Titan
Tiếng Việt Titan
Võro Titaan
中文

Sejarah

Ditemukan Di
1791
Ditemukan Oleh
William Gregor
Ditemukan Pada
England
Asal Kata
Named after the "Titans", (the sons of the Earth goddess in Greek mythology)