{"id":332,"date":"2023-07-23T22:02:59","date_gmt":"2023-07-23T22:02:59","guid":{"rendered":"https:\/\/chemuza.org\/id\/logam-transisi-internal\/"},"modified":"2023-07-23T22:02:59","modified_gmt":"2023-07-23T22:02:59","slug":"logam-transisi-internal","status":"publish","type":"post","link":"https:\/\/chemuza.org\/id\/logam-transisi-internal\/","title":{"rendered":"Logam transisi internal pada tabel periodik"},"content":{"rendered":"<figure class=\"wp-block-image aligncenter size-full\"><img decoding=\"async\" loading=\"lazy\" width=\"800\" height=\"465\" src=\"https:\/\/chemuza.org\/wp-content\/uploads\/2023\/08\/tableau-periodique-interne-des-metaux-de-transition.jpg\" alt=\"Tabel periodik logam transisi internal\" class=\"wp-image-4846\" srcset=\"\" sizes=\"auto, \"><\/figure>\n<p> <a href=\"https:\/\/chemuza.org\/id\/tabel-periodik-logam\/\" data-type=\"post\" data-id=\"4840\">Logam transisi internal<\/a> adalah sekelompok unsur kimia yang terletak di dua baris terbawah <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">tabel periodik<\/a> , tepat di bawah blok <a href=\"https:\/\/chemuza.org\/id\/tabel-periodik-logam-transisi\/\" data-type=\"post\" data-id=\"4900\">logam transisi<\/a> utama.<\/p>\n<p> Logam transisi internal dibagi menjadi dua kelompok:<\/p>\n<ul>\n<li> <strong>Lantanida<\/strong> , yang memiliki nomor atom berkisar antara 57 hingga 71, dan<\/li>\n<li> <strong>Aktinida<\/strong> , yang memiliki nomor atom berkisar antara 89 hingga 103.<\/li>\n<\/ul>\n<p> Mari kita jelajahi lebih jauh unsur transisi internal tabel periodik. <\/p>\n<h2 class=\"wp-block-heading\" id=\"What-are-inner-transition-metals?-And-why-are-they-placed-at-the-bottom?\"> <strong>Apa yang dimaksud dengan logam transisi internal? Dan mengapa mereka ditempatkan di bagian bawah?<\/strong><\/h2>\n<p> Logam transisi internal membentuk kelompok unsur yang ditempatkan di bagian bawah tabel periodik.<\/p>\n<p> Logam transisi internal ini hanya merupakan bagian dari logam transisi dan juga memiliki sifat yang mirip dengan logam transisi. Namun mereka ditempatkan di bagian interior sebagai perpanjangan dari grup 3. <\/p>\n<figure class=\"wp-block-image aligncenter size-full\"><img decoding=\"async\" loading=\"lazy\" width=\"800\" height=\"449\" src=\"https:\/\/chemuza.org\/wp-content\/uploads\/2023\/08\/pourquoi-les-metaux-de-transition-internes-sont-ils-appeles-ainsi.jpg\" alt=\"mengapa logam transisi internal disebut demikian\" class=\"wp-image-4909\" srcset=\"\" sizes=\"auto, \"><\/figure>\n<p> Oleh karena itu, unsur logam ini disebut logam transisi internal.<\/p>\n<h3 class=\"wp-block-heading\"> <strong>Mengapa unsur-unsur tersebut ditempatkan di bagian bawah tabel periodik?<\/strong><\/h3>\n<p> Jika logam transisi internal ditempatkan sebagai perpanjangan golongan 3, maka tabel periodik akan tampak sangat panjang (seperti gambar di bawah). <\/p>\n<figure class=\"wp-block-image aligncenter size-full\"><img decoding=\"async\" loading=\"lazy\" width=\"800\" height=\"298\" src=\"https:\/\/chemuza.org\/wp-content\/uploads\/2023\/08\/tableau-periodique-long.jpg\" alt=\"tabel periodik panjang\" class=\"wp-image-4910\" srcset=\"\" sizes=\"auto, \"><\/figure>\n<p> Jadi agar pas di kertas format A4, 2 baris logam transisi interior ditempatkan di bagian bawah.<\/p>\n<p> Selain itu, unsur-unsur transisi internal ini memiliki <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">elektron valensi<\/a> pada <a href=\"https:\/\/winter.group.shef.ac.uk\/orbitron\/atomic_orbitals\/7f\/index.html\" target=\"_blank\" rel=\"noopener\">orbital f<\/a> , sehingga unsur-unsur ini menunjukkan sifat kimia yang serupa.<\/p>\n<p> Karena alasan inilah logam transisi internal ditempatkan di bagian bawah tabel periodik.<\/p>\n<h2 class=\"wp-block-heading\" id=\"List-of-inner-transition-metals\"> <strong>Daftar logam transisi internal<\/strong><\/h2>\n<p> Daftar logam transisi internal diberikan di bawah ini. <\/p>\n<figure class=\"wp-block-table aligncenter\">\n<table class=\"has-background\" style=\"background-color:#dff1ff\">\n<tbody>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> <strong>Nomor atom<\/strong><\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> <strong>Simbol<\/strong><\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> <strong>Nama elemen dan simbol<\/strong><\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 57<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Di sana<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Lantanum<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 58<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Ini<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Cerium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 59<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> PR<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Praseodimium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 60<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> sd<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Neodimium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 61<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> PM<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Prometium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 62<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Kecil<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Samarium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 63<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> KITA<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Europium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 64<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Tuhan<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Gadolinium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 65<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> TBC<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Terbium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 66<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Mati<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Disprosium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 67<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Ho<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Holmium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 68<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Eh<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Erbium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 69<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> TM<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Thulium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 70<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Yb<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Ytterbium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 71<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Membaca<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Lutetium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 89<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Ac<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Aktinium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 90<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Th<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Torium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 91<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> pennsylvania<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Protaktinium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 92<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> kamu<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Uranium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 93<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Np<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Neptunium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 94<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Bisa<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Plutonium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 95<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Saya<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Amerika<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 96<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> cm<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> rasa ingin tahu<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 97<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> BK<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> berkelium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 98<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Melihat<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Kalifornia<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 99<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Adalah<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Einsteinium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 100<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> FM<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> fermium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 101<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Maryland<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Mendelevium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 102<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> TIDAK<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Nobelium<\/td>\n<\/tr>\n<tr>\n<td class=\"has-text-align-center\" data-align=\"center\"> 103<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Kiri\/Kanan<\/td>\n<td class=\"has-text-align-center\" data-align=\"center\"> Lawrence <\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<\/figure>\n<h2 class=\"wp-block-heading\" id=\"Facts-about-Inner-transition-metals\"><strong>Fakta tentang logam transisi internal<\/strong><\/h2>\n<p> Berikut beberapa fakta menarik tentang logam transisi internal:<\/p>\n<ol>\n<li> Ada dua jenis logam transisi internal: lantanida dan aktinida. Lantanida adalah 15 unsur dengan nomor atom berkisar antara 57 ( <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">lantanum<\/a> ) hingga 71 ( <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">lutetium<\/a> ), sedangkan aktinida adalah 15 unsur dengan nomor atom berkisar antara 89 ( <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">aktinium<\/a> ) hingga 103 ( <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">lawrensium<\/a> ).<\/li>\n<li> Logam transisi internal memiliki konfigurasi elektronik yang unik karena adanya orbital f. Hal ini menghasilkan sifat kimia dan fisik yang tidak biasa, seperti titik leleh dan titik didih yang tinggi, pembentukan ion kompleks, dan paramagnetisme.<\/li>\n<li> Sebagian besar logam transisi internal bersifat radioaktif dan beberapa telah digunakan dalam reaktor nuklir dan senjata.<\/li>\n<li> Logam transisi internal penting dalam teknologi dan industri. Misalnya, <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">neodymium<\/a> dan <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">samarium<\/a> digunakan untuk membuat magnet yang kuat <a href=\"https:\/\/en.wikipedia.org\/wiki\/Neodymium_magnet\" target=\"_blank\" rel=\"noopener\"><sup>[1]<\/sup><\/a> dan cerium digunakan dalam konverter katalitik untuk mengurangi emisi kendaraan. <a href=\"https:\/\/pubs.usgs.gov\/of\/2013\/1037\/OFR2013-1037.pdf\" target=\"_blank\" rel=\"noopener\"><sup>[2]<\/sup><\/a><\/li>\n<li> Lantanida juga disebut &#8220;elemen tanah jarang&#8221; karena relatif jarang ditemukan di kerak bumi. Namun, sebenarnya tidak langka dan ditemukan di banyak mineral.<\/li>\n<li> Aktinida semuanya bersifat radioaktif dan beberapa, seperti <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">uranium<\/a> dan <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">plutonium<\/a> , penting untuk tenaga nuklir dan senjata. Namun, mereka juga menimbulkan risiko lingkungan dan kesehatan karena radioaktivitasnya.<\/li>\n<li> Logam transisi internal telah dikenal sejak zaman kuno dan digunakan untuk perhiasan dan dekorasi. Namun, mereka tidak dipelajari atau dipahami secara luas hingga abad <sup>ke-20<\/sup> .<\/li>\n<\/ol>\n<h2 class=\"wp-block-heading\" id=\"Properties-of-Inner-transition-metals\"> <strong>Sifat logam transisi internal<\/strong><\/h2>\n<p> Berikut beberapa sifat logam transisi internal:<\/p>\n<ul>\n<li> <strong>Konfigurasi elektronik:<\/strong> Logam transisi internal memiliki sebagian orbital f yang terisi, sehingga memberikan konfigurasi elektronik yang unik serta sifat kimia dan fisik yang tidak biasa.<\/li>\n<li> <strong>Titik leleh dan titik didih yang tinggi:<\/strong> Logam transisi internal memiliki titik leleh dan titik didih yang tinggi karena ikatan logam yang kuat akibat adanya elektron tidak berpasangan pada orbital f.<\/li>\n<li> <strong>Paramagnetisme:<\/strong> Logam transisi internal bersifat paramagnetik, artinya logam tersebut tertarik pada medan magnet karena adanya elektron tidak berpasangan pada orbital f.<\/li>\n<li> <strong>Pembentukan ion kompleks:<\/strong> Logam transisi internal dapat membentuk ion kompleks karena tersedianya orbital f kosong, yang dapat menampung elektron dari atom atau molekul lain.<\/li>\n<li> <strong>Radioaktivitas:<\/strong> Banyak logam transisi internal bersifat radioaktif karena adanya isotop tidak stabil di intinya.<\/li>\n<li> <strong>Bilangan oksidasi:<\/strong> Logam transisi internal menunjukkan kisaran bilangan oksidasi, termasuk bilangan oksidasi tinggi, karena ketersediaan banyak elektron valensi pada orbital f.<\/li>\n<li> <strong>Sifat kimia yang serupa:<\/strong> Lantanida dan aktinida memiliki sifat kimia yang serupa sehingga sulit dipisahkan satu sama lain.<\/li>\n<li> <strong>Kilau logam:<\/strong> Logam transisi internal umumnya mengkilat dan memiliki kilau metalik karena reflektifitas cahayanya yang tinggi.<\/li>\n<\/ul>\n<h2 class=\"wp-block-heading\" id=\"Uses-of-Inner-transition-metals\"> <strong>Kegunaan logam transisi internal<\/strong><\/h2>\n<p> Logam transisi internal memiliki kegunaan yang luas karena sifatnya yang unik. Beberapa kegunaan logam transisi internal adalah:<\/p>\n<ol>\n<li> <strong>Energi nuklir:<\/strong> Banyak logam transisi internal, khususnya aktinida seperti uranium, digunakan sebagai bahan bakar reaktor nuklir dan senjata.<\/li>\n<li> <strong>Magnet:<\/strong> Lantanida seperti neodymium, samarium, dan <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">gadolinium<\/a> digunakan untuk membuat magnet yang kuat untuk berbagai aplikasi, termasuk hard drive komputer, turbin angin, dan mesin MRI.<\/li>\n<li> <strong>Pencahayaan:<\/strong> Lantanida seperti europium dan terbium digunakan untuk membuat fosfor untuk lampu neon dan LED. <sup>[3]<\/sup><\/li>\n<li> <strong>Katalisis:<\/strong> Lantanida seperti cerium digunakan sebagai katalis dalam banyak proses industri, termasuk penyulingan minyak bumi dan pengendalian polusi.<\/li>\n<li> <strong>Pembuatan kaca:<\/strong> Lantanida seperti erbium dan <a href=\"https:\/\/chemuza.org\/id\/definisi-dasar-kimia\/\">ytterbium<\/a> digunakan untuk mewarnai kaca, sedangkan cerium digunakan untuk memoles kaca.<\/li>\n<li> <strong>Pencitraan medis:<\/strong> Lantanida seperti gadolinium dan terbium digunakan sebagai bahan kontras untuk pemindaian MRI. <a href=\"https:\/\/pubmed.ncbi.nlm.nih.gov\/20930392\/\" target=\"_blank\" rel=\"noopener\"><sup>[4]<\/sup><\/a><\/li>\n<li> <strong>Elektronik:<\/strong> Lantanida seperti disprosium dan terbium digunakan dalam perangkat elektronik, seperti filter gelombang mikro dan layar LCD.<\/li>\n<li> <strong>Pertahanan:<\/strong> Logam transisi internal digunakan dalam teknologi pertahanan, termasuk senjata nuklir dan amunisi penusuk lapis baja.<\/li>\n<\/ol>\n<h2 class=\"wp-block-heading\" id=\"Summary\"> <strong>Ringkasan<\/strong><\/h2>\n<p> Logam transisi internal adalah sekelompok unsur kimia yang terletak di dua baris terbawah tabel periodik, tepat di bawah blok logam transisi utama.<\/p>\n<p> Mereka dibagi menjadi dua kelompok: Lantanida dan Aktinida, yang masing-masing memiliki nomor atom berkisar antara 57 hingga 71 dan 89 hingga 103.<\/p>\n<p> Letak logam transisi internal berada di bagian bawah tabel periodik karena elektron valensinya berada pada orbital f yang memiliki sifat kimia serupa.<\/p>\n<p> Logam transisi internal memiliki titik leleh dan titik didih yang tinggi, pembentukan ion kompleks, dan sifat paramagnetik. Mereka juga menunjukkan kisaran bilangan oksidasi, termasuk bilangan oksidasi tinggi, karena ketersediaan banyak elektron valensi pada orbital f.<\/p>\n","protected":false},"excerpt":{"rendered":"<p>Logam transisi internal adalah sekelompok unsur kimia yang terletak di dua baris terbawah tabel periodik , tepat di bawah blok logam transisi utama. Logam transisi internal dibagi menjadi dua kelompok: Lantanida , yang memiliki nomor atom berkisar antara 57 hingga 71, dan Aktinida , yang memiliki nomor atom berkisar antara 89 hingga 103. Mari kita &#8230; <a title=\"Logam transisi internal pada tabel periodik\" class=\"read-more\" href=\"https:\/\/chemuza.org\/id\/logam-transisi-internal\/\" aria-label=\"More on Logam transisi internal pada tabel periodik\">Baca selengkapnya<\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[12],"tags":[],"class_list":["post-332","post","type-post","status-publish","format-standard","hentry","category-struktur-lewis"],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v21.4 - https:\/\/yoast.com\/wordpress\/plugins\/seo\/ -->\n<title>Logam transisi internal pada tabel periodik - Chemuza<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/chemuza.org\/id\/logam-transisi-internal\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Logam transisi internal pada tabel periodik - Chemuza\" \/>\n<meta property=\"og:description\" content=\"Logam transisi internal adalah sekelompok unsur kimia yang terletak di dua baris terbawah tabel periodik , tepat di bawah blok logam transisi utama. Logam transisi internal dibagi menjadi dua kelompok: Lantanida , yang memiliki nomor atom berkisar antara 57 hingga 71, dan Aktinida , yang memiliki nomor atom berkisar antara 89 hingga 103. Mari kita ... 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