Periodic table history

In 1669 German merchant and amateur alchemist Hennig Brand attempted to created a Philosopher’s Stone; an object that supposedly could turn metals into pure gold. He heated residues from boiled urine, and a liquid dropped out and burst into flames. This was the first discovery of phosphorus.

In 1680 Robert Boyle also discovered phosphorus, and it became public.

In 1809 at least 47 elements were discovered, and scientists began to see patterns in the characteristics.

In 1863 English chemist John Newlands divided the than discovered 56 elements into 11 groups, based on characteristics.

In 1869 Russian chemist Dimitri Mendeleev started the development of the periodic table, arranging chemical elements by atomic mass. He predicted the discovery of other elements, and left spaces open in his periodic table for them.

In 1886 French physicist Antoine Bequerel first discovered radioactivity. Thomson student from New Zealand Ernest Rutherford named three types of radiation; alpha, beta and gamma rays. Marie and Pierre Curie started working on the radiation of uranium and thorium, and subsequently discovered radium and polonium. They discovered that beta particles were negatively charged.

In 1894 Sir William Ramsay and Lord Rayleigh discovered the noble gases, which were added to the periodic table as group 0.

In 1897 English physicist J. J. Thomson first discovered electrons; small negatively charged particles in an atom. John Townsend and Robert Millikan determined their exact charge and mass.

In 1900 Bequerel discovered that electrons and beta particles as identified by the Curies are the same thing.

In 1903 Rutherford announced that radioactivity is caused by the breakdown of atoms.

In 1911 Rutherford and German physicist Hans Geiger discovered that electrons orbit the nucleus of an atom.

In 1913 Bohr discovered that electrons move around a nucleus in discrete energy called orbitals. Radiation is emitted during movement from one orbital to another.

In 1914 Rutherford first identified protons in the atomic nucleus. He also transmutated a nitrogen atom into an oxygen atom for the first time. English physicist Henry Moseley provided atomic numbers, based on the number of electrons in an atom, rather than based on atomic mass.

In 1932 James Chadwick first discovered neutrons, and isotopes were identified. This was the complete basis for the periodic table. In that same year Englishman Cockroft and the Irishman Walton first split an atom by bombarding lithium in a particle accelerator, changing it to two helium nuclei.

In 1945 Glenn Seaborg identified lanthanides and actinides (atomic number >92), which are usually placed below the periodic table.

Sources

Manhattan Project
Wikipedia

Read more: http://www.lenntech.com/periodic/history/history-periodic-table.htm#ixzz0U5RewkZa

Tokoh-tokoh Ahli Kimia Islam

Gambar 1: Jabir bin Hayyan

Umat muslimin telah merakamkan kejayaan-kejayaan yang luas dalam bidang pengajian nature, dalam mana mereka telah mengemukakan gagasan ujian amali. Kumpulan Ikhwan al-Safa telah menulis tujuh belas bab mengenai pengajian-pengajian ini dari jumlah bab yang terkandung di dalam tujuh puluh dua tesis yang dikarang mereka.

Penyelidik besar dan ulung dalam ilmu kimia ialah al-Razi (923m). Buku besarnya yang berjudul “Kitabul Asrar” telah telah diterjemahkan ke bahasa Latin oleh Gerard of Cremona. Buku ini terus merupakan sumber paling penting dalam pengajian Kimia sehingga munculnya karangan-karangan Jabir bin Hayyan (766m). Selepas lahirnya karangan-karangan yang akhir ini ia telah berjaya mengambil tempat paling tinggi sekali, malah selepas abad yang ke empat belas ia telah menjadi sumber terpenting dalam pengajian Kimia dan sumber paling berpengaruh dan kuat dalam mengarahkan pemikiran-pemikiran ilmiah baik di Timur maupun di Barat. Ini benar-benar merakamkan nama Jabir selaku tokoh yang ulung dalam barisan pelopor yang menajakan ilmu kimia dan memperkembangkannya dalam jurusan teori dan amali.

Di antara yang dipeloporinya olehnya ialah penyelidikan-penyelidikan tentang kalsinasi (calcination) dan mengembalikan logam kepada asalnya dengan menggunakan oksigen. Begitu juga beliau telah memperbaiki cara-cara penguapan, sublimasi, peleburan, dan penghabluran atau kristalisasi. Beliaulah yang telah membancuh asid asitik, asid sulfurik dan asid nitrik. Beliau juga telah menemui bahawa emas dan perak boleh hancur dalam campuran asid sulfurik dan nitrik.

Antara kejayaan-kejayaannya lagi ialah Jabir telah menemui berbagai-bagai bahan kimia. Beliau telah berjaya mengasingkan batu cetak (antimony) dan warangan (Arsenic) dari sulfide.

Teori beliau mengenai unsur-unsur galian mengatasi teori yang dikemukakan oleh Aristotle. Teorinya telah diterima oleh Barat dan terus menjadi dasar pengajian-pengajian di Eropah setelah melalui sedikit pindaan sehingga abad yang ke delapan belas.

Al-Jahiz (868m) dalam penyiasatan-penyiasatan kimianya telah berjaya menghasilkan ammonia dari tahi binatang menerusi distilasi kering.

Al-Tifasyi (1253m) telah menulis sebuah tesis yang berjudul “Azhar-ul-Afkar di Jawahir Ahjar” dalam mana beliau mengupaskan unsur-unsur dua puluh empat jenis batu-batu permata dan tabiatnya. Al-Bayruni telah melakukan penyiasatan dalam bidang ini dan beliau telah mengemukakan dalam buku-bukunya yang membicarakan tentang ilmu fizika, beberapa hasil pengajian yang boleh dikatakan lengkap tentang kepadatan spesifik (specific gravity) delapan belas jenis logam dan batu-batu permata.

Origin of the name of chemistry

In Old Persian language, the word "kimia"referring to transformation of elements. Some believe that it is from Egyptian "chem" meaning black and some believe that it has been taken by Greeks from Egyptians and then through Persians transferred to Arabs in the form of "alchemi". Later it was called in Europe as "chemistry".
The Greek word "chemeia" first appears in about the fourth century and was used to designate the art of metal-working, especially the possible change of base metals into gold and silver. The Arabs later prefixed the article "al" and "alchemy" came finally to signify the arts of chemistry in general. "Chemeia" was probably derived from the Greek word chemi which means "black". There are three possible reasons for the use of this word:

1. The black soil of the Nile Valley gave the Greeks the name Chemi for Egypt where the chemical arts presumably originated.
2. A certain "blackening" process was frequently mentioned as a preliminary to whitening or yellowing of silver or gold.
3. In the sense of "dark" or "hidden", since the Dark, Hidden or Divine Art was the only name by which this science was known to the ancients.

Some hold that the word chemistry had a Chinese origin. It may have been derived from the Hakka term KIM-MI or the Cantonese term KEM-MAI, which signifies "gone astray in search of gold" or "secret of gold". They are suggested to be the origin of the Greek "chemeia", the French "chimie", the German "Chemie", and the Arabian "alchemy".

masakan simple kelantan

bagi perantau yang berada jauh dari kelate apa kata cuba try masak ne..sesuai bagi yang bujang, kejar masa dan sukakan sesuatu yang simple...

singgang ikan tongkol

bahan-bahan:
ikan tongkol
lengkuas
bawang putih
asam keping
garam
gula
air
Post Options
cara-cara:
senang jer.. masukkan semua bahan diatas. biarkan mendidih,,, sedia untuk di makan


ikan rebus goreng

bahan-bahan:

ikan (tongkol yang paling best)
minyak
bawang goreng

cara:

1. Rebus ikan terlebih dahulu..tak tahu nak rebus? senang jek...macam wat singgang cuma bezanya tak perlu letak gula, bawang putih, lengkuas...kalau biarkan semalaman lagi sedap bahan-bahan telah menyerap ke dalam isi ikan.
2. panaskan minyak, sedia untuk digoreng
3. taburkan bawang goreng.. emmm best!!!

Singgang daging(biasanya dimasak pada hari raya korban)

bahan-bahan:

daging
lada kering
rempah
lengkuas
bawang putih
asam keping
garam
gula
air

caranya:

alahai senang sangat masukkan semua, tunggu mendidih..dah siap untuk dihidangkan


Ayam masak merah

bahan-bahan:

ayam
sos cili
sos tomato
garam
gula
serbuk kunyit
cuka
bawang besar
kulit kayu manis
bunga lawang

caranya:

1. perap ayam dengan cuka, garam, serbuk kunyit
2. gorengkan ayam
3. toskan minyak
4. panaskan minyak masukkan kulit kayu manis dan bunga lawang, biar naik bau
5. masukkan sos cili, sos tomato dan akhir sekali bawang besar
6. masukkan ayam, kacau.. yam-yam sedapnyer

last, satu resipi ciptaan ku...

telur goreng fatinsufina

bahan-bahan:

telur
bawang putih(cincang halus)
serbuk lada hitam
bawang besar(nak letak boleh tak nak letak pun bole)
garam
serbuk ayam knorr
minyak

caranya:

1. pukul telur sampai kembang
2. masukkan semua bahan diatas. kacau hingga sebati
3. goreng cam biasa

selamat mencuba... bagi yang cuba resepi ini, sila hantarkan feed back k...bagi yang nak berkongsi resepi anda amat di alu-alukan...

salam perkenalan

salam,
apa khabar semua?...salam perkenalan