Rabu, 25 Januari 2012

The Islamic origins of Modern Science Part V

"Science without religion is lame, religion without science is blind."

~Albert Einstein ~

The Theist Origins of Western Science

Medieval Europe was ruled by the dogmatic regime of the Catholic Church. The Church opposed freedom of thought and pressured scientists. People could be punished by the Inquisition simply for holding different beliefs or ideas. Their books were burned and they themselves were executed. The pressure on research in the Middle Ages is often referred to in history books, but some interpret the situation wrongly and claim that the scientists who clashed with the Church were against religion.

The truth is the exact opposite-the scientists who opposed the bigotry of the church were religious believers. They were not against religion, but against the harsh clericalism of the time.

For example, the famous astronomer Galileo, whom the Church wanted to punish because he stated that the world rotated, said, "I render infinite thanks to God for being so kind as to make me alone the first observer of marvels kept hidden in obscurity for all previous centuries." 7

The other scientists who established modern science were all religious.

Kepler, regarded as the founder of modern astronomy, told those who asked him why he busied himself with science, "I had the intention of becoming a theologian... but now I see how God is, by my endeavors, also glorified in astronomy, for 'heavens declare the glory of God'". 8

As for Newton, one of the greatest scientists in history, he explained the reason underlying his zeal for scientific endeavor by saying:

"...He (God) is eternal and infinite, omnipotent and omniscient; that is, his duration reaches from eternity to eternity; his presence from infinity to infinity; he governs all things, and knows all things that are or can be done. …We know him only by his most wise and excellent contrivances of things... [W]e revere and adore him as his servants…" 9

The great genius Pascal, the father of modern mathematics, said that: "But by faith we know His (God's) existence; in glory we shall know His nature." 10

Many other founders of modern Western science were also strong believers. For example:

  • " Von Helmont, one of the leading figures in modern chemistry and the inventor of the thermometer, declared that science was a part of faith.

  • " George Cuvier, the founder of modern paleontology, regarded fossils as surviving proofs of the Creation and taught that living species had been created by God.

  • " Carl Linnaeus, who first systematized scientific classification, believed in the Creation and stated that the natural order was a significant proof of God's existence.

  • " Gregor Mendel, the founder of genetics, and also a monk, believed in Creation and opposed the evolutionary theories of his time, such as Darwinism and Lamarckism.

  • " Louis Pasteur, the greatest name in the history of microbiology, proved that life could not be created in inert matter and taught that life was a miracle of God.

  • " The famous German physicist Max Planck said that the Creator of the universe was God and stressed that faith was a necessary quality of scientists.

  • " Albert Einstein, regarded as the most important scientist of the twentieth century, believed that science could not be godless and said, "science without religion is lame."

A large number of other scientists who guided modern scientific progress were religious people who believed in God. These scientists served science with the intention of discovering the universe that God had created - a paradigm that was first developed and implemented in the Islamic world and then incorporated into the West.


All these theist scientists thought about the creation of the heavens and the earth and investigated in the awareness of God - as God decreed in the Qur'an and the Bible. The birth of science and its development were the result of this awareness.

During the nineteenth century, however, this awareness was replaced by a misconception called materialism.

References:

Harun Yahya

(7) Galileo Galilei, quoted in: Mike Wilson, "The Foolishness of the Cross," Focus Magazine)

(8) Johannes Kepler, quoted in: J.H. Tiner, Johannes Kepler-Giant of Faith and Science (Milford, Michigan: Mott Media, 1977), p. 197

(9) Sir Isaac Newton, Mathematical Principles of Natural Philosophy, Translated by Andrew Motte, Revised by Florian Cajore, Great Books of the Western World 34, Robert Maynard Hutchins, Editor in chief, William Benton, Chicago, 1952:273-74

(10) Blaise Pascal, Pensees, No. 233

Sabtu, 07 Januari 2012

KEAJAIBAN HUJAN Part I




Hujan merupakan salah satu perkara terpenting bagi kehidupan di muka bumi. Ia merupakan sebuah prasyarat bagi kelanjutan aktivitas di suatu tempat. Hujan–yang memiliki peranan penting bagi semua makhluk hidup, termasuk manusia–disebutkan pada beberapa ayat dalam Al-Qur’an mengenai informasi penting tentang hujan, kadar dan pengaruh-pengaruhnya.

Informasi ini, yang tidak mungkin diketahui manusia di zamannya, menunjukkan kepada kita bahwa Al-Qur’an merupaka kalam Allah. Sekarang, mari kita kaji informasi-informasi tentang hujan yang termaktub di dalam Al-Qur’an.

Kadar Hujan

Di dalam ayat kesebelas Surat Az-Zukhruf, hujan dinyatakan sebagai air yang diturunkan dalam “ukuran tertentu”. Sebagaimana ayat di bawah ini:

“Dan yang menurunkan air dari langit menurut kadar (yang diperlukan) lalu kami hidupkan dengan air itu negeri yang mati, seperti itulah kamu akan dikeluarkan (dari dalam kubur).” (QS. Az-Zukhruf, (43):11)

“Kadar” yang disebutkan dalam ayat ini merupakan salah satu karakteristik hujan. Secara umum, jumlah hujan yang turun ke bumi selalu sama. Diperkirakan sebanyak 16 ton air di bumi menguap setiap detiknya.

Jumlah ini sama dengan jumlah air yang turun ke bumi setiap detiknya. Hal ini menunjukkan bahwa hujan secara terus-menerus bersirkulasi dalam sebuah siklus seimbang menurut “ukuran” tertentu.

Pengukuran lain yang berkaitan dengan hujan adalah mengenai kecepatan turunya hujan.

Ketinggian minimum awan adalah sekitar 12.000 meter. Ketika turun dari ketinggian ini, sebuah benda yang yang memiliki berat dan ukuran sebesar tetesan hujan akan terus melaju dan jatuh menimpa tanah dengan kecepatan 558km/jam.

Tentunya, objek apapun yang jatuh dengan kecepatan tersebut akan mengakibatkan kerusakan.

Dan apabila hujan turun dengan cara demikian, maka seluruh lahan tanaman akan hancur, pemukiman, perumahan, kendaraan akan mengalami kerusakan, dan orang-orang pun tidak dapat pergi keluar tanpa mengenakan alat perlindungan ekstra.

Terlebih lagi, perhitungan ini dibuat untuk ketinggian 12.000 meter, faktanya terdapat awan yang memiliki ketinggian hanya sekitar 10.000 meter. Sebuah tetesan hujan yang jatuh pada ketinggian ini tentu saja akan jatuh pada kecepatan yang mampu merusak apa saja.

Namun tidak demikian terjadinya, dari ketinggian berapapun hujan itu turun, kecepatan rata-ratanya hanya sekitar 8-10 km/jam ketika mencapai tanah. Hal ini disebabkan karena bentuk tetesan hujan yang sangat istimewa. Keistimewaan bentuk tetesan hujan ini meningkatkan efek gesekan atmosfer dan mempertahankan kelajuan tetesan-tetesan hujan krtika mencapai “batas” kecepatan tertentu.

(Saat ini, parasut dirancang dengan menggunakan teknik ini).

Tak sebatas itu saja “pengukuran” tentang hujan. Contoh lain misalnya, pada lapisan atmosferis tempat terjadinya hujan, temperatur bisa saja turun hingga 400oC di bawah nol. Meskipun demikian, tetesan-tetesan hujan tidak berubah menjadi partikel es.

(Hal ini tentunya merupakan ancaman mematikan bagi semua makhluk hidup di muka bumi.)

Alasan tidak membekunya tetesan-tetesan hujan tersebut adalah karena air yang terkandung dalam atmosfer merupakan air murni. Sebagaimana kita ketahui, bahwa air murni hampir tidak membeku pada temperatur yang sangat rendah sekalipun.

To Be Continued

Sumber: Harun Yahya