History Of Science Quotes

“A number of years ago, when I was a freshly-appointed instructor, I met, for the first time, a certain eminent historian of science. At the time I could only regard him with tolerant condescension.

I was sorry of the man who, it seemed to me, was forced to hover about the edges of science. He was compelled to shiver endlessly in the outskirts, getting only feeble warmth from the distant sun of science- in-progress; while I, just beginning my research, was bathed in the heady liquid heat up at the very center of the glow.

In a lifetime of being wrong at many a point, I was never more wrong. It was I, not he, who was wandering in the periphery. It was he, not I, who lived in the blaze.

I had fallen victim to the fallacy of the 'growing edge;' the belief that only the very frontier of scientific advance counted; that everything that had been left behind by that advance was faded and dead.

But is that true? Because a tree in spring buds and comes greenly into leaf, are those leaves therefore the tree? If the newborn twigs and their leaves were all that existed, they would form a vague halo of green suspended in mid-air, but surely that is not the tree. The leaves, by themselves, are no more than trivial fluttering decoration. It is the trunk and limbs that give the tree its grandeur and the leaves themselves their meaning.

There is not a discovery in science, however revolutionary, however sparkling with insight, that does not arise out of what went before. 'If I have seen further than other men,' saidIsaac Newton,'it is because I have stood on the shoulders of giants.”
― Isaac Asimov, Adding a Dimension: Seventeen Essays on the History of Science

“The water beneath the Temple was both actual and metaphorical, existing as springs and streams, as spiritual energy, and as a symbol of the receptive or lunar aspect of nature.

The meaning of that principle is too wide and elusive for it to be given any one name, so in the terminology of ancient science it was given a number, 1,080. Its polar opposite, the positive, solar force in the universe, was also referred to as a number 666.

These two numbers, which have an approximate golden-section relationship of 1:1.62, were at the root of the alchemical formula that expressed the supreme purpose of the Temple. Its polar opposite, the positive, solar force in the universe, was also referred to as a number 666. Not merely was it used to generate energy from fusion of atmospheric and terrestrial currents, but it also served to combine in harmony all the correspondences of those forces on every level of creation.”
― John Michell, The Dimensions of Paradise: Sacred Geometry, Ancient Science, and the Heavenly Order on Earth

“Not enough books focus on how a culture responds to radically new ideas or discovery. Especially in the biography genre, they tend to focus on all the sordid details in the life of the person who made the discovery. I find this path to be voyeuristic but not enlightening. Instead, I ask, After evolution was discovered, how did religion and society respond? After cities were electrified, how did daily life change? After the airplane could fly from one country to another, how did commerce or warfare change? After we walked on the Moon, how differently did we view Earth? My larger understanding of people, places and things derives primarily from stories surrounding questions such as those.”
― Neil deGrasse Tyson

“The description of this proportion as Golden or Divine is fitting perhaps because it is seen by many to open the door to a deeper understanding of beauty and spirituality in life. That’s an incredible role for one number to play, but then again this one number has played an incredible role in human history and the universe at large.”
― H.E. Huntley, The Divine Proportion: A Study in Mathematical Beauty

“Since ancient times artists and architects have seen in the golden mean the most aesthetically satisfying geometric ratio.”
― Stephen M. Barr, Modern Physics and Ancient Faith

“History always acts as an umbilical cord of human civilization. Days of yore have always answered the bewildering paradoxes and enigmas of the world. So, its always better to have a glance of the past before entering any uncharted territory.”
― RamkrishnaGuru

“The pyramid that can be constructed on the diameters of earth and moon bears the precise proportions of the Great Pyramid”
― Bonnie Gaunt, STONEHENGE AND THE GREAT PYRAMID

“The impulse to all movement and all form is given by [the golden ratio], since it is the proportion that summarizes in itself the additive and the geometric, or logarithmic, series.”
― Schwaller de Lubicz

“One of the most curious of these stories about Pauli concerns the number 137. One of the great unsolved mysteries of modern physics is the value of the fine structure constant, for while the other fundamental constants of nature are all immensely small or enormously large, this fine structure constant 1/137 turns out to be a human-sized number. This number 137 and its place in the scale of the universe particularly puzzled Pauli and continues to challenge physicists today. I was a mystery that Pauli was to take to his death, for on being admitted into the hospital, the physicist was told that he was being put into room 137. According to one version of this story on learning of his room number, Pauli said," I will never get out of here. "The physicist died shortly after.”
― F. David Peat, Synchronicity: The Bridge Between Matter and Mind

“White supremacists boast about white americans being superior. Let's look at it reasonably, shall we - not that you can reason with fanatics!

Most of the third world speaks two or three languages, yet you say, white americans are superior!

Dreamers from the third world bear ten times more difficulty to achieve their dream, yet you say, white americans are superior!

Humankind's earliest scientific achievements came not from the West, but from the East and the Middle East, yet you say, America is superior - a juvenile
country whose very existence is rooted in humankind's worst of atrocities.

Well done! You really are superior - in cooking up fiction.

The fact of the matter is, excellence has no race. And the only inferior people on earth are the ones who think of others as such.”
― Abhijit Naskar, Vande Vasudhaivam: 100 Sonnets for Our Planetary Pueblo

“What moral to draw, then, of the nonexistence of an innermost planet and the universal triumph of general relativity? At least this: Science is unique among human ways of knowing because it is self-correcting. Every claim is provisional, which is to say each is incomplete in some small or, occasionally, truly consequential way. But in the midst of the fray, it is impossible to be sure what any gap between knowledge and nature might mean. We know now that Vulcan could never have existed; Einstein has shown us so. But no route to such certainty existed for Le Verrier, nor for any of his successors over the next half century. They lacked not facts, but a framework, some alternate way of seeing through which Vulcan's absence could be understood.”
― Thomas Levenson, The Hunt for Vulcan:...And How Albert Einstein Destroyed a Planet, Discovered Relativity, and Deciphered the Universe

“Most popular accounts of science and many philosophical analyses are therefor chimeras, pure and simple. They are distorted and misleading as a history of art which regards paintings as natural phenomena of a special kind without ever mentioning the individuals lingering in their neighborhood when they first appear.”
― Paul Karl Feyerabend, The Tyranny of Science

“History is the general science of relativity and the real art of absolute time-traveling”
― P.S. Jagadeesh Kumar

“In the early days of atomic physics [before quantum field theory revealed the true meaning of the fine structure constant to be the strength of the coupling between the electron and photon], it was thought to have a value so close to being precisely 1/137 that numerologists started to establish cultish associations with the number 137.”
― Bruce A. Schumm, Deep Down Things: The Breathtaking Beauty of Particle Physics

“Although the nucleus might have been recognized by Antonie van Leeuwenhoek in the late 17th century, it was not until 1831 that it was reported as a specific structure in orchid epidermal cells by a Scottish botanist, Robert Brown (better known for recognizing ‘Brownian movement’ of pollen grains in water). In 1879, Walther Flemming observed that the nucleus broke down into small fragments at cell division, followed by re-formation of the fragments called chromosomes to make new nuclei in the daughter cells. It was not until 1902 that Walter Sutton and Theodor Boveri independently linked chromosomes directly to mammalian inheritance. Thomas Morgan’s work with fruit flies (Drosophila) at the start of the 20th century showed specific characters positioned along the length of the chromosomes, followed by the realization by Oswald Avery in 1944 that the genetic material was DNA. Some nine years later,James WatsonandFrancis Crickshowed the structure of DNA to be a double helix, for which they shared the Nobel Prize in 1962 withMaurice Wilkins,whose laboratory had provided the evidence that led to the discovery. Rosalind Franklin, whose X-ray diffraction images of DNA from the Wilkins lab had been the key to DNA structure, died of cancer aged 37 in 1958, and Nobel Prizes are not awarded posthumously. Watson and Crick published the classic double helix model in 1953. The final piece in the jigsaw of DNA structure was produced by Watson with the realization that the pairing of the nucleotide bases, adenine with thymine and guanine with cytosine, not only provided the rungs holding the twisting ladder of DNA together, but also provided a code for accurate replication and a template for protein assembly. Crick continued to study and elucidate the base pairing required for coding proteins, and this led to the fundamental ‘dogma’ that ‘DNA makes RNA and RNA makes protein’. The discovery of DNA structure marked an enormous advance in biology, probably the most significant since Darwin’s publication of On the Origin of Species .”
― Terence Allen, The Cell: A Very Short Introduction

“As soon as the edifice of the knowledge of the ancients had been shaken in the minds of the most inquisitive, questions upon questions arose which now demanded technology, including -- crucially -- the invention of the telescope and the microscope, enabling a generation of scholars to see clearly things which had been absolutely invisible to their forefathers. It was a thrilling, and dangerous, time to be alive.”
― Anna Keay, The Restless Republic: Britain Without a Crown

“He mocked those who still spent their time bent over books, for 'discoveries and improvements' would not be found in trawling the work of others. He had decided the previous year to stop reading altogether and instead to focus entirely on active experimentation...”
― Anna Keay, The Restless Republic: Britain Without a Crown

“Core metabolism has changed little in part because it was never powered down in its four-billion-year history. The genes are custodians of this flame, but without the flame life is – dead.”
― Nick Lane, Transformer: The Deep Chemistry of Life and Death

“[Von Neumann's childhood home's] library’s centrepiece [was] the Allgemeine Geschichte, a massive history of the world edited by the German historian Wilhelm Oncken, which began in Ancient Egypt and concluded with a biography of Wilhelm I, the first German emperor, commissioned by the Kaiser himself. When von Neumann became embroiled in American politics after he emigrated, he would sometimes avoid arguments that were threatening to become too heated by citing (sometimes word for word) the outcome of some obscurely related affair in antiquity that he had read about in Oncken as a child.”
― Ananyo Bhattacharya, The Man from the Future: The Visionary Ideas of John von Neumann

“The young von Neumann made an instant impact on his new tutors. His first mentor, Gábor Szego˝, who would later lead Stanford University’s maths department, was moved to tears after their first meeting.”
― Ananyo Bhattacharya, The Man from the Future: The Visionary Ideas of John von Neumann

“Von Neumann’s remarkable foresight is evident in letters he wrote to Ortvay between 1928 and 1939. ‘There will be a war in Europe in the next decade,’ he told the Hungarian physicist in 1935, further predicting that America would enter the war ‘if England is in trouble’. He feared that during that war, European Jews would suffer a genocide as the Armenians had under the Ottoman Empire. In 1940, he predicted that Britain would be able to hold a German invasion at bay (far from obvious at the time), and that America would join the war the following year (as it did after the bombing of Pearl Harbor).”
― Ananyo Bhattacharya, The Man from the Future: The Visionary Ideas of John von Neumann

“Von Neumann enjoyed driving very much but had never passed a test. At Mariette’s suggestion, he bribed a driving examiner. This did nothing to improve his driving. He sped along crowded roads as if they were many-body problems to be negotiated by calculating the best route through on the fly. He often failed, and an intersection in Princeton was soon christened ‘von Neumann corner’ on account of the many accidents he had there. Bored on open roads, he slowed down. When conversation faltered, he would sing; swaying and rocking the steering wheel from side to side with him. The couple would buy a new car every year, usually because von Neumann had totalled the previous one. His vehicle of choice was a Cadillac, ‘because’, he explained whenever anyone asked, ‘no one would sell me a tank’. Miraculously, he escaped largely unscathed from these smash-ups, often returning with the unlikeliest of explanations. ‘I was proceeding down the road,’ begins one fabulous excuse. ‘The trees on the right were passing me in orderly fashion at 60 miles an hour. Suddenly one of them stepped in my path. Boom!”
― Ananyo Bhattacharya, The Man from the Future: The Visionary Ideas of John von Neumann

“At one of his ‘high-proof, high-I.Q. parties’ one analyst produced a fat cylindrical ‘coin’ that was something of a RAND obsession at the time. Milled by the RAND machine shop at the behest of Williams, their proportions were carefully chosen so that the chances of falling heads, tails or on its side were equal. Without blinking an eye, von Neumann correctly stated the coin’s dimensions.”
― Ananyo Bhattacharya, The Man from the Future: The Visionary Ideas of John von Neumann

“The best estimates of Trinity’s power put the figure somewhere between 20,000 and 22,000 tons. Oppenheimer reached for poetry, recalling a verse from ancient Hindu scripture, the Bhagavad Gita, which he had read in the original Sanskrit. ‘Now I am become Death,’ he said, ‘the destroyer of worlds.’ Bainbridge was pithier. ‘Now we are all sons of bitches,’ he told Oppenheimer.”
― Ananyo Bhattacharya, The Man from the Future: The Visionary Ideas of John von Neumann

“Did von Neumann understand the potential of the machines he helped to invent? Yes, he did. In reflective mood in 1955, he noted that the ‘over-all capacity’ of computers had ‘nearly doubled every year’ since 1945 and often implied in conversation that he expected that trend to continue. His observations prefigure ‘Moore’s law’, named after Intel’s cofounder Gordon Moore, who predicted in 1965 that the number of components on an integrated circuit would double every year.”
― Ananyo Bhattacharya, The Man from the Future: The Visionary Ideas of John von Neumann

“En Hedu-Anna (CA. 2300 BC, Akkadian) World's first known female astronomer. Her scientific calculations are known to us through her distinguished poetry, which was recorded on cuneiform tablets.”
― Nina Ansary, Anonymous Is a Woman: A Global Chronicle of Gender Inequality

“Cleopatra Metrodora (CA, 200-400 AD Greek) Her treatise entitled" On the Diseases and Cures of Women "earned her the distinction of becoming the first female medical scholar.”
― Nina Ansary, Anonymous Is a Woman: A Global Chronicle of Gender Inequality

“Jesus matters because he established a worldview that encouraged exploration in an explosion of scientific discovery, the scientific revolution, and an unparalleled history of excellence in the sciences. From the writings of the 'science fathers'--the vast majority of whom were Jesus followers--Jesus's life, ministry, and mission could be reconstructed, even if all the Christian Bibles were destroyed.”
― J. Warner Wallace, Person of Interest: Why Jesus Still Matters in a World that Rejects the Bible

“Jesus matters to the sciences. The history of scientific exploration was forever changed as Jesus followers studied the 'book of nature.' Christians are the 'fathers' and founders of these disciplines...Jesus followers didn't simply contribute to the sciences, they founded and led the sciences.”
― J. Warner Wallace, Person of Interest: Why Jesus Still Matters in a World that Rejects the Bible

“These seven attributes of the worldview Jesus initiated account for an obvious truth; Jesus followers have had an oversized impact on the sciences.

1. Christ followers believed matter was good and worthy of study
2. Christ followers believed their world was the product of a singular, orderly, rational God
3. Christ followers believed God was distinct from his creation
4. Christ followers were motivated by their desire to worship the God of the universe
5. Christ followers believed they could better understand God by observing His activity in the 'book of nature'
6. Christ followers pursued physical and intellectual investigations of their environment
7. Christ followers created a place to advance the sciences”
― J. Warner Wallace, Person of Interest: Why Jesus Still Matters in a World that Rejects the Bible