1791: Michael Faraday is born. In his 76 years on the planet, the chemist-physicist will make fundamental contributions to our understanding of electricity and magnetism, advise governments and establish lasting institutions of scientific education.
Faraday came from a working-class family and had to go to work after rudimentary schooling in reading, writing and arithmetic. But genius [...]
Posts Tagged ‘physics’
Sept. 22, 1791: Faraday Enters a World He Will Change
September 22nd, 2010 |
No Comments
Sept. 20, 1842: Dewar’s Fortune Is Scotched
September 20th, 2010 |
No Comments
1842: Sir James Dewar is born, but not into a vacuum. He will invent a vessel designed to make research into gases at extreme low temperatures easier, and it does. But the Dewar Flask also becomes the thermos bottle we use to this day, and — in a cruel twist of fate — its inventor [...]
The nature of the universe: Ye cannae change the laws of physics
September 2nd, 2010 |
No Comments
Or can you?
RICHARD FEYNMAN, Nobel laureate and physicist extraordinaire, called it a “magic number” and its value “one of the greatest damn mysteries of physics”. The number he was referring to, which goes by the symbol alpha and the rather more long-winded name of the fine-structure constant, is magic indeed. If it were a mere 4% bigger or smaller than it is, stars would not be able to sustain the nuclear reactions that synthesise carbon and oxygen atoms. One consequence would be that squishy, carbon-based life would not exist.
Why alpha takes on the precise value it does, so delicately fine-tuned for life, is a deep scientific mystery. A new piece of astrophysical research may, however, have uncovered a crucial piece of the puzzle. In a paper just submitted to Physical Review Letters, a team led by John Webb and Julian King from the University of New South Wales in Australia presents evidence that the fine-structure constant may not actually be constant after all. Rather, it seems to vary from place to place within the universe. If their results hold up to scrutiny they will have profound implications—for they suggest that the universe stretches far beyond what telescopes can observe, and that the laws of physics vary within it. Instead of the whole universe being fine-tuned for life, then, humanity finds itself in a corner of space where, Goldilocks-like, the values of the fundamental constants happen to be just right for it. …
Aug. 6, 1945: ‘I Am Become Death, Destroyer of Worlds’
August 6th, 2010 |
No Comments
1945: The United States becomes the first (and remains the only) country ever to use an atomic weapon in warfare, obliterating the Japanese city of Hiroshima and instantly killing 70,000 people. (Many thousands more would die later from the effects of radiation poisoning.) Three days later, the port city of Nagasaki is destroyed by a [...]
Particle physics: And they’re off
July 29th, 2010 |
No Comments
The LHC hits its stride, but America’s Tevatron is still in the running
BESIDES providing something to bet on (see article), competition has the desirable side-effect of spurring progress. As far as the physics of tiny things is concerned, the race is a two-horse affair between the Large Hadron Collider (LHC) located at CERN in Geneva and the Tevatron at the Fermi National Accelerator Laboratory (Fermilab) near Chicago. Both are hadron colliders: machines that smash protons into each other, or into their antimatter kin, at a smidgen below the speed of light in order to create shrapnel in the form of other particles. And both have recently produced promising results, presented to the biennial International Conference on High Energy Physics held in Paris on July 22nd-28th.
The LHC’s most publicised goal is to find the Higgs boson, a particle believed to be the magic ingredient that gives other elementary particles their mass. The Higgs is the missing piece in the Standard Model, a 40-year-old mathematical framework that links all the known particles and all of the fundamental forces of nature except for gravity. Before the search can begin in earnest, though, the world’s most complicated machine has to be calibrated and fathomed by the legions of researchers who will operate it. …
July 9–10, 1856: Visionary Tesla Born at Midnight
July 9th, 2010 |
No Comments
1856: Scientific genius and visionary inventor Nikola Tesla is born at the stroke of midnight in the unassuming village of Smiljan, in what’s now Croatia. He wastes little time in revolutionizing the world through foundational developments in electromagnetism, electrical current, wireless power and communications, weaponry, robotics, computer science, mass media and much more.
“Tesla is like [...]
June 18, 1908: Prescient Letter Creates Concept of TV
June 18th, 2010 |
No Comments
1908: A Scottish electrical engineer publishes a brief letter in the journal Nature, describing the essentials of making and receiving television images. But it will take 40 years before the well-delineated concept finally achieves commercial success.
Think twice before you throw away the silly idea you scribbled on a bar napkin: Almost all our greatest inventions [...]
March 18, 1987: Woodstock for Physicists
March 18th, 2010 |
No Comments
1987: Thousands of physicists crowd a ballroom at the New York Hilton for a hastily arranged marathon session on high-temperature superconductivity. The event generates so much excitement that it is later referred to as the “Woodstock of Physics.”
Discovered in 1911, superconductivity is a phenomenon in which certain materials, at very low temperatures, become essentially transparent [...]
March 5, 1904: Tesla’s Having a Ball
March 5th, 2010 |
No Comments
1904: Physicist Nikola Tesla attempts to explain the phenomenon of “ball lightning.”
Ball lightning (if it exists at all) is an electrical discharge, usually appearing in spherical shape that, unlike regular lightning, tends to linger awhile. It occurs naturally but rarely, and despite the best efforts of Tesla and others, the exact origin of the phenomenon [...]
Feb. 25, 1837: Davenport Electric Motor Gets Plugged In
February 25th, 2010 |
No Comments
1837: The U.S. Patent Office approves Thomas Davenport’s application for a patent on an “Improvement in Propelling Machinery by Magnetism and Electro-Magnetism.” We’d call it an electric motor.
Davenport was a Vermont blacksmith and an amateur tinkerer, not a trained scientist or engineer. When he heard about a machine that used an electromagnet to separate high-quality [...]
Feb. 24, 1664: Steam Power Is Newcomen In
February 24th, 2010 |
No Comments
1664:Â Thomas Newcomen, creator of the first practical atmospheric steam engine, is born in Devon, England.
Newcomen’s exact birth date is a matter of debate. Some sources say “before Feb. 24,” while others go as late as Feb. 28. What’s more, some list 1663, because dates between Jan. 1 and March 25 (the old New Year’s celebration) [...]
Feb. 22, 1857: Hertz Enters Cycle of Life
February 22nd, 2010 |
No Comments
1857: Heinrich Rudolf Hertz is born. The physicist will make key discoveries about the transmission of electromagnetic waves and eventually give his name to a pervasive measurement of the electronic age.
Hertz was born in Hamburg, Germany, where his father was a lawyer and legislator. The young man began college at the University of Munich, but [...]
Lightning Reveals Its Power in Slow Motion
February 9th, 2010 |
No Comments
<< previous image | next image >>
Tom Warner documents the powerful beauty of lightning with an array of optical and electromagnetic sensors. He often uses a Vision Research ‘Phantom’ high-speed camera.
Warner is a Ph.D student at the South Dakota School of Mines and Technology, in Rapid City. He studies atmospheric sciences with a specialty in [...]
Jan. 8, 1942: Birthday of a First-Rate Mind, and a Medical Marvel
January 8th, 2010 |
No Comments
1942: British physicist Stephen Hawking is born.
Hawking was born in Oxford, where his parents moved to escape the German Blitz on London. His website notes, in an interesting historical aside, that his birth came on the 300th anniversary of Galileo’s death.
Though naturally predisposed to mathematics, young Hawking switched to physics, because University College at Oxford [...]
Dec. 21, 1898: The Curies Discover Radium
December 21st, 2009 |
No Comments
1898: Radium is discovered by the husband-and-wife team of Pierre and Marie Curie.
Sorbonne-bred physicist Pierre Curie had been noodling with crystals and magnetism since the early 1880s. He was a professor at the School of Physics in Paris when one of his students, Marie Sklodowska, caught his eye. They wed in 1895, and theirs was [...]
Nov. 17, 1790: A Rather One-Sided Affair
November 17th, 2009 |
No Comments
1790: Mathematician, astronomer and physicist August Ferdinand Möbius is born in Schulpforta, Saxony (in modern-day Germany).
Möbius has name recognition today because of the Möbius strip, which is a clever topological surface with only one side and only one edge.
Speaking of name recognition, Möbius probably pronounced the name something like MER-bee-oos (first syllable rhymes with [...]
Nov. 11, 1930: Einstein Gets Ice Cold
November 11th, 2009 |
No Comments
1930: Albert Einstein and fellow nuclear scientist Leo Szilard receive an American patent for a new kind of refrigerator that requires no electricity.
The most famous physicist of the 20th century wasn’t a Thomas Edison: The fridge would prove to be one of Einstein’s few forays into the world of commonplace engineering.
The refrigerator uses chemical reactions [...]
Oct. 22, 1905: A Star Discoverer Is Born
October 22nd, 2009 |
No Comments
1905: Karl Guthe Jansky is born in Oklahoma. He’ll discover that some of the “static” afflicting radio signals comes from distant stars. The new field of radio astronomy will widen and deepen our view of the universe.
See also:
Photo Gallery —
70 Years of Telescopes Tuned to Cosmic Radio
Jansky studied physics at the University of Wisconsin [...]
Sept. 16, 1736: One Degree of Separation — Fahrenheit Dies
September 16th, 2009 |
No Comments
1736: German physicist and instrument maker Gabriel Daniel Fahrenheit dies in the Netherlands. His pioneering work on thermometers means he will live on, to a degree.
Fahrenheit (Daniel Gabriel Fahrenheit in some accounts) was born in the Royal Prussian city of Danzig (now the Polish city of Gdansk) on May 14, 1686. His dad was a [...]