May
Important
historic dates in science May
31:
James
Rainwater
(Born December 9, 1917:
Died May 31, 1986)
Leo James Rainwater was an American physicist who won a
share of the Nobel Prize for Physics in 1975 for his part in determining the asymmetrical
shapes of certain atomic nuclei. During WW II, Rainwater worked on the Manhattan
Project to develop the atomic bomb. In 1949 he began formulating a theory that
not all atomic nuclei are spherical, as was then generally believed. The theory
was tested experimentally and confirmed by Danish physicists Aage N. Bohr and
Ben R. Mottelson. For their work the three scientists were awarded jointly the
1975 Nobel Prize for Physics. He also conducted valuable research on X rays and
took part in Atomic Energy Commission and naval research projects. May
30:
Lewis
Morris Rutherford
(November 25, 1816: Died May 30, 1892)
American
spectroscopist, astrophysicist and photographer, born in Morrisania, NY, who made
the first telescopes designed for celestial photography. He produced a classification
scheme of stars based on their spectra as similarly developed by the Italian astronomer.
Rutherfurd spent his life working in his own observatory, built in 1856, where
he photographed (from 1858) the Moon, Jupiter, Saturn, the Sun, and stars down
to the fifth magnitude. While using photography to map star clusters, he devised
a new micrometer to measure distances between stars with improved accuracy. When
Rutherford began (1862) spectroscopic studies, he devised highly sophisticated
diffraction gratings. May
29:
Peter
Higgs
Born May 29, 1929
Peter Ware Higgs is an English theoretical
physicist, the namesake of the Higgs boson. In the late 1960s, Higgs and others
proposed a mechanism that would endow particles with mass, even though they appeared
originally in a theory - and possibly in the Universe! - with no mass at all.
The basic idea is that all particles acquire their mass through interactions with
an all-pervading field, called the Higgs field. which is carried by the Higgs
bosons. This mechanism is an important part of the Standard Model of particles
and forces, for it explains the masses of the carriers of the weak force, responsible
for beta-decay and for nuclear reactions that fuel the Sun. No Higgs boson has
yet been detected; its mass (over 1 TeV) exceeds the capacity of any current accelerator. May
28:
Mars
landing
In 1971, the U.S.S.R. Mars 3 was launched. It arrived at
Mars on December 2, 1971. The lander was released from the Mars 3 orbiter and
became the first spacecraft to land successfully on Mars. It failed after relaying
20 seconds of video data to the orbiter. The Mars 3 orbiter returned data until
Aug 1972, sending measurements of surface temperature and atmospheric composition.
The first USSR Mars probe was launched October 10, 1960, but it failed to reach
earth orbit. The next four USSR probes, including Mars 1, also failed. The USA
Mariner 3 Mars Flyby attempt in 1964 failed when its solar panels did not open.
USA's Mariners 4, 6, and 7 successfully returned Mars photos. Also in 1971, the
USSR Mars 2 lander crashed.
May
27:
Sir
John Douglas Cockcroft
(Born
May 27, 1897: Died September 18, 1967)
British physicist, joint winner (with
Ernest T.S. Walton of Ireland) of the 1951 Nobel Prize for Physics for pioneering
the use of particle accelerators in studying the atomic nucleus. Together, in
1929, they devised an accelerator that generated large numbers of particles at
lower energies. The Cockcroft-Walton generator they built was the first atom-smasher.
In 1932, they used it to disintegrate lithium atoms by bombarding them with protons
- the first artificial nuclear reaction not utilizing radioactive substances.
This type of accelerator proved to be one of the most useful in the world's laboratories.
They conducted further research on the splitting of other atoms and established
the importance of accelerators as a tool for nuclear research. May
26:
Richard Christopher Carrington
(Born May 26, 1826: Died
November 27, 1875)
English astronomer who was the first to map the motions
of sunspots and thus discover from them that the Sun rotates faster at the equator
than near the poles (equatorial acceleration). He observed that the sunspots were
not attached to any solid object, and also discovered the movement of sunspot
zones toward the Sun's equator as the solar cycle progresses. On September 1,
1859, Carrington was the first to record the observation of a solar flare. May
25:
Jack Steinberger
(Born May 25, 1921)
German-born American physicist who, along with Leon M.
Lederman and Melvin Schwartz, was awarded the Nobel Prize for Physics in 1988
for their joint discoveries of the neutrino beam method and the demonstration
of the doublet structure of the leptons through the discovery of the muon neutrino.
In 1951, he met Lederman at Columbia University and, later, Schwarz who became
his student. In 1958, they conducted a neutrino experiment at the new Brookhaven
Alternating Gradient Synchrotron. The results emerged in a classic 1962 paper,
and neutrino beams went on to become one of the standard tools of particle physics.
When 26 years later, after receiving the Nobel, Steinberger said, "to get
that prize, do your work early!" May
24:
Daniel Gabriel Fahrenheit
(Born May 24, 1686: Died September
16, 1736)
German physicist and maker of scientific instruments. He is best
known for inventing the alcohol thermometer (1709) and mercury thermometer (1714)
and for developing the Fahrenheit temperature scale. He devoted himself to the
study of physics and the manufacture of precision meteorological instruments.
He discovered, among other things, that water can remain liquid below its freezing
point and that the boiling point of liquids varies with atmospheric pressure. May
23:
William Webster Hansen
(Born May 27, 1909: Died May
23, 1949)
American physicist who contributed to the development of radar and
is regarded as the founder of microwave technology. He developed the klystron,
a vacuum tube essential to radar technology (1937). Based on amplitude modulation
of an electron beam, rather than on resonant circuits of coils and condensers,
it permits the generation of powerful and stable high-frequency oscillations.
It revolutionized high-energy physics and microwave research and led to airborne
radar. The klystron also has been used in satellite communications, airplane and
missile guidance systems, and telephone and television transmission. After WW
II, working with three graduate students, Hansen demonstrated the first 4.5 MeV
linear accelerator in 1947. May
22:
Julius Plücker
(Born
June 16, 1801: Died May 22, 1868)
German mathematician and physicist whose
work suggested the far-reaching principle of duality, which states the equivalence
of certain related types of theorems. He also discovered that cathode rays (electron
rays produced in a vacuum) are diverted from their path by a magnetic field, a
principle vital to the development of modern electronic devices, such as television.
At first alone and later with the German physicist Johann W. Hittorf, Plücker
made many important discoveries in spectroscopy. Before Bunsen and Kirchhoff,
he announced that spectral lines were characteristic for each chemical substance
and this had value to chemical analysis. In 1862 he pointed out that the same
element may exhibit different spectra at different temperatures. May
21:
Andrey Dmitriyevich Sakharov
(Born May 21, 1921: Died December
14, 1989)
Soviet nuclear physicist, an outspoken advocate of human rights
in the Soviet Union. At the end of World War II, Sakharov returned to pure science
and the study of cosmic rays. Two years later, he began work with a secret research
group on the development of the hydrogen bomb, and he is believed to have been
principally responsible for the Soviets' success in exploding their first thermonuclear
bomb (1954). With I.E. Tamm, he proposed controlled thermonuclear fusion by confining
an extremely hot ionized plasma in a torus-shaped magnetic bottle, known as a
tokamak device. He became politically more active in the 1960s, campaigned against
nuclear proliferation, and from 1980 to 1986, he was banished and kept under police
surveillance. May
20:
Radium
In
1921, Marie Curie was presented with a gram of radium worth $100,000 at the White
House, Washington, D.C. May
19:
Nuclear submarine
In
1959, the first submarine with two nuclear reactors was completed. The Triton
was 447 feet long, 37 feet wide and was manned by 148 officers and crew. The General
Electric Co. built the two water-cooled nuclear reactors. Each propeller was powered
by electrical current provided by one of the reactors. The submarine had a cruising
range of 110,000 miles. The first U.S. atomic powered submarine had been completed
a few years before, on April 22, 1955. May
18:
First atomic pile patent issued
In 1955, the highly classified
patent for the first atomic pile was finally issued - 13 years after it had been
started and nearly 11 years after it had been filed (No. 2,708,656). Work on the
initial patent application had begun six months before the reactor was completed.
Fermi and his team of scientists at the University of Chicago's Metallurgical
Laboratory ushered in the nuclear age when they achieved the world's first controlled,
self-sustaining nuclear chain reaction on December 2, 1942. Filed with the U.S.
Patent Office in December 1944, the patent application listed Fermi and Szilard
as co-inventors and described the method by which a self-sustaining nuclear chain
reaction had been achieved. By the time it was issued, Fermi had been dead for
six months. May
17:
Atomic reactor
In
1955, an atomic reactor was patented by Fermi and Szilard (U.S. No. 2,708,656). May
16:
Alfred O.C. Nier
(Born
May 28, 1911: Died May 16, 1994)
Physicist who helped develop the first atomic
bomb. May
15:
Pierre Curie
(Born:
May 15, 1859: Died April 19, 1906)
French physical chemist and cowinner of
the Nobel Prize for Physics in 1903. His studies of radioactive substances were
made together with his wife, Marie Curie, whom he married in 1895. They were achieved
under conditions of much hardship - barely adequate laboratory facilities and
under the stress of having to do much teaching in order to earn their livelihood.
Together, they discovered radium and polonium in their investigation of radioactivity
by fractionation of pitchblende (announced in 1898). Later they did much to elucidate
the properties of radium and its transformation products. Their work in this era
formed the basis for much of the subsequent research in nuclear physics and chemistry. May
14:
Skylab
In
1973, the United States launched "Skylab One," its first manned space
station. During the following nine months, three successive crews of astronauts
manned the orbiting laboratory. This was the largest payload launched into space.
It fell back into and burned up in the Earth's atmosphere in July, 1979. The official
emblem (left) depicts the U.S. Skylab space station cluster in Earth orbit with
the Sun in the background. The cluster is composed of the Apollo Command/Service
Module, Orbital Workshop, Apollo Telescope Mount (ATM), Multiple Docking Adapter,
and Airlock Module. The arrays of solar cell panels turn sunlight into electric
power for the space station. May
13:
Stanislaw M. Ulam
(Born:
April 13, 1909: May 13, 1984)
Polish-American mathematician who played a major
role in the development of the hydrogen bomb at Los Alamos. He solved the problem
of how to initiate fusion in the hydrogen bomb by suggesting that compression
was essential to explosion and that shock waves from a fission bomb could produce
the compression needed. He further suggested that careful design could focus mechanical
shock waves in such a way that they would promote rapid burning of the fusion
fuel. Ulam, with J.C. Everett, also proposed the "Orion" plan for nuclear
propulsion of space vehicles. While Ulam was at Los Alamos, he developed "Monte-Carlo
method" which searched for solutions to mathematical problems using a statistical
sampling method with random numbers.
May
12:
Sir Christopher Hinton
(Born: May 12, 1901: Died
June 22, 1983)
(Baron of Bankside) English engineer who was a leading figure
in the development of the nuclear energy industry in Britain; he supervised the
construction of Calder Hall, the world's first large-scale nuclear power station
(opened in 1956). He first worked for Imperial Chemical Industries (ICI) where
at age 29 he was appointed chief engineer of the Alkali Groups. While at ICI he
was selected to start building nuclear power plants. Britain's first four such
plants were completed in six years. He played a founding role in fast breeder
technology. The decision to build the Dounreay Fast Reactor was made in 1954,
which ran successfully for over two decades, until its planned shutdown in 1977,
thus demonstrating the safe operation of the concept. May
11:
Antony Hewish
(Born
May 11, 1924)
British astrophysicist who won the Nobel Prize for Physics in
1974 for his discovery of pulsars (cosmic objects that emit extremely regular
pulses of radio waves). In late Nov 1967 Hewish and Ph.D. student Jocelyn Bell,
by radio telescope, observed an unusual signal corresponding to a sharp burst
of radio energy at a regular interval of approximately one second. It is believed
that rapidly rotating neutron stars with intense electromagnetic fields emit radio
waves from their north and south poles. From a great distance, these radio emissions
are perceived in pulses, similar to the way one sees the light from a lighthouse’s
rotating lantern. Hewish and Bell’s discovery served as the first evidence of
this phenomenon. May
10:
Richard P. Feynman
(Born
May 11, 1918: Died February 15, 1988)
Richard Phillips Feynman was an American
theoretical physicist who was probably the most brilliant, influential, and iconoclastic
figure in his field in the post-WW II era. By age 15, he had mastered calculus.
He took every physics course at MIT. His lifelong interested was in subatomic
physics. In 1942, he went to Los Alamos where Hans Bethe made the 24 year old
Feynman a group leader in the theoretical division, to work on estimating how
much uranium would be needed to achieve critical mass for the Manhattan (atomic
bomb) Project. After the war, he developed Feynman Diagrams, a simple notation
to describe the complex behavior of subatomic particles. In 1965, he shared the
Nobel Prize in Physics for work in quantum electrodynamics. May
9:
AA Michelson
(Born
December 9, 1852: Died May 9, 1931)
Albert Abraham Michelson was a German-born
American physicist who accurately measured the speed of light and received the
1907 Nobel Prize for Physics "for his optical precision instruments and the
spectroscopic and metrological investigations" he carried out with them.
He designed the highly accurate Michelson interferometer and used it to establish
the speed of light as a fundamental constant. With Edward Morley, he also used
it in an attempt to measure the velocity of the earth through the ether (1887).
The experiment yielded null results that eventually led Einstein to his theory
of relativity. He measured the standard meter bar in Paris to be 1,553,163.5 wavelengths
of the red cadmium line (1892-3). May
8:
Antoine Lavoisier executed
In 1794, Antoine Lavoisier,
the father of modern chemistry, was executed on the guillotine during France's
Reign of Terror. May
7:
Allan MacLeod Cormack
(Born February 23, 1924: Died
May 7, 1998)
South African-born American physicist who formulated the mathematical
algorithms that made possible the development of a powerful new diagnostic technique,
the cross-sectional X-ray imaging process known as computerized axial tomography
(CAT) scanning. He first described this in two papers in 1963 and 1964. X-ray
tomography is a process by which a picture of an imaginary slice through an object
(or the human body) is built up from information from detectors rotating around
the body. For this work, he was awarded a share of the 1979 Nobel Prize. Cormack
was unusual in the field of Nobel laureates because he never earned a doctorate
degree in medicine or any other field of science. May
6:
Robert Henry Dicke
(Born
May 6, 1916: Died March 4, 1997)
American physicist worked in such wide-ranging
fields as microwave physics, cosmology, and relativity. As an inspired theorist
and a successful experimentalist, his unifying theme was the application of powerful
and scrupulously controlled experimental methods to issues that really matter.
He also made a number of significant contributions to radar technology and to
the field of atomic physics. His visualization of an oscillating universe stimulated
the discovery of the cosmic microwave background, the most direct evidence that
our universe really did expand from a dense state. A key instrument in measurements
of this fossil of the Big Bang is the microwave radiometer he invented. His patents
ranged from clothes dryers to lasers. May
5:
Arthur L. Schawlow
(Born May 5, 1921: Died April 28, 1999)
American physicist and corecipient,
with Nicolaas Bloembergen of the United States and Kai Manne Börje Siegbahn
of Sweden, of the 1981 Nobel Prize for Physics for his work in developing the
laser and in laser spectroscopy. May
4:
American Academy of Arts and Sciences
In 1780, the first U.S. national
arts and science society was incorporated. It was chartered in Boston, Mass. "to
cultivate every art and science which may tend to advance the interest, dignity,
honor and happiness of a free, independent and virtuous people." The first
society president was James Bowdoin (1780-90). The original incorporators were
later joined by Benjamin Franklin, George Washington, Thomas Jefferson, Charles
Bulfinch, Alexander Hamilton, John Quincy Adams, and others. May
3:
Steven Weinberg
(Born
May 3, 1933)
American nuclear physicist who in 1979 shared the Nobel Prize
for Physics with Sheldon Lee Glashow and Abdus Salam for work in formulating the
electroweak theory, which explains the unity of electromagnetism with the weak
nuclear force. May
2:
Leonardo da Vini
(Born
1452: Died May 2, 1519)
Italian painter, draftsman, sculptor, architect, and
engineer whose genius, perhaps more than that of any figure, epitomized the Renaissance
humanist ideal. His notebooks reveal a spirit of scientific inquiry and a mechanical
inventiveness that were centuries ahead of their time. May
1:
Van
Allen radiation belts
In 1958, the discovery
of the powerful Van Allen radiation belts that surround Earth was published in
the Washington Evening Star. The article covered the report made by their discoverer
James. A. Van Allen to the joint sysmposium of the National Academy of Sciences
and the American Physical Society in Washington DC. He used data from the Explorer
I and Pioneer III space probes of the earth's magnetosphere region to reveal the
existence of the radiation belts - concentrations of electrically charged particles.
Van Allen (born Sept. 7 1914) was also featured on the cover of the May 4, 1959
Time magazine for this discovery. He was the principal investigator on 23 other
space probes.
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