This article needs additional citations for verification. Please help improve this article by adding citations to reliable sources. Unsourced material may be challenged and removed. (November 2011)

The Lord Rutherford of Nelson
Lord Rutherford of Nelson
Born	30 August 1871(1871-08-30) Brightwater, New Zealand
Died	19 October 1937(1937-10-19) (aged 66) Cambridge, England
Residence	New Zealand, UK, Canada
Citizenship	New Zealand, United Kingdom
Nationality	New Zealander
Fields	Physicist-Chemist
Institutions	McGill University University of Manchester
Alma mater	University of Canterbury University of Cambridge
Academic advisors	Alexander Bickerton J. J. Thomson
Doctoral students	Nazir Ahmed Norman Alexander Edward Victor Appleton Robert William Boyle Rafi Muhammad Chaudhry Alexander MacAulay Cecil Powell Henry DeWolf Smyth Ernest Walton C. E. Wynn-Williams Yulii Borisovich Khariton
Other notable students	Edward Andrade Edward Victor Appleton Patrick Blackett Niels Bohr Bertram Boltwood Harriet Brooks Teddy Bullard James Chadwick John Cockcroft Charles Galton Darwin Charles Drummond Ellis Kazimierz Fajans Hans Geiger Otto Hahn Douglas Hartree Pyotr Kapitsa George Laurence Iven Mackay Ernest Marsden Mark Oliphant A. J. B. Robertson Frederick Soddy
Known for	Father of nuclear physics Rutherford model Rutherford scattering Rutherford backscattering spectroscopy Discovery of proton Rutherford (unit) Coining the term 'artificial disintegration'
Influenced	Henry Moseley Hans Geiger Albert Beaumont Wood
Notable awards	Rumford Medal (1905) Nobel Prize in Chemistry (1908) Elliott Cresson Medal (1910) Matteucci Medal (1913) Copley Medal (1922) Franklin Medal (1924)
Signature

Ernest Rutherford, 1st Baron Rutherford of Nelson OM, FRS^[1] (30 August 1871 – 19 October 1937) was a New Zealand chemist and physicist who became known as the father of nuclear physics.^[2] In early work he discovered the concept of radioactive half-life, proved that radioactivity involved the transmutation of one chemical element to another, and also differentiated and named alpha and beta radiation, proving that the former was essentially helium ions. This work was done at McGill University in Canada. It is the basis for the Nobel Prize in Chemistry he was awarded in 1908 "for his investigations into the disintegration of the elements, and the chemistry of radioactive substances".^[3]

Rutherford performed his most famous work after he had moved to the Victoria University of Manchester in the UK in 1907 and was already a Nobel laureate. In 1911, he theorized that atoms have their positive charge concentrated in a very small nucleus,^[4] and thereby pioneered the Rutherford model of the atom, through his discovery and interpretation of Rutherford scattering in his gold foil experiment. He is widely credited with first "splitting the atom" in 1917 in a nuclear reaction between nitrogen and alpha particles, in which he also discovered (and named) the proton.^[5] This led to the first experiment to split the nucleus in a fully controlled manner, performed by two students working under his direction, John Cockcroft and Ernest Walton, in 1932. After his death in 1937, he was honoured by being interred with the greatest scientists of the United Kingdom, near Sir Isaac Newton's tomb in Westminster Abbey. The chemical element rutherfordium (element 104) was named after him in 1997.

[edit] Biography

Ernest Rutherford was the son of James Rutherford, a farmer, and his wife Martha Thompson, originally from Hornchurch, Essex, England.^[6] James had emigrated to New Zealand from Perth, Scotland, "to raise a little flax and a lot of children". Ernest was born at Spring Grove (now Brightwater), near Nelson, New Zealand. His first name was mistakenly spelled Earnest when his birth was registered.^[7]

He studied at Havelock School and then Nelson College and won a scholarship to study at Canterbury College, University of New Zealand where he was president of the debating society, among other things. After gaining his BA, MA and BSc, and doing two years of research at the forefront of electrical technology, in 1895 Rutherford travelled to England for postgraduate study at the Cavendish Laboratory, University of Cambridge (1895–1898),^[8] and he briefly held the world record for the distance over which electromagnetic waves could be detected.

In 1898 Rutherford was appointed to succeed Hugh Longbourne Callendar in the chair of Macdonald Professor of physics at McGill University in Montreal, Canada, where he did the work that gained him the Nobel Prize in Chemistry in 1908. In 1900 he gained a DSc from the University of New Zealand. Also in 1900 he married Mary Georgina Newton (1876–1945); they had one daughter, Eileen Mary (1901–1930), who married Ralph Fowler. In 1907 Rutherford moved to Britain to take the chair of physics at the University of Manchester.

[edit] Later years and honours

He was knighted in 1914. In 1916 he was awarded the Hector Memorial Medal. In 1919 he returned to the Cavendish as Director. Under him, Nobel Prizes were awarded to James Chadwick for discovering the neutron (in 1932), John Cockcroft and Ernest Walton for an experiment which was to be known as splitting the atom using a particle accelerator, and Edward Appleton for demonstrating the existence of the ionosphere. He was admitted to the Order of Merit in 1925 and raised to the peerage as Baron Rutherford of Nelson, of Cambridge in the County of Cambridge, in 1931,^[9] a title that became extinct upon his unexpected death in 1937.

For some time beforehand, Rutherford had a small hernia, which he had neglected to have fixed, and it became strangulated, causing him to be violently ill. Despite an emergency operation in London, he died four days afterwards of what physicians termed "intestinal paralysis." He was given the high honor of burial in Westminster Abbey, near Isaac Newton and other illustrious British scientists.^[10]

[edit] Scientific research

During the investigation of radioactivity he coined the terms alpha ray and beta ray in 1899 to describe the two distinct types of radiation emitted by thorium and uranium. These rays were differentiated on the basis of penetrating power. From 1900 to 1903 he was joined at McGill by the young Frederick Soddy (Nobel Prize in Chemistry, 1921) and they collaborated on research into the transmutation of elements. Rutherford had demonstrated that radioactivity was the spontaneous disintegration of atoms. He noticed that a sample of radioactive material invariably took the same amount of time for half the sample to decay—its "half-life"—and created a practical application using this constant rate of decay as a clock, which could then be used to help determine the age of the Earth, which turned out to be much older than most of the scientists at the time believed.

In 1903, Rutherford considered a type of radiation discovered (but not named) by French chemist Paul Villard in 1900 as an emission from radium, and realised that this observation must represent something different from alpha rays and beta rays, due to its very much greater penetrating power. Rutherford gave this third type of radiation its name also: the gamma ray.

In Manchester he continued to work with alpha radiation. In conjunction with Hans Geiger he developed zinc sulfide scintillation screens and ionisation chambers to count alphas. By dividing the total charge they produced by the number counted, Rutherford decided that the charge on the alpha was two. In late 1907 Ernest Rutherford and Thomas Royds allowed alphas to penetrate a very thin window into an evacuated tube. As they sparked the tube into discharge, the spectrum obtained from it changed, as the alphas accumulated in the tube. Eventually, the clear spectrum of helium gas appeared, proving that alphas were at least ionised helium atoms, and probably helium nuclei.

[edit] Rutherford and the Gold Foil Experiment

Rutherford remains the only science Nobel Prize winner to have performed his most famous work after receiving the prize.^[11] Along with Hans Geiger and Ernest Marsden in 1909 he carried out the Geiger–Marsden experiment, which demonstrated the nuclear nature of atoms. Rutherford was inspired to ask Geiger and Marsden in this experiment to look for alpha particles with very high deflection angles, of a type not expected from any theory of matter at that time. Such deflections, though rare, were found, and proved to be a smooth but high-order function of the deflection angle. It was Rutherford's interpretation of this data that led him to formulate the Rutherford model of the atom in 1911 — that a very small positively charged nucleus was orbited by electrons.

Before leaving Manchester in 1919 to take over the Cavendish laboratory in Cambridge, Rutherford became in 1917 the first person to deliberately transmute one element into another, when he converted nitrogen into oxygen through the nuclear reaction ¹⁴N + α → ¹⁷O + proton. In the products of this reaction he identified hydrogen nuclei by their similarity to the particle radiation from earlier experiments in which he had bombarded hydrogen gas with alpha particles. This result showed that hydrogen nuclei were a part of nitrogen nuclei (and by inference, probably other nuclei as well). Such a construction had been suspected for many years on the basis of atomic weights which were whole numbers of that of hydrogen; see Prout's hypothesis. Now Rutherford decided that a hydrogen nucleus was a fundamental building block and a particle, which he named the proton.

In 1921, while working with Niels Bohr (who postulated that electrons moved in specific orbits), Rutherford theorised about the existence of neutrons, which could somehow compensate for the repelling effect of the positive charges of protons by causing an attractive nuclear force and thus keeping the nuclei from breaking apart. Rutherford's theory of neutrons was proved in 1932 by his associate James Chadwick, who in 1935 was awarded the Nobel Prize in Physics for this discovery.

[edit] Legacy

A plaque commemorating Rutherford's presence at the Victoria University, Manchester

[edit] Nuclear physics

Rutherford's research, and work done under him as laboratory director, established the nuclear structure of the atom and the essential nature of radioactive decay. Rutherford's team also demonstrated artificially induced nuclear transmutation. He is known as the father of nuclear physics. Rutherford died too early to see Leó Szilárd's idea of controlled nuclear chain reactions come into being. However, a speech of Rutherford's about artificially induced transmutation printed in the September 12, 1933 London paper The Times is reported by Szilárd to have been his inspiration for thinking of the possibility of a controlled nuclear chain reaction, in London, on the same day.

Rutherford's speech touched on the 1932 work of his students John Cockcroft and Ernest Walton in "splitting" lithium into alpha particles by bombardment with protons from a particle accelerator they had constructed. Rutherford realized that the energy released from the split lithium atoms was enormous, but he also realized that the energy needed for the accelerator, and its essential inefficiency in splitting atoms in this fashion, made the project an impossibility as a practical source of energy (accelerator-induced fission of light elements remains too inefficient to be used in this way, even today). Rutherford's speech in part, read:

We might in these processes obtain very much more energy than the proton supplied, but on the average we could not expect to obtain energy in this way. It was a very poor and inefficient way of producing energy, and anyone who looked for a source of power in the transformation of the atoms was talking moonshine. But the subject was scientifically interesting because it gave insight into the atoms.^[12]

[edit] Items named in honour of Rutherford's life and work

A statue of Ernest Rutherford at his memorial in Brightwater, New Zealand.

Scientific discoveries

• the element rutherfordium, Rf, Z=104. (1997)^[13]

Institutions

• Rutherford Appleton Laboratory, a scientific research laboratory near Didcot, Oxfordshire, UK.
• Rutherford College, a school in Auckland, New Zealand
• Rutherford College, a college at the University of Kent in Canterbury, UK
• the Rutherford Institute for Innovation at the University of Cambridge, UK
• Rutherford Intermediate School, Wanganui, New Zealand
• Rutherford Hall, a hall of residence at Loughborough University

Awards

• Rutherford Medal, the highest science medal awarded by the Royal Society of New Zealand, New Zealand.
• The Rutherford Award at Thomas Carr College for excellence in VCE Chemistry, Australia.
• The Rutherford Memorial Medal is an award for research in the fields of physics and chemistry by the Royal Society of Canada.
• The Rutherford Medal and Prize is awarded once every two years by the Institute of Physics for "distinguished research in nuclear physics or nuclear technology."
• The Rutherford Memorial Lecture is an international lecture tour under the auspices of the Royal Society created under the Rutherford Memorial Scheme in 1952.

Buildings

• Rutherford building at Bedford Modern School.
• a building of the modern Cavendish Laboratory at the University of Cambridge, UK
• The Ernest Rutherford Physics Building at McGill University, Montreal, Canada^[14]
• Rutherford house, a boarding house at Nelson College^[15]
• Rutherford House, the primary building of Victoria University of Wellington's Pipitea Campus, originally the headquarters of the New Zealand Electricity Department, in Wellington, New Zealand.
• the physics and chemistry building at the University of Canterbury, New Zealand
• The Coupland Building at the University of Manchester where Rutherford worked was renamed The Rutherford Building in 2006.
• The Rutherford lecture theatre in the Schuster Laboratory at the University of Manchester

Major streets

• Rutherford Close, a residential street in Abingdon, Oxfordshire, UK.
• Lord Rutherford Road in Brightwater, New Zealand (near his birthplace)
• Rutherford Road in the biotech district of Carlsbad, California, USA.
• Rutherford Street in Nelson, New Zealand.

Other

• Rutherford House, at Rotorua Intermediate School, Rotorua, New Zealand
• The Rutherford Memorial at Brightwater, New Zealand
• The crater Rutherford on the Moon, and the crater Rutherford on Mars
• Image on the obverse of the New Zealand $100 note (since 1992).
• Rutherford was the subject of a play by Stuart Hoar.
• On the side of the Mond Laboratory on the site of the original Cavendish Laboratory in Cambridge, there is an engraving in Rutherford's memory in the form of a crocodile, this being the nickname given to him by its commissioner, his colleague Peter Kapitza. The initials of the engraver, Eric Gill, are visible within the mouth.
• The Rutherford Foundation, a charitable trust set up by the Royal Society of New Zealand to support research in science and technology.^[16]

[edit] Publications

• Radio-activity (1904), 2nd ed. (1905), ISBN 978-1-60355-058-1
• Radioactive Transformations (1906), ISBN 978-1-60355-054-3
• Radiations from Radioactive Substances (1919)
• The Electrical Structure of Matter (1926)
• The Artificial Transmutation of the Elements (1933)
• The Newer Alchemy (1937)

[edit] Famous statements

• "The energy produced by the breaking down of the atom is a very poor kind of thing. Anyone who expects a source of power from the transformation of these atoms is talking moonshine." – 1933^[17]
• "It was almost as if you fired a 15 inch shell into a piece of tissue paper and it came back and hit you.” (describing the Geiger-Marsden experiment)
• "All science is either physics or stamp collecting" (though he was in 1908 awarded the Nobel Prize in Chemistry)
• "We haven't the money, so we've got to think."^[18]
• "If your experiment needs statistics, you ought to have done a better experiment." ^[19]
• "You should never bet against anything in science at odds of more than about 1012 to 1." ^[19]

[edit] Arms

Arms of Ernest Rutherford Notes The arms of Ernest Rutherford consist of:[20][21] Crest A baron's coronet. On a helm wreathed of the Colors, a kiwi Proper. Escutcheon Per saltire arched Gules and Or, two inescutcheons voided of the first in fess, within each a martlet Sable. Supporters Dexter, Hermes Trismegistus (mythological patron of knowledge and alchemists). Sinister, a Maori warrior. Motto Primordia Quaerere Rerum ("To seek the first principles of things." Lucretius.)

[edit] See also

• The Rutherford Journal

[edit] References

[edit] Further reading

• Cragg, R. H. (1971). "Lord ernest rutherford of nelson (1871?1937)". Royal Institute of Chemistry, Reviews 4 (2): 129–120. doi:10.1039/RR9710400129.  edit
• J. Campbell (1999) Rutherford: Scientist Supreme, AAS Publications, Christchurch
• Marsden, E. (1954). "The Rutherford Memorial Lecture, 1954. Rutherford-His Life and Work, 1871-1937". Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences 226 (1166): 283–226. doi:10.1098/rspa.1954.0254.  edit
• Reeves, Richard (2008). A Force of Nature: The Frontier Genius of Ernest Rutherford. New York: W. W. Norton. ISBN 0-393-33369-8
• Rhodes, Richard (1986). The Making of the Atomic Bomb. New York: Simon & Schuster. ISBN 0-671-44133-7
• Wilson, David (1983). Rutherford. Simple Genius, Hodder & Stoughton, ISBN 0-340-23805-4

[edit] External links

Find more about Ernest Rutherford on Wikipedia's sister projects:
	Definitions and translations from Wiktionary
	Images and media from Commons
	Learning resources from Wikiversity
	News stories from Wikinews
	Quotations from Wikiquote
	Source texts from Wikisource
	Textbooks from Wikibooks

• Biography from Nobel prize official website
• Nobel Lecture The Chemical Nature of the Alpha Particles from Radioactive Substances
• The Rutherford Museum
• Rutherford Scientist Supreme
• Profile from American Public Broadcasting Service
• Profile from The New Zealand Edge
• Annotated bibliography for Ernest Rutherford from the Alsos Digital Library for Nuclear Issues
• Biography in 1966 An Encyclopaedia of New Zealand
• Rutherford at Canterbury University College from The Rutherford Journal
• Rutherford's Timebomb Article on Rutherford's contribution to dating the Age of the Earth
• BBC Radio 4: In Our Time — Rutherford
• The Rutherford Collection at his alma mater the University of Canterbury
• Ernest Rutherford NZ Post stamp, 2008 — includes link to short biography and other sources (NZHistory.net.nz)