Rediscovery of the Elements Rutherford and Radon U transmutation of the elements. He was to be (1877-1956) he developed the "transformation U acknowledged as the "leading explorer of the theory" which showed radioactivity was a vast, infinitely complex universe within the nuclear property. From thorium Rutherford atom, a universe that he was the first to pene- observed a gaseous radioactive product, which trate."3 he called "emanation"-he had discovered the Ernest Rutherford, the son of a flax farmer in element radon.' New Zealand, gained his undergraduate train- The British method of developing explicit ing in his native country. In 1895 he moved to descriptive models to explain nature was per- England, where he attended Cambridge Univ- fect for the advance of nuclear chemistry at this ersity; he was entering the scientific scene in moment in history; Lord Kelvin (William Europe just as radioactivity was discovered in Thomson, 1824-1907) said he could not reason 1896 by Henri Becquerel (1852-1908) of Paris. "without making a visualizable picture" of the His first research involved hertzian (radio) phenomenon he wanted to describe. J. J. James L. Marshal, beta Eta 1971, and waves, but he then moved on to the study of Thomson of the Cavendish Laboratory at Virginia R. Marshall, Beta Eta 2003, uranium rays with J. J. Thomson (1856-1940) at Cambridge was using the idea of charged cor- Department of Chemistry, University of Cambridge. Rutherford showed that these ion- puscles to explain cathode rays, and he viewed North Texas, Denton,TX 76203-5070, izing rays consisted of two main types, which the atom as a dynamic, moving mixture of pos- he called alpha and beta "for simplicity."2 itive and negative charges. Scientists on the [email protected] In 1898 Rutherford took a post at McGill continent, by contrast, were not impressed by University, Montreal, Canada, while Marie and this "picture making"-the Curies, for exam- EDITOR'S NOTE: This installment of the Pierre Curie in Paris were discovering polonium ple, considered the British method as"childish, Rediscoven/ series is based in part on recent publi- (1898) and radium (1899). This new phenome- arbitrary, and English."= cations, that appeared in the ACS Division of non of radioactivity mystified many, but From McGill University Rutherford mo ved Histon/, used with pennission, that deal with the Rutherford's incisive mind and fertile imagina- to Manchester University in 1907 and then to historical controversy between Rutherford and tion allowed him to use atoms not only as use- Cambridge University in 1919. Scientists who Dorn regarding the discovery of radon (Figure 1). ful, but also as necessary, models to offer coher- would later become famous in their own right ent explanations. At McGill he came to under- flocked to these laboratories for training and Introduction. At the beginning of the 19th stand radioactive decay and he developed the collaboration-such scientists included century, John Dalton (1766-1844) proposed concept of "half-life"; with Frederick Soddy Frederick Soddv (who invented the term "iso- that the world was composed of atoms with specific masses. Even though there was no Figure 1. Two scientists in the literature associated with the discovery of direct evidence that such discrete particles actu- radon. Right: Ernest Ruthrhord (1871-1937), Macdonald Professor ally existed, his theory was utilized throughout of McGill University, Montreal, the 1800s. Using atoms as models, scientists Canada (portraitat the Dept. of refined these atomic masses and developed Physics, McGill University). theories of organic chemistry, stereochemistry, Rutherford first characterizedema- crystallography, ionic and covalent bonding, nation of a radon isotope (from and electrochemistry. The scientific community thorium) as a gas and an elen'nt generally accepted the fact that chemistry and should be credited with the behaved as if atoms existed. But since no one discovery of radon. Left: Friedrich had ever seen an atom, some scientists could Ernst Dorn (1848-1916), still refute their existence, even into the 20th Geheimer Regierungs-Rat century; Ernst Mach denied them to his death Professor of Friedrichs Universihit, in 1916.2 Ernest Rutherford (1871-1937), how- Halle (Saale). (Portraitat the ever, did not doubt the existence of atoms for a University of Halle; photograph by the authors). He was the first to moment. He used them to explain the mysteri- observe emanation from radium specifically (the etymological source of ous phenomenon of radioactivity, which in turn the name "radon"), but his observations were subsequent to allowed him to determine their structure; even- Rutherford's work. tuall, he was even able to perform artificial 22 THE HEXAGON/SUMMER 2010 Figure 4. Map of - 1%. Rutherford's home s, McGill area of I 1 um*EFORD BLDG f on Rue Sainte-Famille r Montreal, Canada. Rue 6-0 meters [street] University which leads northwest a , into the university/ is c BLDG nr - . IACDONALD BLDG 'Qi 4,r a continuation of 3 Interstate 10. s n ve t. Macdonald Physics O ontrea Building (the old Physics Building), where Rutherford performed his work, * '' m then Macdonald- 1 Stewart Librarn, now called the Shulich Library (Engineering and Science), 809, rue Sherbrooke Ouest-N45 30.30 W730 34.49. Rutherford Building (Modern Physics Building), which holds the Rutherford Musum, 3600 rue University--N45 30.41 W73 34.72. Figure 2. Near the Roddick Gates on Rue "1"= James McGill statue, close to Roddick Gates-N45 30.25 W73 34.54. Sherbrooke in Montreal, Canada, is this statue of "2"= Otto Maass Chemistri Building, modern chemistry building, 801, rue Sherbrooke Ouest-N45 James McGill (1744-1813), whose bequest was 30.31 W730 34.46. responsible for the founding of McGill University "3" [in inset] = Rutherford home during 1900-1907, then No. 152 Rue Sainte Famille Street, now 3702 in 1821. The plaque at the base is inscribed in Rue Sainte Famille (corner of Rue Ste Famille and Rue Basset)-N45 30.75 W73 34.58. both English and French. McGill won his fortune "4" [in inset] = Rutherford Building (Modern Physics Building)-for reference in the inset, sane as above. in the fur trade and went on to other enterprises in property. He was born in Glasgow, Scotland, "Photographs." The creator of the museum was museum (Figures 7 and 8). In the alcove outside and was educated at the University of Glasgow, Dr. Ferdinand Terroux, a student of Rutherford the museum is a bust and plaque in honor of where a plaque exists in his honor recognizing his at Cambridge University, who came to McGill Rutherford (Figure 9), and inside the Otto achievements in Canada. (See next figuure). in 1931, where he became professor of physics. Maass Chemistry Building is a plaque devoted Dr. Terroux established the museum in 1967 to Soddy (Figure 9). tope"), Niels Bohr (who first described the after he assembled Rutherford's apparatus and quantized atom), Otto Hahn (who discovered equipment, which had been in storage for An incorrect ascription of radon's discovery. atomic fission), Henry Moseley (who discov- many decades. The modern museum reputedly In the literature Friedrich Ernst Dorn is com- ered atomic numbers from his X-ray research), houses the world's best collection of Rutherford monly, but incorrectly, ascribed as the discover- Georg von Hevesy (who discovered hafnium), apparatus. Two figures presented here show er of radon; for example, presented for decades James Chadwick (who discovered the neutron), only a meager sampling of the richness of the in the Handbook of Chemistry and Physics is this and Hans Geiger (famed for his eponymous statement: " "The element [radon] was discov- counting device). Rutherford was a giant in his ered in 1900 by Dorn, who called it radium ema- field and was mourned at his premature death nation."This error has been repeated countless at the age of 66 at Cambridge." times in subsequent articles, books, and web sites. In fact, Dorn did not first give the name of Rediscovering Rutherford in McGill. "emanation" to the phenomenon (much less Rutherford's Nobel Prize in 1908 was given in THIS MEMORIAL. STONE "radium emanation"); he did not have the recognition of his work at McGill University cil.N M LL (0 eERSITY faintest idea of the nature of the phenomenon, (Figures 2,3), an English-speaking university and he certainly did not realize that it might be McGiLUv in the center of Montreal, Canada (see Figure JA E S a new element (Note 1). 4). The building where Rutherford and Soddy i SUT N ATS O THE What was the source of the error? Here is performed their work, then called the !t TRADER SOLDIER AND story: TATESMAN IN CANADA Macdonald Physics Building (Figure 5), still ige. In the CEs H( Blso Uiesii \ difficulty in assigning proper credit of FOUNDER OF McGiLL UNWVERSITY t stands (Figure 6). MONTRFAL ion's discoverer was recognized by Nearby is the Rutherford Physics Building, tington who identified an erroneous cita- where a beautiful and complete Rutherford n by George Charles de Hevesy Museum has been established which in fine (1888-1866)., In Hevesy's paper, an incorrect 7 detail describes the experiments performed at Figure 3. In the t Cloisters of Glasgow University is reference was given to Dorn's original paper McGill University. The exhibits include cases this plaque (N5552.26 W04 17.33) devoted to where radium was observed to produce an demonstrating "The Nature and Properties of McGill. Nearby (200 meters northwest; N55 emanation; this faulty reference was copied a-rays," "Emanations from Thorium and 52.37 W040 17.45) is a plaque commemorating into all subsequent works of reference until Radium," "Excited Radioactivity," "Ionization the site where Soddy, who earlier was a postdoc- Partington corrected the error 44 years later.' Studies," "Heating Effectings of Radiation," toral fellow for Rutherford in McGill Universig/, In the meantime, Dorn's paper apparently was "The Radium Decay Series," "Measurement originated the term "Isotope" in 1913 at a dinner not widely read and its exact contents were lost Techniques," "Various Documents," and party held by his parents-in-law.
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