Correspondence relating to the Ballarat School of Mines. ballarat school of mines, e.j. barker, jack barker, harold trudinger, prize night, fees, t.g. seymour, correspondence, graduation, ballarat civic hall, floor plan, e.a. bald, royal australian chemical institute, open night

(Sir) David Orme Masson was Professor of Chemistry at the University of Melbourne from 1886 to1923. As well as being a distinguished teacher and researcher, he contributed significantly to Australian scientific and public life, being instrumental in the establishment and governance of many important bodies including the CSIRO. Masson supported Antarctic research for 25 years, beginning with Douglas Mawson's expedition of 1911. Born in England and receiving an MA, BSc and DSc from the University of Edinburgh, he was a gifted, elegant and disciplined lecturer and a researcher of substance. His research work included the theory of solutions, from which emerged the term 'critical solution temperature'; the periodic classification of the elements; and the velocity of migration of ions in solutions. Much of his research was done in collaboration with talented students such as David Rivett and his own son Irvine Masson. Masson was knighted in 1923. He is commemorated by the Masson Theatre and Masson Road at the University of Melbourne; a mountain range and island in Antarctica; a portrait painting by William McInnes in the foyer of the School of Chemistry; the Masson lectureship from the Australian National Research Council; and the Masson memorial scholarship from the Royal Australian Chemical Institute.Set of rare gases in a box coming from Irvine Masson to his father.

(Sir) David Orme Masson was Professor of Chemistry at the University of Melbourne from 1886 to1923. As well as being a distinguished teacher and researcher, he contributed significantly to Australian scientific and public life, being instrumental in the establishment and governance of many important bodies including the CSIRO. Masson supported Antarctic research for 25 years, beginning with Douglas Mawson?s expedition of 1911. Born in England and receiving an MA, BSc and DSc from the University of Edinburgh, he was a gifted, elegant and disciplined lecturer and a researcher of substance. His research work included the theory of solutions, from which emerged the term ?critical solution temperature?; the periodic classification of the elements; and the velocity of migration of ions in solutions. Much of his research was done in collaboration with talented students such as David Rivett and his own son Irvine Masson. Masson was knighted in 1923. He is commemorated by the Masson Theatre and Masson Road at the University of Melbourne; a mountain range and island in Antarctica; a portrait painting by William McInnes in the foyer of the School of Chemistry; the Masson lectureship from the Australian National Research Council; and the Masson memorial scholarship from the Royal Australian Chemical Institute.8 samples in bottles of the type used in Masson's work on methyl,etc,sulphides, See152

Large dark wooden one fits the dish ordered by D.O.Masson shortly after arrival in Melbourne. (Sir) David Orme Masson was Professor of Chemistry at the University of Melbourne from 1886 to1923. As well as being a distinguished teacher and researcher, he contributed significantly to Australian scientific and public life, being instrumental in the establishment and governance of many important bodies including the CSIRO. Masson supported Antarctic research for 25 years, beginning with Douglas Mawson?s expedition of 1911. Born in England and receiving an MA, BSc and DSc from the University of Edinburgh, he was a gifted, elegant and disciplined lecturer and a researcher of substance. His research work included the theory of solutions, from which emerged the term ?critical solution temperature?; the periodic classification of the elements; and the velocity of migration of ions in solutions. Much of his research was done in collaboration with talented students such as David Rivett and his own son Irvine Masson. Masson was knighted in 1923. He is commemorated by the Masson Theatre and Masson Road at the University of Melbourne; a mountain range and island in Antarctica; a portrait painting by William McInnes in the foyer of the School of Chemistry; the Masson lectureship from the Australian National Research Council; and the Masson memorial scholarship from the Royal Australian Chemical Institute.Wooden containers (formers)

Cyril Percy Callister, a chemist by training, became a food technologist and the inventor of the well known spread 'Vegemite'. A Ballarat School of Mines (SMB) student around 1910, Callister then went to Melbourne University where he obtained his B.Sc. in 1914, M.Sc. in 1917 and D.Sc. in 1931. With Sir David Rivett in 1931 he secured the royal charter for the Royal Australian Chemical Institute, becoming president of the Society of Chemical Industry of Victoria in 1935-36. Vegemite, a yeast based spread, and perhaps one of most famous trademarks in Australia, was discovered around 1922 by Cyril Percy Callister. He was hired by the Fred Walker Company (a Melbourne based manufacturer later known as Kraft) as a laboratory assistant to develop a yeast extract spread. It took some years but by 1954 the special Vegemite song 'Happy Little Vegemites' demonstrated the popularity of the spread. Callister was also known for packing cheese in a can to preserve it and developing Kraft processed cheese. he son of a school teacher and postmaster he was born at Chute on 16 February 1893 and died on 5 October 1949. His brother Reginald Clive Callister (1889-1971) was also a student of SMB. (http://www.ballarat.edu.au/about-ub/history/art-and-historical-collection/ub-honour-roll/c/cyril-callister-1893-1949)Red and yellow soft covered book of 208 pages relating to Cyril Callister who invented Vegemite. On Frontispage signed "11th Oct 2012 James Callister"ballarat school of mines, callister, cyril callister, vegemite, william callister

Stirrer, used in Optical Glass work, Hartung & associates, 1941 Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).

Stages in development of optical glass. Very early experiments by E.J. Hartung. Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).Optical glass

Large horseshoe magnet, given to young E.J. Hartung. by an uncle. Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).Horseshoe Magnet �

Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).Set of analytic weights, used by E.J.H. in most of his work

Born in Ireland, John Drummond Kirkland trained as a chemical analyst through apprenticeship in a medical laboratory in Dublin, before migrating to Australia in 1852 and moving to Melbourne in 1855. While still an undergraduate medical student at the University of Melbourne, he was appointed lecturer in chemistry following the sudden death of John Macadam in 1865. Due to the enthusiastic support of his fellow students this temporary role became a permanent appointment the following year. Kirkland continued his studies, graduating in medicine in 1873 and surgery in 1880. His son, John Booth Kirkland, was appointed as his assistant in 1878, later leading to accusations of nepotism. In 1882 John Drummond Kirkland became the University?s first professor of chemistry and metallurgy, continuing until his death in 1885. Today?s researchers use a high performance computing facility named ?Kirkland? after the first Professor of Chemistry at the University of Melbourne. Chemistry was still controlled by the medical school during Kirkland?s career, but became part of the science degree from 1886, along with the appointment of David Orme Masson as professor. Kirkland struggled for University funding to buy new apparatus. To compensate, he bought much from his own personal funds, including analytical chemistry equipment. Chemistry was first taught at Melbourne in the medical school, located in the area now occupied by Physics and the Ian Potter Museum of Art. (Sir) David Orme Masson was Professor of Chemistry at the University of Melbourne from 1886 to1923. As well as being a distinguished teacher and researcher, he contributed significantly to Australian scientific and public life, being instrumental in the establishment and governance of many important bodies including the CSIRO. Masson supported Antarctic research for 25 years, beginning with Douglas Mawson?s expedition of 1911. Born in England and receiving an MA, BSc and DSc from the University of Edinburgh, he was a gifted, elegant and disciplined lecturer and a researcher of substance. His research work included the theory of solutions, from which emerged the term ?critical solution temperature?; the periodic classification of the elements; and the velocity of migration of ions in solutions. Much of his research was done in collaboration with talented students such as David Rivett and his own son Irvine Masson. Masson was knighted in 1923. He is commemorated by the Masson Theatre and Masson Road at the University of Melbourne; a mountain range and island in Antarctica; a portrait painting by William McInnes in the foyer of the School of Chemistry; the Masson lectureship from the Australian National Research Council; and the Masson memorial scholarship from the Royal Australian Chemical Institute.Stocks used in the Blackie - Masson - J.B.Kirkland work.

An original Kerr-Grant Microbalance, modified by E.J.Hartung This balance was invented in the chemistry department by Bertram Dillon Steele, later first Professor of Chemistry at the University of Queensland 1910-1930, in collaboration with Professor Kerr Grant, Physics. The design was widely used by other chemists, including Masson's mentor, Professor Ramsay, working in London on newly discovered rare gases (especially Radon), and Professor Hartung in Melbourne, investigating the chemistry of the decomposition of silver salts in photographic processes. The principle of the microbalance was to measure the change in density of a gas by the shift in the balancing beam due to a change in pressure of the gas in the balance case. The quartz balancing beam was made by Bertram Steele who was particularly skilled in glassblowing. A quartz beam is the beam of the Aston microbalance based on the Steele/Grant instrument, and described by F.W. Aston, the inventor of the mass spectrometer. The bulb at one end of the beam contained a fixed amount of air, so that a change in the pressure of gas in the balance case changed the buoyancy of the beam, yielding a displacement in the beam which could be measured. By this means, differences in weight of about 10 nanogram could be measured, in amounts of up to 0.1 gram. Such differences are significant the increase in weight of a metal sample due to surface oxidation (Steele's interest) in the weight loss due to radioactive decay of Radium (Ramsay's work), and in the estimates of density change due to the isotopic distribution of Neon (Aston). Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).An original Kerr-Grant Microbalance, modified by E.J. Hartung.

This photo is thought to have been taken at the time of Alfred Mica Smith's retirement from the Ballarat School of Mines. It is most probably also the unveiling of the Max Meldrum portrait of Smith. Alfred Mica Smith retired from the Ballarat School of Mines in 1922 after an association of 41 years and aged 78 years. At the August meeting of the Ballarat School of Mines Council in 1881 it was resolved that 'Alfred Mica Smith Esq., B.Sc., be appointed Professor in Chemistry and Metallurgy and be Superintendent of the Laboratories, for the period of twelve months at a stipend of five hundred pounds per annum, and to commence duty as soon as possible'. (signed: James Oddie, Vice-President) Smith played a major role in the years of 1887-1893 when SMB was affiliated with Melbourne University. In 1912 he became Professor of Metallurgy and received an annual salary of 250 pounds. Alfred Mica Smith presented many scholarly papers, gave evidence at government enquiries into the safety of mines and became an authority on mine safety and ventilation. He was on the Mines Ventilation Board. Professor Smith was the public analyst for the City of Ballarat and Town of Ballarat East, as well as to a number of other boroughs and shires. He was also Chief juror to the Adelaide International Exhibition, chemical section. He provided information to the Royal Commission on gold mining (1889, 1891), and was President to the chemistry section of Australian Association for the Advancement of Science, Associate of American and Australasian Institute of Mining Engineering, Member of the Science Faculty Melbourne University, and Hon. Life Member of the Miner Managers' Association of Australia. He also was involved in many educational and community affairs such as President of the SMB Students' Association, President of the Ballarat Science Society, first President of the Ballarat Camera Club, Vice President of the Field Naturalists' Club, and he presented Ballaarat Fine Art Gallery with his collection of paintings and porcelain ware. His legacies include the mutual regard between him and his students, the many tributes by former students, the Mica Smith scholarship (established in 1923) and now known as the Corbould-Mica Smith Travelling Scholarship, his portrait in oils by noted artist Max Meldrum, and the marble bust of Smith sculptured by Paul Montford. Money for a scholarship in sanitary science at the University of Manchester in the name of his uncle R. A. Smith was left being set up in 1928. Smith died of cancer on 14 May 1926 and his remains, cremated at Springvale, were interred in the Ballaarat New Cemetery. See http://guerin.ballarat.edu.au/curator/honour-roll/honourroll_Smith,%20Alfred%20Mica.shtml Black and white mounted photograph showing a number of men sitting around two dining tables at Craig's Royal Hotel in Ballarat. Professor Alfred Mica Smith of the Ballarat School of Mines is standing 15 from the left, and is the subject of the painting on an easel to the left. The painting was presented to the Ballarat Fine Art GalleryLower right of mount 'Victa Studios Ballarat' Verso (typed and glued on): Presentation to professor Mica Smith, Craig's Hotelballarat school of mines, craig's hotel, craig's royal hotel, alfred mica smith, art gallery of ballarat, ballarat fine art gallery, portrait, frederick martell, daniel walker

Henry Louis, M.A. was an Associate of the Royal School of miens, Fellow of the Geological Society; Fellow of the Institute of Chemistry of Great Britain; Member of the Institution of Mining Engineers; Member of the American Institute of Mining Engineers and Professor of Mining in the Durham College of Science. Green hardcovered book of 599 pages including index and illustrations. Contents include: Mode of occurance of gold; physical and chemical properties of gold; physical and chemical properties of mercury; Primitive Methods or ore-breaking; The stamp; Hoisting gear; Water Supply; Ore-Feeders; Crushing Machinery; amalgamation; concentration; Spitzkasten; Amalgam; Milling; Cam Curve; sampling and assaying; horse-power developed by fall of water; value of gold according to its fineness; conversionInside front cover in pencil "Rhys Brook"