Short piece noting that the designs on the 'tails' side of the new decimal currency were created by Australian industrial designer Stuart Devlin, but that Devlin was not credited in publications by the Decimal Currency Board.Typewritten (c copy), quarto, 2 pagesdecimal currency, coins, industrial design, stuart devlin, rmit, colin barrie, industrial design council of australia, robin boyd, manuscript

Robin Boyd was involved in creating several TV series for the ABC University of the Air. 'Design in Australia' was an eight part series. (Items D184-D193 contain all the manuscripts except part six titled 'Communications'.) In Part 3, seeing successful and original industrial designs from other countries, Boyd reflects on the standard and production capacity of the Australian manufacturing industry. He urges the industry to take up the responsibility of invention and to design in a stronger and more permanent Australian artistic style, in contrary to mere imitation and importation. (Same content as D192, differing side notes on left side of pages)This is a draft script for the ABC television program 'University of the Air', subtitled 'Design in Australia', broadcast in 1965.Typewritten (c copy), foolscap, 16 pages (compared to D192, 11 pages)university of the air, design in australia, robin boyd, industrial design, australian manufacture, colin barrie, the industrial design council of australia, manuscript

Robin Boyd was involved in creating several TV series for the ABC University of the Air. 'Design in Australia' was an eight part series. (Items D184-D193 contain all the manuscripts except part six titled 'Communications'.) In Part 3, seeing successful and original industrial designs from other countries, Boyd reflects on the standard and production capacity of the Australian manufacturing industry. He urges the industry to take up the responsibility of invention and to design in a stronger and more permanent Australian artistic style, in contrary to mere imitation and importation. (Same content as item D186, differing side notes on left side of pages)This is a script for the ABC television program 'University of the Air', subtitled 'Design in Australia', broadcast in 1965. Item D186 is the draft version.Typewritten, foolscap, 11 pages, (compared to D186, 16 pages)university of the air, design in australia, robin boyd, industrial design, australian manufacture, colin barrie, the industrial design council of australia, manuscript, ohm2022, ohm2022_30

In 1982 Mitchell Manufacturing received a design award for the Mitchell Coaster cycle from the Industrial Design Council of Australia.1 cream coloured page with blue background and cream upside down V on upper two thirds of page."Australian design award number #1514 awarded to Mitchell Manufacturing - a division of the Royal Blind Society for Mitchell Coaster bicycle designed by Peter Corbin Date 22/2/82, Signed (signature illegible) Chairman".royal blind society of nsw, mitchell manufacturing

Discusses the work, design techniques and career of first recipient of the Essington Lewis Award (for Industrial Design) - Frederick Ward. Ward's work introduced all the essential principles of the best Australian furniture: functional form; use of Australian materials; respect for the nature of all materials; suspicion of ornament and a sense of purposeful proportions.Review of Fred Ward’s Award by the Industrial Design Council.Typewritten (c copy), quarto, 2 pagesfrederick ward, industrial design, australian furniture, function, form, australian materials, essington lewis award, robin boyd, manuscript

This button/badge was made to support a nurses' pay claim that took place over the period of 1994-1995, at which time the Kennett Liberal state government was in power. In 1994, the ANF Federal Executive passed a resolution to seek national pay increases of 8%. At this time, nurses had not had a pay rise since 1991. The Union noted that over the same period Victorian politicians had received 12.9% in pay increases. Our thanks to the ANMF library for providing information about the origins of this object.Significant to the history of the ANMF and its industrial success. Round button - white background. Green and pink design.Protect National Rates. Nurses: Worth every cent of 8%.btlc, ballarat trades and labour council;, ballarat trades hall, anf, australian nursing federation, anmf, australian nursing and midwifery federation, nurses, health unions, pay rates, enterprise bargaining agreement, eba, pay claims

Black & White Photograph Alexandra Fountain, Bendigo Souvenir Tourism Set Rose Collection Series c1929. Alexandra Fountain is regarded as one of Bendigo, Victoria, Australia's most prominent landmarks and monuments. The fountain is located in Bendigo's "Charing Cross", the intersection of View Street and Pall Mall. Haring Cross effectively stands at the centre of the city and is one of Bendigo's busiest and most prominent intersections. The fountain stands opposite to the main entrance of Rosalind Park. Alexandra Fountain was funded from the proceeds of the Bendigo Juvenile Industrial Exhibition (1879), a £500 gift from George Lansell and a further £700 from the Sandhurst City Council (now the City of Greater Bendigo). The fountain was designed by W. C. Vahland,] a local architect responsible for some of the cities most prominent buildings.The fountain was named in honour of Alexandra, Princess of Wales and the grand opening (5 July 1881) was attended by her sons Prince Albert and Prince George.bendigo, tourism, alexandra fountain bendigo

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).

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.

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