Book produced by the Science Museum provides a brief history of the cable tram system, with photos. Includes details of the engine houses, the cable, the grip mechanism, the ticket bell punch, and why "Mind the Curve". Has a list of acknowledgments. Published shortly after or at the time of the launch of the tram in the enclosure in Russell St. The additional sheet with the book provides details for each route of route, the location of the city terminus, suburban terminus, running time, night light, route length, first and last car for each day of the week. Not known who compiled the sheet.Demonstrates the work of the Science Museum - now Scienceworks.Book - 16 pages + card cover +postcard of cable tram set No. 1 at the Science Museum 1975. Inside the book is a ruled sheet of paper with details of the cable tram routes, handmade with ink.tramways, cable trams, science museum, melbourne

.1 - Book - 4 pages, (brown paper) + card covers (brown printed matching brown on one side) - side stapled, titled "Cable Trams", published by the Science Museum of Victoria, Swanston St, at the time of the launch of the No. 1 cable tram set in the glazed display case 1/5/1975. Gives a description of cable tramways, a map, summary history, winding houses (power), the trams, cable, bell punches, grips, crews and "mind the curve". .2 - Program for the launch event and a list of speakers - Judge R. J. Leckie, F. R. Kirby, R. J Hamer and R. H. Fowler of the Museum. Also contains a pamphlet for the Science Museum of Victoria. Two copies held.trams, tramways, cable trams, science museum, displays

Ill, p.16.non-fictionAn introduction to the Melbourne cable tram systemtramways - melbourne, cable trams - melbourne

The series of photos show the transport of the cable tram set from the Science Museum to Preston Workshops where it was repainted before returning to the Museum. and displayed in a glass case in Russell St.Yields information about the movement of cable tram set from the Science Museum to Preston Workshops.Set of three photographs of cable tram set being moved from the Science Museum to Preston Workshops 1 - the grip car being lifted out of its shed at the Museum 2 - both vehicles loaded onto semi trailers - Lonsdale St at the corner with Russell St. 3 - the tram set in the lifting shop at Preston WorkshopsDetailed description on rear. K S Kings stamp with his photo numbers - 135-18, 20 and 27 tramways, cable trams, tram 1, science museum, preston workshops

Postcard - cable tram set No. 1, displayed in the glass case at Russell St at the then Science Museum of Victoria, c1980. Postcard by Leedon Printing, possibly for the Science Museum. Rear is a divided back with a caption, location of Leedon Printing, location for stamp and address and an image of the Science Museum and its address.trams, tramways, cable trams, science museum, mto co, displays, tram 1

Newspaper clipping, from The Sun 24/1/1974, titled "Its a long time between stops" about the proposed restoration of cable tram set No. 1 by the MMTB. Has a photo of the Director of the Science Museum Mr Richard Fowler in the grip car and the proposed work.trams, tramways, cable trams, science museum, restoration, tram 1

The Collection is held in the FedUni Science Museum (Mt Helen Y Building)Low resolution photographs of the historic Scott Egg Collection held by the Federation University Science Museum, along with a spreadsheet of holdings. Australia's native birds are protected. It is illegal to collect eggs or to interfere with birds' nests without a permit.birds, eggs, bird eggs, science, scott, charles a. scott

Photos show cable tram set No. 1 on display outside the Science Museum in Russell St Melbourne. The tram was on display from early 1974 until 1989 when it was moved to Box Hill for display. It is owned by Museums Victoria. Yields information about cable tram 1 and its display in Russell St.Colour prints - set of 2. trams, tramways, cable trams, science museum, tram 1, russell street

Newspaper clipping from The Age, Thursday January 24, 1974 titled "Clang clang goes the trolley right into a glass case", about the positioning of the Museum of Victoria (at the time the Science Museum) cable car - grip and trailer into a glass case on the corner of Russell and Little Lonsdale St. Has a photo of a Nicholson St cable car. Notes the MMTB repair work.trams, tramways, mmtb, cable trams, museums, exhibitions

MODEL MADE BY CARL NORDSTROM ON THE PORT PHILLIP MINE SITE IN 1858. NOW ON DISPLAY AT THE SCIENCE MUSEUM IN MELBOURNE *No longer on display, now archived. ON LOAN TO THE CLUNES COMMUNITY DURING THE 150TH GOLD CELEBRATIONS IN JULY, 2001, AND DISPLAYED IN THE ALL PURPOSE ROOM AT CLUNES PRIMARY SCHOOL.4 COLOURED PHOTOGRAPHS OF THE PORT PHILLIP MINE MODELlocal history, photography, photographs, mining

These are long obstetrical forceps following the design of Sir James Young Simpson (1811-1870). They are longer and heavier than Simpson's type of short forceps and were used to deliver babies from higher up the birth canal. Simpson's long and short forceps were adapted in many later designs. (Science Museum Group)Dr Mitchell Henry O'Sullivan worked in the Victorian country town of Casterton as a general practitioner from 1919 until his death in 1977. He also practiced obstetrics. His son, Dr David More O'Sullivan donated his obstetric bag and its contents to the College in 1999. The bag and contents are a unique time capsule of the type of instruments and pharmaceuticals used in the inter-war period.Metal forceps, consisting of two blades with detachable traction axis.obstetric delivery

The abbey was founded by the Countess of Salisbury in 1229 for Augustinian Canonesses. It prospered throughout the middle ages. It was bought by William Henry Fox Talbot (1800-77). He was part of a scientific and enlightened group of men, which led him to discover the process of photography. The first photograph is said to have been taken from the windows of Lacock Abbey.In August 1835 Talbot made the earliest known surviving photographic negative using a wooden camera.The rare small photogenic image of the latticed window in the south gallery of Lacock is now in the collection of the Science Museum at Bradford, UK.Colour photograph of Abbey, Lacock, United Kingdomlacock abbey, church

Two paintings in Darwin Science and Art Museum by Theo Hansen (1870 - 1945) of Blackburn Lake. Studied in Melbourne National Gallery School and Paris. Exhibited at Victorian Artists Society until 1906.Two paintings in Darwin Science and Art Museum by Theo Hansen (1870 - 1945) of Blackburn Lake. artists, hansen, theo brooke, victorian artists society, heidelberg school, colonial school, shimmin, bruce

(Source: The First One Hundred Years by R.S. Medew and I.M. Bowman - A History of The Medew Family in Victoria - page 11 extracts) - Charles Turner Medew (1829-1915 ) arrived in Victoria from England in 1857. He eventually settled in Ringwood as the original purchaser of Crown Allotment 32, Section C, where he built his own home in 1888 and became well known locally "for his fine building work and stone masonry." ... "In his retirement, Charles Medew experimented with model helicopters. About 1910, at the age of 80 years, he was able to raise these helicopters to such a point of efficiency that, just with an elastic wound propeller, when released they could fly upwards to the height of the large oak trees." ... "(Also) In 1910, Charles obtained plans and made a model of the Wright Brothers' biplane entirely of wood, with laminated wood propeller and driven by twisted elastic bands." This model remained in his workshop for many years after his death and with his family's permission was eventually placed in the Melbourne Science Museum.3 pencil drawings showing assembled parts and sectional views of a model helicopter.

Postcard - black and white reproduction of a wall poster used by the Box Hill - Doncaster Tramway, includes sketch of Doncaster Tower, one of the tram cars and timetable. See Reg Item 699 and 198. Printed for the State Library of Victoria, by John Sands - Number PC11. Divided back, caption, printing information and bar code where a stamp would go. Robert Green advised by email 20-1-2018: "The tram in Russell Street was unveiled by the Premier, R J Hamer, on 1 May 1975. The ceremony was attended by F R Kirby, the Chairman of the M&MTB, and the Chairman (Judge Leckie) and Director (R H Fowler) of the Science Museum of Victoria." The tram was removed from the glass case when further development to the buildings occurred and temporarily relocated to Box Hill for the centenary of the Doncaster Tramway. 2nd copy of postcard - on rear - Has 33 cent stamp, postmarked for the Centenary of Cable Car Services, 11/11/1985 with a grip included and stamped "100 years of Melbourne trams carried on Commemorative official trip from Flinders St, Melbourne to Richmond Town Hall, November 11, 1985" in blue ink in the top left hand corner.trams, tramways, box hill, posters, timetables, doncaster, postcards, cable trams

"Potential blockage in the Fallopian tubes was assessed using this apparatus. It was developed by American gynaecologist Isidor Clinton Rubin (1883-1958). It blows carbon dioxide, via a cannula, into the uterus. The ease with which gas escaped through the Fallopian tubes was reflected by pressure changes on an instrument called a manometer. Blockage of the tubes is often due to previous infection or surgery. It is a common cause of infertility. Rubin’s test formed a standard part of infertility investigations for many years. It was gradually replaced by an X-ray technique involving radio-opaque ‘dye’ injected into the uterus." Source: Science Museum Group. Rubin’s apparatus for uterotubal insufflation, New York, United States, 1928. A639503Science Museum Group Collection Online. Accessed 12 June 2024. https://collection.sciencemuseumgroup.org.uk/objects/co96774/rubins-apparatus-for-uterotubal-insufflation-new-york-united-states-1928-tubal-insufflator. There is no manometer to monitor gas pressure on this model so it is either incomplete or a manometer was not available in this possibly early model. This device may be dated c1919, 1920s, or 1930s. 1919 was the year Isidor Clinton Rubin (1883-1958) introduced this apparatus. Rubin's tubal insufflator apparatus. Consists of a large cylindrical glass canister, with three glass nozzles at top with long rubber tubing attached to each. The device is inside a portable plywood box with two door. One surgical steel introducer, and one glass introducer, are also attached to the device.

"Potential blockage in the Fallopian tubes was assessed using this apparatus. It was developed by American gynaecologist Isidor Clinton Rubin (1883-1958). It blows carbon dioxide, via a cannula, into the uterus. The ease with which gas escaped through the Fallopian tubes was reflected by pressure changes on an instrument called a manometer. Blockage of the tubes is often due to previous infection or surgery. It is a common cause of infertility. Rubin’s test formed a standard part of infertility investigations for many years. It was gradually replaced by an X-ray technique involving radio-opaque ‘dye’ injected into the uterus." Source: Science Museum Group. Rubin’s apparatus for uterotubal insufflation, New York, United States, 1928. A639503Science Museum Group Collection Online. Accessed 12 June 2024. https://collection.sciencemuseumgroup.org.uk/objects/co96774/rubins-apparatus-for-uterotubal-insufflation-new-york-united-states-1928-tubal-insufflator. Model may be dated c1919 or 1920s or 1930s. 1919 was the year Isidor Clinton Rubin (1883-1958) introduced the apparatus. Instrumant has a label with Cyrus Jones monogram " Donated by Dr Lorna Lloyd Green, 1986/ Rubin's Insufflator/ NB "sparklet holder separate" missing?Rubin's tubal insufflator apparatus, large cylidrical glass canister inside a portable carry box with two doors with three glass nozzels at top with long rubber tubing attached on each. One surigical steel introducer, one glass introducer attached. A blood pressure manometer is fixed on the inside door. infertility

The Bedpan Toilet device is a special tool designed for people who are unable to get out of bed to use the bathroom. It helps them go to the toilet comfortably and conveniently without having to leave their bed. The device is placed under the person's bottom, and it has a container that collects urine or stool. It is easy to clean and can be emptied into a toilet or sink. The Bedpan Toilet device allows individuals who are confined to bed due to illness or injury to maintain their dignity and independence by providing them with a practical solution for using the bathroom while staying in bed. The word bedpan was first seen in the literature of John Higgins in 1572, and one of the oldest known bedpans is on display in the Science Museum of London. It is a green, glazed earthenware bedpan that has been dated to the 16th or 17th century. At that time, bedpans were made from materials including pewter, brass, pottery, glass, and porcelain. Bedpans were not a commonplace item in hospitals until the late 1800s. Florence Nightingale, who worked as a nurse in the United Kingdom from the mid to late 1800s, recorded death rates and causes for soldiers in military hospitals during the Crimean War and then correlated them to corresponding sanitisation procedures. As a result, Nightingale proposed several methods to improve the sanitary conditions in both military and civilian hospitals, including the addition of bedpans in order to reduce infection exposure from urine or faeces. https://www.wikiwand.com/en/Bedpan The use of bedpans is significant, as it allows a patient who cannot move much, to remain in bed and perform toilet functions.Bed pan ceramic white glaze with handle. Labelled "The New Slipper Bed Pan". Has specific instructions for use under the maker's label.‘THE NEW SLIPPER BED PAN. This slipper should be passed under the patient in front between the legs. If a flannel cap is made for the blade fastened by strings under the handle considerable comfort will be afforded.’ flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, nursing, bedpans, hygiene

The Ferranti Sirius is an electronic second-generation transistor computer and is one of three remaining examples of this machine left in the world. It was an important addition to the computing facilities at Monash University in the early 1960s and provided access for computer programming and research for many early computer professionals, academics and teachers. The Ferranti Sirius computer was built in a period of rapid growth in computing technology. The first stored program computers appeared in the late 1940s and used individual designs with valve technology. By the mid-1950s valve technology was replaced by transistors and the first mass produced commercial computers became available. The Ferranti Sirius was announced in 1959 and offered a “small” academic computer. It was designed and built by the English company Ferranti Ltd and sold through a local office of the company in Melbourne. The Sirius was manufactured at the Ferranti Ltd.’s West Gorton, England factory from 1959 to 1963 and, in all, the company produced probably 22 installations although only 16 were actually recorded as sold; this included one at Ferranti’s Bureau in London and one at Ferranti’s Melbourne Bureau. Only 7 were exported and 4 of these 7 were located in Melbourne, Australia. All four were associated with computing at Monash University – the Sirius in the MMoCH collection was purchased by Monash University in 1962, a smaller Ferranti Sirius was used on the Caulfield campus (prior to amalgamation with Monash University) from 1963, the Ferranti company had its own Ferranti Sirius initially temporarily installed at Clayton campus in 1962 and then placed in their office in Queens Road, Melbourne. A fourth computer was purchased by ICIANZ (now Orica) in 1962 and was transferred to Clayton campus in 1967. Only two of these Melbourne examples have survived; one in the MMoCH collection and one at Museums Victoria. There is an example of the Ferranti Sirius in the Science Museum Group collection in the UK as well. The Ferranti Sirius in the MMoCH collection was the first computer purchased by Monash University and it was shipped to Australia to be installed by November 1962. The University had a similar model computer on loan from Ferranti Ltd during the first part of the year and it was returned to the office of the company in Queens Road, Melbourne once the University’s own machine was installed. The computer was placed on site at Clayton campus, Monash University. The computer operated from 1962 until 1972 when it was officially decommissioned. The Ferranti Sirius was sold to Mr Paul Stewart in late 1974 and removed from Monash University. Mr Stewart later donated the computer back to the University in 1988 and it was transferred to the collection of the Monash Museum of Computing History after 2001. The Ferranti Sirius is an electronic second-generation transistor computer and is one of three remaining examples of this machine left in the world. It was an important addition to the computing facilities at Monash University in the early 1960s and provided access for computer programming and research for many early computer professionals, academics and teachers. The Ferranti Sirius is of scientific (technological) significance as one of the early transistor digital computers that transitioned computing from first-generation valve computers to second generation commercial installations. This example of the Sirius is of historical significance in its role as a part of the Computer Centre, Clayton campus, Monash University which provided computing facilities in Melbourne in the early 1960s when there were few installations available for academic, administrative and commercial users. Staff and students were able to undertake investigative research and learn programming techniques. The Computer Centre encouraged the use of the computer across all disciplines and this provided the base to establish computer science as a subject offering and, later, a new department in the University. This growth in computer education eventually culminated in the establishment of the Faculty of Information Technology, Monash University. The Ferranti Sirius in the collection at Monash Museum of Computing History has a main unit with a CPU and memory combined with input/output equipment and one extra cabinet of memory. The Central Processing Unit is a floor-standing unit which contains the computer circuits, power supplies and has a decimal digit display panel and a normal clock. A moveable control panel is placed in front of the Unit (Currently set on a recreated desk/filing cabinet support in the display). The Sirius base unit uses acoustic delay line memory with 1000 word store. An additional 3000 word memory cabinet is set adjacent to the CPU and can be connected to increase the memory. The computer is supported by a range of input/output devices. There is a Ferranti Paper tape reader, located on desk in front of CPU. Red label on front “Ferranti tape reader. Type TR 5. Serial No. 477”. Adjacent to the CPU is a set of Simplified tape editing equipment in three pieces which includes a (1) Table unit with switches on front face. Metal tag on reverse reads “Creed & Co. Model No. S4060. Serial No. 1457. Original Customers Marking GRP7 V706”. The table has a numbered internal tag “Table Serial No. 198579. (2)Creed teletype set on table unit. Metal tag on reverse “Creed & Co. Model No. 75RPR K4M4. Serial No. 5897 Made in England”. (3)Creed paper tape reader set on table unit. This set of equipment could read paper tape and print it, or copy paper tape while allowing it to be edited, or allow a programmer or data preparation person to type and punch a new program or data. It has no electrical connection to the computer. Paper tapes were usually torn off and carried across to the computer. There is also another table unit with switches on front face and changeable setting switch on front right side which holds a Ferranti Westrex paper tape punch set. Label on reverse “Teletype Code BRPE11” This was the Computer’s only output device. BRPE-11 is a teletype model number.

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

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 Gestetner Cyclostyle duplicating machine was invented and manufactured by David Gestetner. He claimed in 1922, once he had released several models, that if a Gestetner Durotype stencil was used together with his Cyclostyle machine, then 10,000 copies could be made from the one Durotype stencil, an amazing claim for office technology of that era. David Gestetner (1854-1939), was born in Csoma, Hungary. He has been called the “founder of the worldwide office copying and duplicator industry.). He moved to London and in 1879 filed his first copying patent. In 1881 he patented the Cyclostyle stylus (or pen), which was used in conjunction with his Cyclograph device for copying text and images, He established the Gestetner Cyclograph Company in England at this time (1881) to protect his inventions and to produce his products; stencils, stylos (stylus or pen) and ink rollers. HIs inventions included nail-clipper and the ball-point pen (although the latter is more commonly associated with Laszlo Biro). Gestetner’s patented Cyclograph duplicator was used with his Cyclostyle Stylus or pen to write or draw on special thin wax-coated stencil paper (originally used for kite making paper) in the following way; 1. The Cyclostyle stencil was placed on a lower, framed metal plate of the Cyclograph 2. An upper frame was clipped over the top 3. The Cyclostyle pen, with its tip being a small metal-spiked or toothed wheel, was used to write or draw on the stencil, punched small holes into the paper and removed the wax coating in those places 4. The upper frame and stencil was then removed and a piece of blank paper was placed onto the metal plate in the lower frame and the upper frame with stencil was replaced 5. A roller was given an even distribution of Cyclostyle ink and rolled by hand over the stencil in the frame. This forced the ink through the holes in the stencil to and made a copy of the stencil on the paper 6. The upper frame was raised, the printed paper removed and another blank sheet was put into place. The whole process was repeated until enough copies were made. Gestetner’s invention developed further in 1894, with a stencil that could be placed on a screen on a revolving drum. The drum was manually rotated, the stencil then wrapped around another drum and was fed between cloth-covered rollers on which ink was evenly spread. Each revolution of the drum forced ink through the holes in the stencil and transferred the ink onto paper that had been fed between rollers and pressed against the drum. The process was repeated for each page. The paper was still fed and removed manually in this earlier invention but became more automatic in later models. In 1902 Gestetner duplicator model 6 was put onto the market. This model included the improvement of an automatic paper feed that synchronised with the rotation of the stencil. The Gestetner machine was the first office printing machine. It was easily installed and it made exact copies of the sane document quickly, effectively and inexpensively. This changed the way offices operated, making information easily available to many more users. The machines were commonly used in small businesses, schools, churches, clubs and other organisations for the wide distribution of a wide variety of information in the form of worksheets, newsletters and more. In 1906 the Gestetner Works were opened in Tottenham Hale, North London, and thousands of people were employed there up until the 1970’s. Due to the fast growing success of the Gestetner Duplicator machines many international branches for sales and service centres were established. David Gestetner was succeeded by his son Sigmund, followed by his grandson’s David and Jonathan. Further advancement was made by using a manual typewriter with specifically designed stencils. The end product was a printed, typewritten copy similar to the print from newspapers and booklets. In the next few years there were further developments of this revolutionary invention. The Gestetner Cyclostyle duplicator in our Collection is dated c.1922 - 1929 and it uses Gestetner Durotype stencils The 1922 British Industries Fair’s catalogue contained advertising for the Gestetner Rotary Cyclostyle “The World’s Premier Duplicator”, demonstrated at Stand K 86.” A Notice at the foot of the advertisement’s page boasts "Important - D Gestetner's latest invention, the "Durotype" Stencil, enables you to obtain 10,000 copies from one original if desired. It contains no wax of any description, is indestructible, can be stored indefinitely and printed from as required” In 1929 the look of the Gestetner machines changed; American designer Raymond Loewy was invited by Gestetner to improve the look of his duplicators, resulting in a very streamlined appearance. Eventually, around 1960’s, offices replaced their Gestetner with small photocopying machines and printers. Gestetner took over ownership of other office machine companies over time, including Nashua, Rex Rotary, Hanimex and Savin and eventually all came under the holding company name of NRG (Nashuatech, Rex Rotary and Gestetner). In 1996 Ricoh acquired the Gestetner Company, and it was renamed the NRG Group. REFERENCES Cyclostyle, Stencil Duplicating Machines, antique Copying Machines, Early Office Museum, http://www.officemuseum.com/copy_machines.htm Duplicating machines, Wikipedia Duplicator, Collection online, Canada Science and Technology Museums Corporation http://techno-science.ca/en/collection-research/collection-item.php?id=1989.0229.001 Gestetner duplicators, Totterham-Summerhillroad.com http://tottenham-summerhillroad.com/gestetner_duplicators_tottenham.htm Gestetner Duplicator, V&A Museum http://collections.vam.ac.uk/item/O322014/gestetner-duplicator-duplicator-loewy-raymond-fernand/ Gestetner, Grace’s Guide to British Industrial History, http://www.gracesguide.co.uk/Gestetner Duplicating machines such as this one revolutionalised access to copies of printed material, changing the way that educational bodies, offices, small businesses and community clubs and charities operated.Duplicating machine, Gestetner Cyclostyle Durotype, a stencil-method duplicating machine with two rotating drums plus rollers. Hand operated, tabletop office machine. Front has folding Bakelite handle, oil filling hole, calibrating gauge with scale, and copy counting meter. Right side has printed manufacturer’s plate that slides out as a paper output tray. Left side has metal plate with protrusions and perforations, plus another similar plate that is detached. It also has a metal frame attached [that would have been used to hold a paper input board, adjusted for various sizes of paper]. Cover, metal, with folding wooden handle on top, attaches to base with metal clips. Inscriptions printed on machine, mostly in gold-coloured paint. Round metal manufacturing plate is stamped with Serial Number 95759. Made by D. Gestetner, London, c.1922-1929Maker’s plate “MANUFACTURED / BY / D. GESTETNER LTD, / No. 95759 / CYCLOSTYLE WORKS / TOTTENHAM HALE / LONDON, N” Copy counting meter shows “1 4 6 4 8 [space]“ copies. Calibrating gauge has divisions with numbers “0 1 2“, labelled “← [left arrow] “TO PRINT LOWER” and “→ [right arrow], TO PRINT HIGHER”. “The Gestetner”, “Cyclostyle”, “Gestetner” (Trade Mark), Right side print of manufacturing details includes “The / Gestetner / TRADE MARK” And “THE FOLLOWING TRAFE MARKS / - - - OF INK, STENCILS / - - - AND GUARANTEE OF PERFECT / - - - BOTH - - - AND MACHINE” and “CYCLOSTYLE / DUROTYPE / GESTETNER” and “D. 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