The VN Commodore was available in Executive, S, SS, Berlina and Calais specification levels, although a more basic SL model (opt. code A9K) was supposedly offered to government and fleet buyers, as it was not officially listed as part of the Commodore range. Changes in the relative values of the Australian dollar, the Japanese yen, and the US dollar made it impractical to continue with the well-regarded Nissan engine of the VL. Instead, Holden manufactured their own 90-degree V6 based on an old Buick design from the US, although initially it was imported. The 5.0-litre V8 remained optional and received a power boost to 165 kW (221 hp). Both these engines used multi point GM EFI and the V6 using 3 coil-packs for ignition. Holden and HSV developed this car as the basis for racing in Group A Confederation of Australian Motor Sport events. While the minimum number of cars built to qualify in Australian Touring car Championships, with modified body kit, brakes or engine is 500, only 302 VN were built but CAMS granted an exemption allowing them to compete.Holden and HSV had worked hard to develop this car to be a serious competitor to the Skyline, Ford Sierra and the BMW which had dominated in the previous years. This was to be the Holden’s answer and coincided with the return of Peter Brock back to the Holden team from 1987.Mechanically the cars were fitted with reworked version of Holden’s 4.9 litre V8. The engine block was cast for additional strength, modified cylinder heads roller rockers and high fuel flow fuel injection was applied. Output was 215 kw at 5200revs and, though at today’s standard, that is not that much it was very impressive at that time. The drive was through a six speed ZF gearbox with a heavy duty racing clutch and a limited slip differential.Under the Hawke government's Button car plan, which saw a reduction in the number of models manufactured locally, and the introduction of model sharing, the VN Commodore was rebadged as the Toyota Lexcen, named after the late America's Cup yacht designer, Ben Lexcen. Subsequently, the Toyota Corolla and Camry were, similarly, badged as the Holden Nova and Holden Apollo.Red executive 4 door sedanHolden Lion and stone emblem grille centre, Commodore boot LHS, Lion and stone emblem boot RHS.vehicle, vn commodore, holden, car

Burnt Gully - possibly near Woodvale. a. Black and white photo: men standing behind, alongside bagged grain. Steam farm engine on RH side. Written on rear of photo: threshing team at lunch engine Ruston Procter steam. 8 horse power, single cylinder, working pressure 75 lbs per square inch. 80 revs per minte. Fly wheel 6 feet in diameter. b. Pilcher's thresher on Robert Riley's farm, Burnt Gully. Bullock drivers Bill Pilcher, Paddy Mulcair. Bullock drawn threshing machine, large group of men standing alongside and to rear of machine. Two men standing on top of thresher. Steam traction engine on far left of photo. c. Pioneer log cabin Burnt Gully, the home of the Grafton family, demolished about 1930. Hut of slab construction, with corruated iron roof over timber slats. Chimney of logs and slabs topped with bricks on LH side of house. Steam farm machine in background on LH side.unknownagriculture, farm, grafton familyh, robert riley, bill pilcher, paddy mulcair, burnt gully.

These items contained products for cooking use in the family kitchen in the 1930's - 1960. Five vintage tins and one bottle of kitchen products used in the home 1930's - 1960. 1. A small unopened Nestle' Nesco REGD. Dried Ice Cream Mix tin with powder inside. It has a yellow label with red, white and black lettering of the brand and details of product. Net weight 4oz. 2. A small McKenzie's Excelsior Baking Powder tin with a white, and gold printed paper label explaining manfacturer details and instructions for use. 4 ozs. Net. 3. Two large lidded The Colonial Sugar Refining Co. Ltd. treacle tins with red, green and silver lettering. manufacturer details are printed on the front. 2lbs nett. 4. A small tin lidded cylinder of Herb-Ox Bouillon Cubes artificially flavoured. The manufacturer details and directions for use are printed in yellow and red. Net weight 3/4 oz. 5. A small clear glass bottle with a tin screw top lid of Rawleigh's Essence of Peppermint printed on the white and brown paper label. 2 fluid oz.1. 'Nesco Dried Ice Cream Mix Nestle' Vanilla Flavour. 16.11.63' 2. 'McKenzie's Excelsior Baking Powder' 3. 'The Colonial Sugar Refining Co. Ltd.Treacle' is printed in large red print. 4. 'Herb-Ox' printed in red lettering. 5. 'Rawleigh's Essence of Peppermint A delicious Flavour'.tins, bottles, kitchen equipment, kitchen ingredients

The Fred Rochow Railways Collection incorporates photos related to the operation of the Wodonga Railway Station including different types of trains and railways staff C. 1930 – 1990. It was donated to the Wodonga Historical Society by Fred Rochow, a railwayman who spent many years based in Wodonga. He joined the Victorian Railways on 17th June l947 and retired in 1988. For some time, he was a member of the Australian Federated Union of Locomotive Enginemen and served a term as a member of the Trades Hall Council. He had an extensive knowledge of the struggles that took place to achieve better conditions for railway workers. Fred worked for many years as a fireman and then worked his way up the ranks to driver, experiencing many changes from the days of steam locomotives through to diesel trains, locomotives and even the modern XPT train. He worked throughout Victoria at different stages of his career, with his final working years focused on the northeast of Victoria and the Albury to Melbourne line. After his retirement, Fred continued to share his love of steam miniature trains with the community.This collection has local and statewide significance as it captures images of trains, locomotives and personnel who operated the railway services in Wodonga and throughout Northeast Victoria. The railways played a critical role in opening up Victoria and connecting Australia for trade, business, social communication and transport.Left to right: Jack Hinchcliffe, George Lynch, Bill Orchard, Hec Lloyd, ; BILL ROWE; Bill Rowe, Bill McLaren, Jack Dore, Jack Bowden, George Judge, Harry Alderson, Charlie Edmondson, Fireman Cyril Hughes. Cyril Hughes was born on 30 January 1903, started cleaning on 17 December 1924 and passed his Driving Qualifications on 27 June1941. "Sir Thomas Mitchell" Considered by many to be Victorian Railways' greatest passenger locomotives, the 4 S class steam locomotives were the first 3 cylinder steam locomotives. This small class was built to run the Melbourne to Albury passenger trains and spent their entire careers on the North East line. They were built unstreamlined and ran in this condition until 1937. The streamlining modifications complimented the all new "Spirit Of Progress" carriages. The S class ran the "Spirit" until 1952 at which time the newly delivered B class diesels took over. Locomotive S301 - the "Sir Thomas Mitchell" was withdrawn in October 1953, having covered 1,414,367 miles. On the locomotive in the background "SIR THOMAS MITCHELL"railways wodonga, fred rochow, wodonga railwaymen, steam locomotive s301, locomotive "sir thomas mitchell"

The origin of the fusee is not known. Many sources credit clockmaker Jacob Zech of Prague with inventing it around 1525. The earliest dated fusee clock was made by Zech in 1525, but the fusee appeared earlier, with the first spring-driven clocks in the 15th century. The idea probably did not originate with clockmakers, since the earliest known example is in a crossbow windlass shown in a 1405 military manuscript. Drawings from the 15th century by Filippo Brunelleschi and Leonardo da Vinci also show fusee mechanisms. The earliest existing clock with a fusee, also the earliest spring-powered clock, is the Burgunderuhr (Burgundy clock), a chamber clock whose iconography suggests that it was made for Phillipe the Good, Duke of Burgundy about 1430. Springs were first employed to power clocks in the 15th century, to make them smaller and portable.[1][5] These early spring-driven clocks were much less accurate than weight-driven clocks. Unlike a weight on a cord, which exerts a constant force to turn the clock's wheels, the force a spring exerts diminishes as the spring unwinds. The primitive verge and foliot timekeeping mechanism, used in all early clocks, was sensitive to changes in drive force. So early spring-driven clocks slowed down over their running period as the mainspring unwound. This problem is called lack of isochronism. Two solutions to this problem appeared with the first spring-driven clocks; the stack freed and the fusee. The stack freed, a crude cam compensator, added a lot of friction and was abandoned after less than a century. The fusee was a much more lasting idea. As the movement ran, the tapering shape of the fusee pulley continuously changed the mechanical advantage of the pull from the mainspring, compensating for the diminishing spring force. Clockmakers empirically discovered the correct shape for the fusee, which is not a simple cone but a hyperboloid. The first fusees were long and slender, but later ones have a squatter compact shape. Fusees became the standard method of getting constant force from a mainspring, used in most spring-wound clocks, and watches when they appeared in the 17th century. Around 1726 John Harrison added the maintaining power spring to the fusee to keep marine chronometers running during winding, and this was generally adopted. The fusee was a good mainspring compensator, but it was also expensive, difficult to adjust, and had other disadvantages: It was bulky and tall and made pocket watches unfashionably thick. If the mainspring broke and had to be replaced, a frequent occurrence with early mainsprings, the fusee had to be readjusted to the new spring. If the fusee chain broke, the force of the mainspring sent the end whipping about the inside of the clock, causing damage. The invention of the pendulum and the balance spring in the mid-17th century made clocks and watches much more isochronous, by making the timekeeping element a harmonic oscillator, with a natural "beat" resistant to change. The pendulum clock with an anchor escapement, invented in 1670, was sufficiently independent of drive force so that only a few had fusees. In pocketwatches, the verge escapement, which required a fusee, was gradually replaced by escapements which were less sensitive to changes in mainspring force: the cylinder and later the lever escapement. In 1760, Jean-Antoine Lépine dispensed with the fusee, inventing a going barrel to power the watch gear train directly. This contained a very long mainspring, of which only a few turns were used to power the watch. Accordingly, only a part of the mainspring's 'torque curve' was used, where the torque was approximately constant. In the 1780s, pursuing thinner watches, French watchmakers adopted the going barrel with the cylinder escapement. By 1850, the Swiss and American watchmaking industries employed the going barrel exclusively, aided by new methods of adjusting the balance spring so that it was isochronous. England continued to make the bulkier full plate fusee watches until about 1900. They were inexpensive models sold to the lower classes and were derisively called "turnips". After this, the only remaining use for the fusee was in marine chronometers, where the highest precision was needed, and bulk was less of a disadvantage until they became obsolete in the 1970s. Item is an example of clock mechanisms used until 1910 for many different styles of clocks and went out of fashion in the 1970s due to improvements in clock and watch making.Brass fusse clock movement, It has very heavy brass plates and wheels, high-count machined pinions, and a fusee. The mounting of the pendulum is missing and It has a recoil escapement. A fusee is a conical pulley driven through a chain by the spring barrel. As the spring runs down, the chain acts at a larger and larger radius on the conical pulley, equalising the driving torque. This keeps the rate of the clock more even over the whole run. It has motion work to drive an hour hand as well as a minute hand and the centre arbor is extended behind the back plate to drive some other mechanism.Inscription scratched on back"AM 40" flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock mechanism, fusee mechanism, horology

0-6-2 Tank Locomotive No.1 "Delta" Gauge 2'0" Identification: 1 Delta Type: 0-6-2T Builder: Perry Engineering, Mile End, South Australia Builder's number: Perry 7967.50.4 of 1950 Building date: 1950 Current status - Static Exhibit Wheel Arrangement 0-6-2T Cylinders (Diameter X Stroke) 10 inches X 18 inches Boiler Pressure 180 psi Driving Wheel (Dia.) 28 ½ inches Weight 16 tons Coal Capacity 27 cubic feet Water Capacity 500 gallons The Perry Engineering Co, Mile End, South Australia built a total of 18 locomotives for the 2’0” gauge tramways used by the sugar industry in Queensland. This 0-6-2T locomotive was built by Perry Engineering Co. Ltd. of Mile End, Adelaide as their Builder's No. 7967.50.4 of 1950. It was used at Qanaba Mill, Bundaberg where it was known as No.1 "Delta". / Qanaba Mill No.1 No. 1 “DELTA” 0-6-2 TANK LOCOMOTIVE Gauge: 2 foot Built by Perry Engineering Company of South Australia in 1950 (Builder’s number 7967.50.4), “DELTA” is a medium sized Australian designed locomotive featuring Walschaert’s valve gear driving piston valves. Weighing 16 tons (16.3 tonnes) it was one of the post-war narrow gauge steam locomotives, which worked in the canefields of Queensland until 1978. “DELTA” worked at various sugar mills in the Bundaberg area and was finally withdrawn from service at Quanba Mill after a life of 28 years. Obtained by the Puffing Billy Preservation Society in 1981. Delivered to Australian Estates Co., Kalamia Mill named DELTA in 1950. Purchased by Fairymead Mill as No 20 DELTA. Purchased by Millaquin Sugar for Qanaba Mill as No. 1 DELTA, 1970 Withdrawn from service, 1978. Obtained by Puffing Billy Preservation Society for display at the Puffing Billy Museum.Historic - Industrial Narrow Gauge Railway - Steam Locomotive used in Queensland in Sugar Mill service. Locomotive No.1 "Delta" - Steam Locomotive - made of steel, and wrought ironDelta0-6-2 tank locomotive no.1 "delta" perry engineering - puffing billy railway perry 7967.50.4 of 1950, puffing billy, qunaba sugar mill, bundaberg, perry engineering, delta, steam locomotive, 0-6-2 tank locomotive no.1

Robin WELCH ( 23 July 1936-5 December 2019) Born Nuneaton, Warwickshire, England Robin Welch is one of the most highly respected contemporary British potters. The full range of his work includes large vessels with related paintings, fine drawings, and distinctive bowls and vases which explore colour, surface texture, form, detail of edge, and line. He is one of small group of significant British potters who expanded the language of throwing pots on the wheel through post-wheel additions and alteration. This gave his generally cylindrical forms a more organic and sculptural aspect, but their heavily coloured and textured surfaces were as much about painting, too, as Robin sought an integration of the visual disciplines he enjoyed. As he once wrote: “There’s no divide between art or craft. You decide to be an artist and you’ll use anything. If marooned on a desert island you’d use driftwood.” (https://www.theguardian.com/artanddesign/2019/dec/27/robin-welch-obituary, accessed 23 March 2021) Initially studying at Penzance School of Art under Michael Leach (son of Bernard Leach) and the Central School of Art, London Robin Welch then worked part-time at the Leach Pottery between 1953 and 1959 before opening his own pottery in London's west end (1960 to 1962). After a couple of years of world travel, including working in Australia from 1962 to1965 helping Ian Sprague set up his Mungeribar Pottery and exhibiting in Melbourne, Robin Welch returned to England setting up Stadbroke Pottery in Eye, Suffolk in 1965. Apart from his studion work Robnin Welch was a skilled designer for industry including Wedgwood. When not in his Suffolk studio Robin Welch spent much time in Australia where he appreciated the outback’s arid earth, brilliant light, grittier textures and luminous colour. When not in his Suffolk studio Robin Welch spent much time in Australia where he appreciated the outback’s arid earth and brilliant light, its grittier textures and luminous colour, qualities he sought to convey in-the-round and on canvas. Apart from his studion work Robnin Welch was a skilled designer for industry including Wedgwood, Midwinter and Denby.Stoneware bowl with flange. Glazed in white matt crackle with a faint copper red tint. Dry black glazed rim. Gift of the artist.Robin Welch stamped on baseceramics, robin welch, gippsland, gppsland campus, jan feder memorial ceramics collection

Robin WELCH ( 23 July 1936-5 December 2019) Born Nuneaton, Warwickshire, England Robin Welch is one of the most highly respected contemporary British potters. The full range of his work includes large vessels with related paintings, fine drawings, and distinctive bowls and vases which explore colour, surface texture, form, detail of edge, and line. He is one of small group of significant British potters who expanded the language of throwing pots on the wheel through post-wheel additions and alteration. This gave his generally cylindrical forms a more organic and sculptural aspect, but their heavily coloured and textured surfaces were as much about painting, too, as Robin sought an integration of the visual disciplines he enjoyed. As he once wrote: “There’s no divide between art or craft. You decide to be an artist and you’ll use anything. If marooned on a desert island you’d use driftwood.” (https://www.theguardian.com/artanddesign/2019/dec/27/robin-welch-obituary, accessed 23 March 2021) Initially studying at Penzance School of Art under Michael Leach (son of Bernard Leach) and the Central School of Art, London Robin Welch then worked part-time at the Leach Pottery between 1953 and 1959 before opening his own pottery in London's west end (1960 to 1962). After a couple of years of world travel, including working in Australia from 1962 to1965 helping Ian Sprague set up his Mungeribar Pottery and exhibiting in Melbourne, Robin Welch returned to England setting up Stadbroke Pottery in Eye, Suffolk in 1965. Apart from his studion work Robnin Welch was a skilled designer for industry including Wedgwood. When not in his Suffolk studio Robin Welch spent much time in Australia where he appreciated the outback’s arid earth, brilliant light, grittier textures and luminous colour. Stoneware bowl on a tall foot. Calcium matt glaze, underglaze colour with underglaze metallic lustre. ceramic, jan feder memorial ceramics collection, robin welch, gippsland campus, mungeribar pottery, stadbroke pottery

Robin WELCH ( 23 July 1936-5 December 2019) Born Nuneaton, Warwickshire, England Robin Welch is one of the most highly respected contemporary British potters. The full range of his work includes large vessels with related paintings, fine drawings, and distinctive bowls and vases which explore colour, surface texture, form, detail of edge, and line. He is one of small group of significant British potters who expanded the language of throwing pots on the wheel through post-wheel additions and alteration. This gave his generally cylindrical forms a more organic and sculptural aspect, but their heavily coloured and textured surfaces were as much about painting, too, as Robin sought an integration of the visual disciplines he enjoyed. As he once wrote: “There’s no divide between art or craft. You decide to be an artist and you’ll use anything. If marooned on a desert island you’d use driftwood.” (https://www.theguardian.com/artanddesign/2019/dec/27/robin-welch-obituary, accessed 23 March 2021) When not in his Suffolk studio Robin Welch spent much time in Australia where he appreciated the outback’s arid earth and brilliant light, its grittier textures and luminous colour, qualities he sought to convey in-the-round and on canvas. Apart from his studion work Robnin Welch was a skilled designer for industry including Wedgwood, Midwinter and Denby. Initially studying at Penzance School of Art under Michael Leach (son of Bernard Leach) and the Central School of Art, London Robin Welch then worked part-time at the Leach Pottery between 1953 and 1959 before opening his own pottery in London's west end (1960 to 1962). After a couple of years of world travel, including working in Australia from 1962 to1965 helping Ian Sprague set up his Mungeribar Pottery and exhibiting in Melbourne, Robin Welch returned to England setting up Stadbroke Pottery in Eye, Suffolk in 1965.Stoneware bowl with split flange, glazed with matt white, black and a touch of copper red Tobin Welch stamped on basejan feder memorial ceramics collection, ceramics, robin welch, gippsland campus, jan feder

This Remington No.12 typewriter is of the typebar, front-strike class. It was made by the Remington Typewriter Company of Ilion, New York, U.S.A. in about 1925. The Model No. 12 was introduced in 1922 and was one of the first 'visible writer' machines, in which the typed characters were visible to the operator. Previous models were of the upstrike class in which the characters were typed on the underside of the platen. To see what had been typed the operator had to raise the platen, meaning the typist was typing blind much of the time. This machine was used by Margaret Ganly née Burn in the 1930s. It was purchased for her by one of the sons of William Pride, a famous saddle maker in Geelong, William was Margaret’s grandfather. The typewriter was donated with original sales receipt and servicing tools. Margaret worked at Dennys for 7 years during the 1930s. The typewriter is accompanied with a story written by Margaret about her time working at the company. Margret married Jack Ganly, a fellow employee of Dennys. The Ganly name was well known within Dennys, with three generations of the Ganly family working at the company. WORKING CONDITIONS & OFFICE WORK DUTIES. Written by Margaret Burn in 2021. Worked at Dennys Lascelles in the 1930s. In the 1930s coming out of the Depression, jobs were hard to come by and had to be clung to by efficiency and subserviency. There was no union to protect workers – bosses could be tough and rough. Dennys Lascelles revolved around fortnightly wool sales in the “season” – September to May. Sale day was always a day of suppressed excitement. Preparation from a clerical point of view was complete and we now awaited the aftermath of the actual wool auction. The building teemed with people. There were country people down to see their wool sold, buyers of many nationalities, or from the big cities, who were coming in and out of the building all day. Their role was to inspect the acres of wool bales displayed on the show floors; however, caterers were present to feed clients, and there was plenty of social interactions on top of business. The office staff did not go home but waited until the first figures came back from the wool sales and the machines went in to action, both human and mechanical, preparing the invoices for the buyers’ firms. This comprised of lists of lot numbers, weights, prices per lb., and the total prices paid. A lot of this was done by old-school typewriters, making this work a big, heavy, tiring job. Before the finished lists could be dispatched, they were collated on an “abstract”. The lists had to balance with the catalogue from which the invoices had been prepared. This never happened automatically. All the paperwork had to be split up amongst pairs of workers and checked until discrepancies were found. This would happen until midnight but occasionally went until 2 or 3 am. Once complete, the invoices could then be rushed off to the buyers’ firms usually in Melbourne, and hire cars took the staff home. It was back on the job the next morning, usually around 8.30. The office hours varied according to the size of the sale and work involved. Some days started as early as 8 and could finish around 5.30. The second phase of work began with the account sales to be prepared for the sellers of the wool. These detailed all the weights, descriptions of wool, brands, and prices. One Sales account could have multitudes of lot numbers, all needing to be individually described. Various charges needed to be deducted such as finance for woolpacks, extra stock, or farmers who were given a loan to live on during the season. Details of how payment was to be made was also noted, whether the seller was to be paid by cheque, to a bank, or credited to their account with the company (which often left the seller still in debt). For a couple of months in the winter, things were quieter when staff took holidays and were sometimes given afternoons off. But there were still weekly skin sales and stock sales around the state. The annual end of June figures to be prepared for a big company like Dennys with branches all around the state also kept the staff busy. In good years there was sometimes a bonus. On sale days there was a bar open for the clients and wool buyers. This added to the excitement for the young girls, who were strictly barred from using it, but somehow managed to sneak a gin and tonic. This is how I had my first ever, before the evening meal. There was also the romantic notion in some minds, with all the influx of males, that some of us might end up on a wealthy station, or be noticed by an exotic buyer. To my knowledge, this never happened at Dennys Lascelles Limited. Group staff photo at Dennys Lascelles Limited. Margaret Burn. Age 18 or 19. Jack Ganly (Margaret’s future husband). 22.The typewriter has a black painted metal frame. The top section of the typewriter consists of a cylindrical platen on a carriage featuring plated metal fittings. A curved folding paper guide sits behind the platen and moves on the horizontal axis when the user types on the keyboard. A horizontal semicircular type basket with typebar links the top section to the lower keyboard. The ink ribbon is carried between two spools on a horizontal axis, one on each side of the type-basket. At the rear, a paper tray features gold lettering which reads ‘Remington’. At the front, a four-row QWERTY keyboard is found with 42-character keys total. 'SHIFT LOCK' and 'SHIFT KEY' are to the left of the keyboard, 'BACK SPACER' and 'SHIFT KEY' to the right. All keys are circular, white with black lettering. At the top of the keyboard are five circular red keys with the numbers 1-5 displayed behind their respective keys. A Spacebar is found along the front of the keyboard. The typewriter is accompanied by a cardboard box. This box contains the original sales receipt, on blue paper with grey lead handwriting. It also contains spare parts, a spare ribbon stretched between two spools, and cleaning tools such as brushes of differing sizes. Serial Number. Engraved. "LX45395" Gold lettering. Paper tray. “Remington” Gold Lettering. Behind keyboard. “Made in Ilion, New York, U.S.A. Gold Lettering. Mirrored both sides of type-basket. “12”remington, dennys lascelles ltd, worker conditions 1930s

The Fred Rochow Railways Collection incorporates photos related to the operation of the Wodonga Railway Station including different types of trains and railways staff C. 1930 – 1990. It was donated to the Wodonga Historical Society by Fred Rochow, a railwayman who spent many years based in Wodonga. He joined the Victorian Railways on 17th June l947 and retired in 1988. For some time, he was a member of the Australian Federated Union of Locomotive Enginemen and served a term as a member of the Trades Hall Council. He had an extensive knowledge of the struggles that took place to achieve better conditions for railway workers. Fred worked for many years as a fireman and then worked his way up the ranks to driver, experiencing many changes from the days of steam locomotives through to diesel trains, locomotives and even the modern XPT train. He worked throughout Victoria at different stages of his career, with his final working years focused on the northeast of Victoria and the Albury to Melbourne line. After his retirement, Fred continued to share his love of steam miniature trains with the community.This collection has local and statewide significance as it captures images of trains, locomotives and personnel who operated the railway services in Wodonga and throughout Northeast Victoria. The railways played a critical role in opening up Victoria and connecting Australia for trade, business, social communication and transport.The "Spirit of Progress" on a test run prior to its official launch being hauled by Locomotive S303. It was named the C.J. LaTrobe after the1st Lieutenant-Governor of Victoria, Charles Joseph Latrobe. Considered by many to be Victorian Railways' greatest passenger locomotives, the 4 S class steam locomotives were the first 3 cylinder steam locomotives. This small class was built to run the Melbourne to Albury passenger trains and spent their entire careers on the North East line. They were built unstreamlined and ran in this condition until 1937. The streamlining modifications complimented the all new "Spirit Of Progress" carriages. The S class ran the "Spirit" until 1952 at which time the newly delivered B class diesels took over. The 4 S class locomotive which were allocated to the "Spirit of Progress" were S300 - the "Mathew Flinders", withdrawn in September 1954, having covered 1,379,791 miles. S301 - the "Sir Thomas Mitchell", withdrawn in October 1953, having covered 1,414,367 miles. S302 - the "Edward Henty", withdrawn in July 1954, having covered 1,446,468 miles and S303 - the "C.J. Latrobe", withdrawn in May 1954, having covered 1,434,664 miles.On the lower front of the Locomotive "S303"railways wodonga, fred rochow, wodonga railwaymen, spirit of progress, s class steam locomotives

The following are the recollections of John Elkins, who started school in February, 1945 at Maryborough in Queensland, Australia. 'I think in Prep 1 that we had some paper to write on with pencils, but my memory of the routine use of slates is much more vivid. Each slate was framed in wood and one side was inscribed with lines to guide the limits for the upper and lower extremities of letters. The slate "pencils" were made of some pale gray mineral softer than slate which had been milled into cylinders some one-eighth of an inch in diameter and inserted into metal holders so that about an inch protruded. Each student was equipped with a small tobacco tin in which was kept a damp sponge or cloth to erase the marks. Sharpening slate pencils was a regular task. We rubbed them on any suitable brick or concrete surface in the school yard. Teachers also kept a good supply of spares, all writing materials and books being provided by the school. It is possible that the retention of slates stemmed from the political imperative that public education should be free. I do recall being given a Copy Book for home practice of letter formation, a typical practice until Grade 6. The tables at which we used to sit in the Infant School were replaced in the primary Grades by long desks seating five or six pupils. These had slots into which the slates could be inserted vertically. When the teacher asked the class to clear their desks, the command issued was "slates away!" This was an occasion for a noisy expression of relief as we dropped the slates producing a sound not unlike a volley of rifle shots, and usually brought a request from the teacher to repeat the process with no noise by holding the frames throughout. Thus, I suspect we may still have used slates in Grade Three, though by then paper, which may have been scarce during the War, seemed to be used more routinely.' The full context of John's account of writing during his primary school days can be found at: https://www.readinghalloffame.org/sites/default/files/history_of_literacy_22slates_away22_penmanship_in_queensland_australia.pdfSchool desks and benches/chairs have been in use in schools since formal group education started.Eight long school desks (five higher three lower), each with four inkwells and groove along length. eight school benches (five higher three lower). Each desk and bench accommodates four children.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Extract from The Spectator of June 12, 1946: "From the Queensland 'Methodist Times'. Dreams do come true. At any rate, that is what the Rev. Cliff Lanham believes, who after the lapse of several years finds that his early dream of a Flying Patrol for the Inland is now an actuality. The Methodist Inland Mission Board has purchased from the Disposals Commission of the R.A.A.F. a De Haviland Fox Moth Biplane. Indeed, two machines have been bought, but one will be broken up for spare parts. This 'new angel of the air' is fitted with a 130 h.p. engine and possesses a cruising speed of 100 miles per hour. The petrol consumption is only that of a big six-cylinder car—18 miles per gallon. In addition to the pilot there is room for three passengers, and a stretcher is installed whereby urgent cases of sickness or accident can be flown to the nearest hospital. In this machine, Mr Lanham proposes to cover the whole of S. W. Queensland and a portion of the Northern Territory from his headquarters at Mt Isa. It takes little imagination to realise what a boon the 'flying parson' will be to those of the great outback." …. "Before [Mr Lanham] inaugurated the scheme [the idea of a flying parson] he spent his first furlough from inland mission work (and incidentally £60) learning to fly. 'In a month,' he says whimsically, 'I was a pilot of sorts.' Mr Lanham is a son of the Church. His parents were staunch Methodists, and their home offered generous hospitality to mininsters and preachers. His brother, the Rev. Percy Lanham, M.A., died in Libya when on active service as a chaplain. His widowed mother must be proud of her tall, stalwart son, whom the Church now sends forth on his flying mission for the Lord. May he ever be wafted through inland skies on two wings and a prayer." It is of interest to note that although Cliff Lanham's brother, Percy, is listed in the Methodist Church of Australasia's Ministerial Index (9th Edition, Revised to 1961) Cliff Lanham himself is not listed as either active or deceased.Three B&W identical photographs of Lanham standing next to a Methodist Inland Mission bi-plane. Lanham and an unidentified man are holding a stretcher between them with a boy of about 10-11 on it. They seem to be exiting the plane. The original photograph F69-1 is a 110x65 mm Kodak print; the other two are 195x145 mm enlargements. Lanham is wearing a white shirt and grey trousers, the other person is wearing a safari helmet.All three photos identify "Rev. Cliff Lanham" on the back. They seem to have been originally used or intended for use by The Spectator.lanham, cliff, queensland, methodist inland mission, flying parson

Comprises a collection of metal, wooden and plastic toys which would possibly date back to the 1920s to 1940sThis collection came from the Warton / Baker families from Tawonga and Redbank in the Kiewa Valley.Collection of metal toys: 1. x2 Train Locomotives 2. Red tractor - mechanical with key 3. Man using grinder - mechanical with key 4. Two birds with worm - mechanical with key 5. Green trailer - mechanical with key 6. Small tank - mechanical with key 7. Aeroplane 8. Metal top 9. Home-made push-along wheels 10. Home made top 11. Cap gun 12. Cookie Cutters 13. Small tin puncture Kit - empty 14. Metal fox whistle 15. Tin trumpet 16. Large metal pump top 17. Plastic & metal mechancal toy in cardboard box- Jolly Skipper Other: 1. Monkey puppet with paper legs 2. Small plastic bells 3. Plastic boy on bike 4. Plastic green car 5. Plastic small trains 6. Soldier dog 8. Two half coconut shells (hollow) 9. Cylinder of wooden mechano tinker toy 10. Plastic Mr & Mrs Funny Face in box 11. Trip to New York game in box 12. Wooden Modelcraft - Build-ees in box 13. Wooden ring 14. Jig-saw toys, puzzles, wooden mechano, mechanical toys, recreation, children

Gasometers resulted from complex engineering design evolving from primitive gasholders first used in 1824 in England to power street lights. The 20th century gasometer, (as used at the Highett Gasworks), was comprised of a series of large interconnected, telescopic, cylindrical vessels or lifts, which rose and fell depending on the volume of gas stored. The gasholder operated on a basic principle of a gas-filled floating vessel, rising and falling in a seal of water. The Highett Gasworks had its beginning in 1939 but its beginnings commenced sixty-two years earlier when the privately owned Brighton Gas Company was floated in 1877. By 1880 the company was performing well and making excellent profits. The company was welcomed by residents wanting to replace the shadowy light of a kerosene lamp with the bright luminescence of "modern" gas lamps. The land developers of the day were also keen supporters. But by 1884 people became disgrunted because either the gas had not reached them yet or because the quality of the supply had diminished due to the increasing use. In 1885 a second private gas company, the Central Brighton and Moorabbin Gas Co, Chaired by "Tommy" Bent was floated and for many years the two gas companies enjoyed a shared monopoly in supplying gas from their New Street Works. In the 1930s the company expanded its gas production facilities to Highett where it had purchased 45 acres of land adjacent to the Melbourne-Frankston railway line. A gasholder with a capacity of 750,000 cubic feet was erected on the Highett land in 1927 and connected with high pressure mains to the Brighton works. Three years later the company directors decided to proceed with the construction of a vertical retort house and coal store. Following a "lull" during the Great Depression work recommenced in 1936 and by 1939 the first complete gas-making plant was completed, and gas making commenced. Over the next twenty one years other significant extensions occurred, including an amenities block to accomodate 100 workers. In 1969 Esso commenced the introduction of natural gas to residents homes and the gradual decommissioning of the Highett Gasworks commenced. Part of the old Highett Gasworks site is now a council owned parkThe photos of the Higett Gasworks, now demolished, recall their long history, that originated in the 1800s with the production of gas to supply homes with a new, much improved light source, and later it's other applications such as for stoves etc. The arrival of gas in the Shire of Moorabbin was a huge step forward that encouraged further building and development in the area.Three Photographs of the Highett Gasworks. Two are coloured photos taken in 1974, and one is black and white taken in the 1960s. All are in good conditionOn the back of the two coloured photographs "Highett Gasworks 1974" No inscription on the black and white aerial photograph.brighton, moorabbin, highett, bent thomas, gasometer, highett gasworks, engineering design, brighton gas company, central brighton and moorabbin gas company, great depression, lamp kerosene

Yields information about the reconstruction of the depot trackwork during 1935/1936 and the condition of the rails, types of rails and methodsSet of 5 Black and white photo prints from collected negatives of the relaying of the depot fan at the SEC Ballarat depot building, during refurbishment by the SEC during 1935 or 1936. 1351.1 - Wendouree Parade depot junction, track - relaying the 2nd set of points. One track was still useable at the time. Note fences and tools lying around the work area. 1351.2 - laying out the trackwork for two and three roads, note machines and cylinders in background. 1351.3 - looking along No. 2 road out of the depot doors, not connected, possibly taken some time after 1351.2, as the area appears to be cleaned up. 1351.4 - Photo showing the various rail weights for possibly the western rail on No. 3 road and how the fishplates were at the time of the photograph. Not known whether this was the final arrangement, taken looking towards the depot building. 1351.5 - ditto but from the other end - note the damaged flangeway on the depot end rail - horse tram rail? Copy 2 - of all above photos - large format prints (203H x 253W) - added 28/7/2007, ex Alan Bradley holding of prints, received 5/2007. See also Reg Item 3901 for a mounted set of these photographs along with those of Reg Item. 1352. Negatives scanned at high res and images updated 14/5/2020. tramways, trams, wendouree parade, sec depot, rehabilitation, trackwork

The invention of the Coolgardie Safe is credited to Arthur Patrick McCormick, a contractor in Coolgardie, and later the Mayor of Narrogin. Coolgardie is in the Eastern Goldfields region of Western Australia. Gold was first discovered there in 1892; the townsite became a municipality in 1894, and by 1898 its population of 15,000 made it the third largest town in Western Australia after Perth and Fremantle. In the last decade of the 19th century, Coolgardie was the capital of the West Australian goldfields. Being 180 kilometres from the nearest civilisation, food supplies were initially scarce and expensive. As fresh food was a valuable commodity there was incentive to preserve it, and keep it out of reach of scavengers such as birds, dingos, dogs, ants, and flies. It was in an effort to do this, in the extreme heat of the Australian Interior, that McCormick came up with his design for the Coolgardie Safe. McCormick noticed that a wet bag placed over a bottle cooled its contents. He further noted that if this bottle was placed in a breeze, the bag would dry out more quickly, but the bottle would get colder. What McCormick had discovered was the principle of evaporation: ‘to change any liquid into a gaseous state requires energy. This energy is taken in the form of heat from its surroundings.’ Employing this principle, McCormick made a box for his provisions which he covered with a wet hessian bag. He then placed a tray on top, into which he poured water twice daily. He hung strips of flannel from the tray so that water would drip down onto the hessian bag, keeping it damp. As the water evaporated, the heat dissipated, keeping the food stored inside cool and fresh. The success of McCormick’s invention would not have worked without a steady supply of water. Fresh water was scarce in the eastern goldfields at this time but the demand for water from a steadily growing population encouraged innovation. The solution was to condense salt water. Heating salt water in tanks produced steam that was condensed in tall cylinders, cooled and then collected in catchment trays. By 1898 there were six companies supplying condensed water to the goldfields, the largest company producing 100,000 gallons of water a day. In the early 20th century, Coolgardie Safes were also manufactured commercially. These safes incorporated shelving and a door, had metal or wooden frames and hessian bodies. The feet of the safe were usually placed in a tray of water to keep ants away. (MAV website) The early settlers of Moorabbin Shire depended on this type of Food Safe to protect their food from flies and vermin as they established market gardens in the fertile area around the notorious Elster Creek A metal framed, 4 sided structure standing on 4 legs with 2 hinged doors on one side, a metal tray at base of food safe and a metal cover over top. Ridges on which to rest trays carrying food are inside safe. The Safe is enclosed by fly-wire mesh.'...IN.....GEELONG' A manufacturer's oval metal plate is embossed on one side of Safe but it is illegible.elster creek, moorabbin, brighton, dendy's special survey 1841, market gardens, infant mortality, disease, cemeteries, fruit, vegetables, pioneers, coolgardie safe, mccormick arthur patrick, dendy henry, vaccination, jones martha, jones ethel may

The locomotive was supplied new by Decauville to the Metropolitan Gas Company Ltd, Melbourne, for use at their gasworks in West Melbourne, where it was named Carbon suppied in 1889 (Couillet builder's number 986, Decauville serial number 90). It was named Carbon. The West Melbourne gas works sourced its coal from Maitland, New South Wales, and the coal was brought by ship to a wharf adjacent to the West Melbourne gas plant. John Benn and Carbon were used to haul the coal over a 762 mm (2 ft 6 in) gauge railway from the wharf to the gasworks, a distance of about 450 metres (500 yards). West Melbourne Gas Works No. "Carbon" Wheels: 0-4-0T Builder: Couillet Build Date: 1890 Construction No.: 986 Empty Weight: Unknown Weight on Drivers: Unknown Driver Diameter: Unknown Tractive Effort: Unknown Boiler Pressure: Unknown Cylinders: Unknown Fuel: Coal Gauge: 30 Decauville locomotives The firm Société Anonyme Decauville located at Petit Bourg, France, was founded to manufacture light railways pioneered by French farmer Paul Decauville to transport crops from the field in 1875. Decauville began designing their own locomotives in 1882, although initially manufacture was contracted out to other builders, notably the Belgian firm Hainault at Couillet Although not well known in Australia, in Europe Couillet was a significant builder of steam locomotives of many different gauges and sizes over a long period of time. The locomotive was supplied new by Decauville to the Metropolitan Gas Company Ltd, Melbourne, for use at their gasworks in West Melbourne, where it was named Carbon (986) . Carbon ( 986 ) The locomotive weighs approximately seven tons. It has the Couillet builder's number 986. of 1889 It was built for Decauville & Cie. of Paris, suppliers of portable and industrial railway equipment, and has their serial number of 90 of 1890. Built in 1889 for the West Melbourne site of the Metropolitan Gas Company, it is a four-wheel tank locomotive and was named “Carbon”. It was withdrawn from service in the 1930s and stored until sold privately in 1962. For a few years in the 1960s it was used on a circle of track at Walhalla, before going to the Whistle Stop Amusement Park in Frankston. Although a number of similar locomotives still exist, as far as is known Carbon is the only one still operating in its original condition. Historic - Industrial railways - Metropolitan Gas Company Ltd, Melbourne Steam Locomotive Small Decauville Couillet Steam locomotive. - Iron & wrought iron framesCouillet builder's number 986, Decauville serial number 90puffing billy, narrow gauge, industrial narrow gauge railway, couillet 986, decauville 90, steam locomotive, metropolitan gas company, carbon

This photograph shows a piece of gold mining equipment identified as a mine winch, possibly an air winch cylinder of 1870s RG Ford's Patent design. Throughout the history of mining for gold and other precious materials, the windlass or winch (pictured) was used to bring up buckets full of soil from the bottom of a mine. This soil was then searched for gold/metals before being relocated to a different area. Due to the size and complexity of this particular piece of equipment, this winch may have been used to raise and lower mine carts to the entrance of the mine (often used in coal mining) and could have been used in raising cages up and down (acting as elevators) containing miners if the mine was particularly deep. The actual use of this particular item in the Beechworth locality is undocumented but these are some possibilities based on the use of these pieces of equipment in other mining locations. Mining can have a largely detrimental impact to the environment and therefore, the study of machinery like the one depicted in this photograph can help researches to reconstruct the methods and technologies used in the late 1800s and early 1900s. This particular item appears to have been removed from it's original site where it would have been used to assist with mining. It is possible that this photograph has been taken for recording purposes or as part of a machinery exhibition. Prior documentation records that this piece of equipment had connections to the Rocky Mountains Mining Company. Today, the Rocky Mountains Gold Mining company is famous in Beechworth for having been instrumental in the creation of the Rocky Mountain tunnel. Construction for this tunnel began in 1859 when a group of 12 men blasted a 400ft long tailrace though the rock beneath the town of Beechworth. Today, the 800ft tunnel, completed in 1871, is a popular tourist attraction but during the decades of gold mining, the purpose of this tunnel was to divert water away from the main sluicing operations so miners could better access gold and precious materials. The tunnel was used for this purpose for many years, later becoming useful for the Zwar Brother's tannery and currently as an outfall drain for Lake Sambell. This area continued to be mined until the early 1900s. The period when this item was in use is unclear but it is estimated to have been in the 1870s based on the design and appearance of the image. The gold works at the Rocky Mountain Tunnel closed in the early 1920s but the impact of mining remains in Beechworth today and therefore the study of photographs like this one which contain mining equipment can further understanding of mining in this region.This photograph has historic and research potential for study on the gold mining of the Beechworth region and types of equipment used to locate gold after the initial gold rush of 1853-1854 which resulted in the discovery of the surface gold and required miners to dig deeper to access precious metals. The clarity of the photo, and its good preserved condition, means it can continue to be used for research. This photo is part of a collection of six photos all within the Burke Museum Collection which depict mining equipment.Square black and white photograph on card.7793.1beechworth, mining, goldmining, goldmining equipment, beechworth burke museum

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Ball, part of a Flagstaff signal set. A round woven cane ball, painted black, with a metal rod passing through the centre. The rod has a loop at each end, then a concave, octagonal metal plate that rests on the outside surface of the ball, serving as a washer. The rod has swivels at each end.flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, distant signal, signal, maritime signal, ball signal, signal shape, flagstaff signal, signal station, masthead signal, communications, marine technology, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, day shape, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Cone, part of a Flagstaff signal set. A woven cane cone, painted black, with a metal rod passing through the centre and two crossed metal bars at the base. The central rod has a loop at the top and passes through the bars at the base, finishing in a metal loop. The rod has swivels at each end.flagstaff hill, warrnambool, flagstaff hill maritime museum and village, shipwreck coast, marine navigation, marine communications, communication signal, lifesaving, ship at sea, day shape, masthead signal, day signal, day mark signals, marine technology, safety equipment, navigation equipment, marine day shape, day marker, cane day shape, signal cone, day signal cone, cone signal, cone day shape, distant signal, flagstaff signal, signal station, communications, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Ball, part of a Flagstaff signal set. A round woven cane ball, painted black, with a metal rod passing through the centre. The rod has a loop at each end, then a concave, octagonal metal plate that rests on the outside surface of the ball, serving as a washer. The rod has swivels at each end.flagstaff hill, warrnambool, flagstaff hill maritime museum and village, shipwreck coast, marine navigation, marine communications, communication signal, lifesaving, ship at sea, day shape, masthead signal, day signal, day mark signals, marine technology, safety equipment, navigation equipment, marine day shape, day marker, cane day shape, signal ball, day signal ball, ball signal, ball day shape, distant signal, flagstaff signal, signal station, communications, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Cone, part of a Flagstaff signal set. A woven cane cone, painted black, with a metal rod passing through the centre and two crossed metal bars at the base. The central rod has a loop at the top and passes through the bars at the base, finishing in a metal loop. The rod has swivels at each end.flagstaff hill, warrnambool, flagstaff hill maritime museum and village, shipwreck coast, marine navigation, marine communications, communication signal, lifesaving, ship at sea, day shape, masthead signal, day signal, day mark signals, marine technology, safety equipment, navigation equipment, marine day shape, day marker, cane day shape, signal cone, day signal cone, cone signal, cone day shape, distant signal, flagstaff signal, signal station, communications, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

This three-dimensional Distant Signal is part of a Flagstaff Signal set of ball, cone and drum shapes. It has been woven and then fabricated with strong metal swivel fittings and loops for suspending from a high point on a flagstaff at a signal station or on a ship’s masthead. The cane signal was constructed to withstand all weather and to be visible from a long distance. The gaps between the woven cane allow air to pass through, minimising possible swaying. Similar sets were made from rope or fabric. Warrnambool's Flagstaff was erected in 1854. Its primary use was to display visual signals that could convey messages between land and sea. It was also used to notify the local population of the approach of ships. One of the popular signalling codes in use in the early-to-mid 1800s was the Marryat’s Code but there were others in use as well; there was no one standard code. In 1857 the International Marine Conference adopted an International Code of Signals as a standard communications system for all vessels that could be understood in many different languages. The Normanby Advertiser reported on June 5th 1857 a query from the Post Master General as to whether the request of the Chief Harbour Master would be carried out, in that Warrnambool would receive a new flagstaff and a set of Marryatt’s signal flags. The Table of Codes was published, showing how to use combinations of these flags to send messages. The Code was revised in 1887 to cover situations where distance, light, wind and weather conditions affected the visibility of the flags and prevented clear communication. The first report of the International Code of Signals Committee of 1897 warned signalmen not to rely on ordinary semaphore flags and introduced a Distant Signal Code using either particular semaphore flags or the three-dimensional shapes of a ball, cone and drum that aligned with the semaphore flag shapes of a circle, pennant and square. International Code of Signals In 1931, after World War I’s experiences in using signal codes, the International Code of Signals conference in Washington revised and published the rules for the conduct of signalling. One of the changes was that “the use of the Distant Signals and of fixed semaphore was abandoned”. It is of interest to know that modern marine law in many countries insists that a set of Day Shapes must be carried onboard vessels of a certain size. These highly visible geometric shapes are used at sea in daylight to communicate messages between vessels. They are used in a similar way to the Distant Signals, in that different combinations of shapes represent different messages. The set of shapes includes a ball, cylinder, cone and diamond. The shapes are hung between the top of the vessel’s foremast and the front of the vessel. They are only coloured black and are about 1.5 metres high. The vertical line of shapes can mean messages such as Boat not under command, Fishing, and Under sail and power.Distant Signals were an important means of marine communication from the late 1880s to the early 1930s, including during World War I. They were an advancement to the International Shipping Codes and safety. The cane signals’ shapes appear to be the same from whatever direction they are viewed, removing confusion about the message they convey. The same shapes continue to be used today for the sets of Day Shapes used as marine navigational signals that are mandatory on certain-sized vessels.Distant Signal Ball, part of a Flagstaff signal set. A round woven cane ball, painted black, with a metal rod passing through the centre. The rod has a loop at each end, then a concave, octagonal metal plate that rests on the outside surface of the ball, serving as a washer. The rod has swivels at each end.distant signal, flagstaff signal, signal station, masthead signal, communications, marine technology, signals, marine signals, flaghoists, international marine conference, international code of signals, signal codes, marine safety, signal flags, day shape, daymark, day symbol, navigation, warrnambool flagstaff, 1854, 1857 1931, 1887, 1897

The HMAT A18 Wiltshire (1912-1922) weighed 10,390 tons with an average cruise speed of 13.5 knots or 25.00 kmph. Described as a refrigerated steamship it was b uilt 1912 by John Brown, Clydebank for the Federal S N Co Ltd, London and was propelled by a twin screw, quadruple expansion engine 2 x 4 cylinders each 6500 hp. Owned by the Commonwealth & Dominion Line Ltd, London, it was leased by the Commonwealth until 2 October 1917. It embarked from Egypt on 2 February 1918. On 18 October 1914 at Melbourne embarked the 4th Light Horse Regiment (Victoria) A, B & C squadron & their Machine Gun Section, the 2nd Field Ambulance (Victoria) First Division. The disembarked the 4th Light Horse Regiment in Egypt on 10 December 1914. On 01 November 1914 The Wiltshire assembled with the first convoy at King George's Sound, Albany Western Australia in transporting the first detachment of the Australian and New Zealand Imperial Expeditionary Forces. It completed nine transport voyages from Australia commencing 18 October 1914 until final voyage from Sydney 9th November 1918. During that time The Wiltshire carried the 4th Field Artillery Brigade (Victoria) 2nd Division Artillery and their 1st Reinforcements, 1st Division Ammunition Column 1st Division Artillery 4th Reinforcements, thirty-four Infantry Battalion Reinforcements, the 10th, 11th & 12th Field Artillery Battery (Victoria) 4th Field Artillery Brigades, the 4th Brigade Ammunition Column 4th Field Artillery Brigade, the 1st Siege Artillery Brigade 15th Reinforcements, the 4th Light Horse Regiment (Victoria) A, B & C squadron & their Machine Gun Section, six Light Horse Brigade Reinforcements, the 1st Veterinary Section (New South Wales) 11th Reinforcements, the 1st Mobile Veterinary Section (New South Wales) 1st Division 11th Reinforcements, the 2nd Mobile Veterinary Section (Victoria, New South Wales) 2nd Division 11th Reinforcements, the 1st Cyclist Battalion (New South Wales and Queensland) 3rd Reinforcements, the 2nd Field Ambulance (Victoria) First Division & Medical Officers. After the conclusion of World War One is was wrecked Rosalie Bay, Great Barrier Island New Zealand 31 May 1922 on passage London for Dunedin. Onboard was a crew of 103 plus 1 stowaway, and 10,000 ton of general cargo. No lives lost and is now a well frequented 'Dive' wrecksite. (http://www.flotilla-australia.com/hmat.htm#A18)Photographic postcard of the troopship Wiltshire out at sea.world war one, world war, wiltshire, troop ship, mmm

Climax geared locomotive No. 1694 in active service on special occasions - stored at Emerald Station A Miraculous Survivor Climax locomotive No.1694 is a miraculous survivor of a rare breed of steam locomotive. For about 100 years from the mid-1850s sawn timber was carted from Victorian sawmills to the nearest railway station by timber tramway. These tramways were generally very rough, steeply graded, sharply curved, and of narrow gauge. Many had wooden rails, and horses provided haulage. The better ones used steam locomotives. In all about fifty steam locomotives are known to have worked on Victorian timber tramways. These locomotives were usually somewhat peculiar - made to cope with arduous, rough conditions, rather than speed. Climax locomotive No.1694 is the only one of these locomotives to survive intact. It was built in 1928 by the Climax Manufacturing Company, Corry, Pennsylvania, USA, for the Forests Commission of Victoria. The distinctive feature of the Climax locomotive is that the cylinders do not directly connect to the driving wheels. Instead they drive a cross shaft near the centre of the locomotive. From there the drive is transmitted to the small driving wheels through rotating shafts, universal joints, and bevel gears. The driving wheels are mounted in two four-wheel bogies so that they can easily follow sharp curves in the track. None of these features are found in normal steam locomotives. The result is a locomotive that is extremely powerful for its size, and that will cope with sharp curves and steep grades with ease. But this is at the cost of speed, Climax locomotive No.1694 is just about flat-out at 13 km/h (8 mph). Climax Locomotive Built in 1928 for the Forests Commission of Victoria and painted all-over black with the name CLIMAX painted on the sides of the cab in white block letters, this locomotive was issued to the Tyers Valley tramway which branched off the Moe to Walhalla line at Collins Siding. This locomotive was withdrawn from service in 1949 following the closure of the tramway and in 1950 it travelled from Tyers Junction to Collins Siding to Erica where it remained stored until 1965. Loaned to the Puffing Billy Preservation Society for its Steam Museum, it was taken to Menzies Creek in 1965 where it remained until 1982 when the Emerald Tourist Railway Board bought it and transferred it to Belgrave for restoration. It was returned to service for special use on the Belgrave to Gembrook line in 1988 painted in its original all-over black livery, except that the word “Climax” on the sides of the cab was now painted in the style of the Climax Manufacturing Co., a style that this locomotive had never carried.Historical - Industrial railway - Forests Commission of Victoria, Timber Logging Climax Locomotive Climax geared Steam locomotive made of steel and wrought iron Climax 1694climax locomotive works, climax, geared steam locomotive, puffing billy, climax locomotive no. 1694, steam locomotive