The Minimax conical fire extinguishers were manufactured until 1960 and then removed from the company’s product range. The earliest model had been produced with a simple handle made of folded pressed metal that is similar if not the same as that on the Point Hicks extinguisher. Later handles were moulded and had more substance to the way they were cut and then folded to form a solid grip. The Point Hicks Minimax extinguisher is an early model that probably dates from the years when these devices were demonstrated across parts of Australia. While numerous examples of the extinguishers survive in public and private collections in northern hemisphere countries, few appear to exist in Australian museum collections. However, the auction house records confirm that some do survive in private collections. The Point Hicks extinguisher was found by lighthouse keepers in 1974 buried in the sand in a flattened but surprisingly intact condition. It was beaten back into its original shape but the body still retains various dents. In 2010, AMSA located the extinguisher at the National Trust’s Polly Woodside historic ship museum and it is now at the Point Hicks Lightstation. The Minimax conical extinguisher has first level contributory significance as a historic item of early fire-fighting equipment from the lightstation that dates from the early twentieth century.Conical shaped brass fire extinguisher painted red with small nozzle at one end and a pump section at the other end. There is a handle on one side with closely spaced rivets down one side. Brass plaque with instructions attached to the body. There ia a square hook to hang the object form a wall or similar." ...ANKS ... / QUENCH.../ FOR FIRE / DRIVE IN PLUNGER / AT BIG END / ...ON GROUND /..../..../..."

Yields information about the vicinity of the Victoria St terminus and the bridge over the Buninyong Railway line.Black and White photograph mounted on heavy cardboard backing. Photo of Ballarat No. 31, just after leaving Victoria St. terminus, late 1960's or early 1970s crossing over the Eureka siding railway bridge. Taken by John Phillips. Tram has destination of Gardens via Sturt St. West, Twin Lakes advertisement on the front. In the background is Meagher's Hotel with Abbots Lager and Victoria Bitter sign. On the bridge is graffiti "Smash US Imperialism". On the Ballarat side of the bridge is a sign directing travellers to the "Eureka Caravan Park". Has 6 Velcro dots on rear and marks where mounting devices have been removed on the rear. Note image scanned in two runs through a scanner, resulting in the shading in the image file. .1 - Second copy with 4 black Velcro squares and 4 dots on rear - wider view on the right hand side with an additional pole - not scanned.trams, tramways, victoria st, eureka, twin lakes, tram 31

Set of four brass cast, chrome plated, machined, device or ticket punches used to cancel or punch paper tickets when purchased. Placed a shaped hole in the ticket. Spring loaded, consists of two main parts with a pin & spring from coiled wire and fitted with formed wire retaining hole fitted to one of the arms. Some of the chrome plating has been worn off. There are no manufacturer markings on the punches. See https://onlineriver.com/transit-punches/ accessed 6-11-2017 for details of the new equivalent punches. .1 - number G9 - punches a five cornered hole would have been used at the Glenhuntly Depot .2 - number K127 - punches a six cornered rounded hole - would have been used at Preston Depot .3 - number P108 - punches a rounded oblong hole - would have been used at Kew Depot. .4 - number 1096 - punches a small crossed hole.trams, tramways, ticket punch, tickets, fares, conductors, preston depot, kew depot, glenhuntly tram depot

The design of the corkscrew may have been derived from the gun worm, which was a device from at least the early 1630s, used by men to remove unspent charges from a musket's barrel in a similar fashion. The corkscrew is possibly an English invention, due to the tradition of beer and cider, and the 'Treatise on Cider' by John Worlidge in 1676 describes "binning of tightly corked cider bottles on their sides", although the earliest reference to a corkscrew is, "steel worm used for the drawing of Corks out of Bottles" from 1681. In 1795, the first corkscrew patent was granted to the Reverend Samuel Henshall, in England. The clergyman affixed a simple disc, now known as the Henshall Button, between the worm and the shank. The disc prevents the worm from going too deep into the cork, forces the cork to turn with the turning of the crosspiece, and thus breaks the adhesion between the cork and the neck of the bottle. The disc is designed and manufactured slightly concave on the underside, which compresses the top of the cork and helps keep it from breaking apart. The winged corkscrew, sometimes called a cork extractor, butterfly corkscrew, owl corkscrew, Indian corkscrew, or angel corkscrew, has two levers, one on either side of the worm. As the worm is twisted into the cork, the levers are raised. Pushing down the levers draws the cork from the bottle in one smooth motion. The most common design has a rack and pinion connecting the levers to the body. The head of the central shaft is frequently modified to form a bottle opener, or foil cutter, increasing the utility of the device. Corkscrews of this design are particularly popular in household use. In 1880, William Burton Baker was issued British Patent No. 2950 for his double lever corkscrew, with both levers sliding onto the upper end of the shank. The first American patent was in 1930 granted to the Italian Domenico Rosati who emigrated to Chicago, Illinois, to work as bartender before prohibition. Rosati's design had an exposed rack and pinion mechanism. Such design was adapted by other brands as the wine-market grew in popularity. The winged owl version, with two side-plates covering the rack and pinion mechanism, was first designed and manufactured in 1932 by the Spanish industrial designer David Olañeta for his brand BOJ and was later adopted by others, such as the 1936 US Patent No. 98,968 by Richard Smythe marked HOOTCH-OWL https://en.wikipedia.org/wiki/CorkscrewThis object is significant as an example of an item in common use in the 19th and early 20th centuries, and that was developed further in the 1930s.Winged corkscrew with a T-shaped wooden handle, metal spring and worm-wheel screw section.None.flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, corkscrew, beverages, kitchen equipment, bottle opener

This image shows a view of a properties bordering a river in the vicinity of Beechworth in approximately 1900. Although the exact location of the photograph is yet to be determined, the water source pictured may feed into the bigger system that flows through Beechworth Gorge. A man wearing a hat, possibly the photographer, is silhouetted in the foreground of the picture. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and natural landscape in the early Twentieth Century, around the time of Australia's Federation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, photographer, beechworth gorge, river, stream, water source, 1900s

This image shows a semi-aerial view of commercial and official properties lining Ford Street, Beechworth, in approximately 1900. The tower of Christ Church of St Peter and St Paul can be seen in the middle section of the photograph, on the left-hand side of the street. The Church was constructed in 1858 with the tower added to the structure in 1864. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and commercial and official infrastructure in the early Twentieth Century, around the time of Australia's Federation into one nation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, ford street, christ church of st peter and st paul, church tower, landmarks, 1900, shopping facilities, public buildings, 1900s, built environment, streetscape

A C-clamp or G- clamp is a type of clamp device typically used to hold a wood or metal work-piece, and often used in, but are not limited to, carpentry and welding. These clamps are called "C" clamps because of their C shaped frame, but are otherwise often called G-clamps or G-cramps because including the screw part they are shaped like an uppercase letter G. The fixed end is not adjustable so size is not variable. G-clamps are typically made of steel or cast iron, though smaller clamps may be made of pot metal. At the top of the "G" is usually a small flat edge. At the bottom is a threaded hole through which a large threaded screw protrudes. One end of this screw contains a flat edge of similar size to the one at the top of the frame, and the other end usually a small metal bar, perpendicular to the screw itself, which is used to gain leverage when tightening the clamp. When the clamp is completely closed, the flat end of the screw is in contact with the flat end on the frame When used some other object or objects will be contained between the top and bottom flat edges. A steel 'G' Clamp tools, g clamp, screws, steel, clamps, metalwork, woodwork, carpentry, early settlers, pioneers, market gardeners, moorabin, bentleigh, cheltenham

The Micro-Professor I Plus (MPF-IP) was a low cost, versatile microcomputer system featuring sophisticated software and hardware capabilities. (MPF-IP) boasted a display panel with the ability to display 20 characters using 16-segment fonts. All 64 standard ASCII characters could be displayed. The operation of the MPF-IP was controlled by an 8k monitor program which resides in the Read Only Memory (ROM). The monitor, aided by 4k Random Access Memory (RAM), enabled the user to enter a comprehensive set of single keystroke commands, making it easier for the user to use the CPU, memory and I/0 devices. This allowed the user to concentrate of microprocessor software development and application design. The system allowed printing at 48 lines per minute, and the ability to permanently record the commands, data, programs, status and other messaged. Each character printed by the printer is in a 5 by 7 dot matrix. Although the prime purpose of the programming was for machine language object code formed as hexadecimal numbers, the Micro-Professor has an embedded Tiny Basic interpreter for which formation of some of the alpha characters using a standard 7 segment display was ingenious. The program memory consisted of non volatile 2 kilobytes electrically programmable ROM whilst the Random Access Memory came with 2 kilobytes of static RAM but could be upgraded to 4 kilobytes by insertion of another chip. The entire memory space of 64 kilobytes was accessible by way of the terminals on the left hand side of the board. Engineering and Science students from the Ballarat School of Mines and the Ballarat College of Advanced Education used a class set (as they were relatively inexpensive at approx. $100 each) during the mid to late 1980s. Student were encouraged to borrow the Micro-Professors in order to assist in learning how to use them. Only one was ever not returned on time. When pressed to return the device the student confessed that his dog had chewed the plastic case. This is still in our collection complete with bite marks! The Micro-Professor used a Zilog Z80 microprocessor. This was the most powerful of the 8 bit microprocessors at the time. Zilog was derived from the Intel 8080 microprocessor. The Z80 had 158 instructions of which the Intel 78 instructions were a subset. The Intel processor continued on through development in the IBM computers as 8086, 80286, 80386, 80486 and later the pentiums. Zilog lost most of its market share when it developed the 16 bit Z8000 microprocessor. Although the microprocessor was excellent, the lack of peripherals caused users to abandon Zilog products. A brown and gold plastic box containing a microcomputer for use in classrooms. Four manuals are titled 'Micro-Professor MPF-IP user's Manual', 'MPF-I Experiment Manual (Software/Hardware)', Micro-professor MPF-IP experiment Manual (Software/Hardware)' and Micro-Professor MPF-I Monitor Program Source Listing.microcomputer, micro computer, micro professor, electronics

This lifebuoy bears the name of the ship, its origin, the shipping company and the red ensign. These details mean that the lifebuoy was part of the lifesaving equipment on the sailing ship the Loch Ness, part of the Glasgow Shipping Company’s Loch Line (G.S.C. on the red pennant) and a British-registered ship (the red flag with the Union Jack on it). Lifebuoys were part of the emergency lifesaving equipment carried on vessels in the late 19th and early 20th century. The ring was made of strips of cork wood joined together to make the ring shape then covered in canvas and sealed usually with white paint. Four evenly spaced canvas reinforcing bands would be added for strength and for a place to thread a rope or line. A lifebuoy, or life-preserver, is used as a buoyancy device often thrown to an endangered or distressed person in the water to keep them afloat while they receive help. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. Lifebuoys is a made from a buoyant materials such as cork or foam and ae usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. Cork lifebuoys were used from the late 19th to early 20th century. Kapok fibre was then used as a filling for buoys but wasn’t entirely successful. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The ship LOCH NESS 1869-1922 … The ship Loch Ness, of Glasgow, was the same ship what William Carmichael sailed on to Australia when he laid the commemoration stone on behalf of his sister Eva and himself, dedicated to their parents, brothers and sisters. The family members lost their lives on June 1, 1878, when their ship, the Loch Ard, was wrecked at Mutton Bird Island in south west Victoria. Eva Carmichael was one of the two survivors from that shipwreck, the other 52 tragically lost their lives. The ship Loch Ness was a three-masted sailing ship built in 1869 for the Loch Line owned by the Glasgow Shipping Company. The line transported cargo and passengers from Glasgow, Scotland, to Australian ports. The Loch Ness was sold in 1908 to Stevedore & Shipping Co, Sydney for use as a coal hulk. In 1914 the Australian Government took over the ship for naval defence purposeless. In 1926 the ship was sunk during gunfire practice by HMAS Melbourne, near Fremantle, Western Australia. The lifebuoy is an example of equipment carried on vessels in the late 19th and early 20th century to help preserve life. There were many lives lost in Australia’s colonial period, particularly along the coast of South West Victoria. The lifebuoy is significant for its connection to the ship Loch Ness on which William Carmichael, brother of Eva Carmichael, travelled to lay a memorial to their parents and all of their other siblings who lost their lives in the Loch Ard disaster of 1878 near Peterborough, Victoria. Lifebuoy, round, cork filling inside canvas cover, painted white, with rope attached. Lifebuoy has printed name of vessel Loch Ness, Glasgow. Symbols of red flag with white initials G S Co. There is also a red ensign."LOCH NESS", "GLASGOW" "G S Co"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, loch ness, loch ard, william carmichael, eva carmichael, lifebuoy, glasgow sailing ship, loch ness of glasgow, life rings, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment, g s c, glasgow shipping company

Lifebuoy is from the ketch Reginald M, built in Port Adelaide by John Murch in 1922. Lifebuoys were part of the emergency lifesaving equipment carried on vessels in the late 19th and early 20th century. The ring was made of strips of cork wood joined together to make the ring shape then covered in canvas and sealed usually with white paint. Four evenly spaced canvas reinforcing bands would be added for strength and for a place to thread a rope or line. A lifebuoy, or life-preserver, is used as a buoyancy device often thrown to an endangered or distressed person in the water to keep them afloat while they receive help. It is usually connected by a rope to a person in a safe area such a nearby vessel or on shore. Lifebuoys is a made from a buoyant materials such as cork or foam and ae usually covered with canvas for protection and to make it easy to grip. The first use of life saving devices in recent centuries was by the Nordic people, who used light weight wood or cork blocks to keep afloat. Cork lifebuoys were used from the late 19th to early 20th century. Kapok fibre was then used as a filling for buoys but wasn’t entirely successful. Light weight balsa wood was used as a filler after WW1. In 1928 Peter Markus invented and patented the first inflatable life-preserver. By WW2 foam was combined with Kapok. Laws were passed over time that has required aeroplanes and water going-vessels to carry life-preservers on board. The Reginald M 1922- The two-masted coastal trading ketch Reginald M was built by John (Jack) Murch in Port Adelaide, South Australia, in 1922 and it was launched there in Largs Bay in the same year. It is thought that the keel was hewn from two telegraph poles - its owner was a regular visitor to salvage yards. Its cargo at times included Guano, Barley, Wool, Horses, Cattle, Timber, Explosives, Potatoes, Shell Grit and Gypsum. At one time the vessel was used as a customs boat, renamed 'HMC No. 3, Pt Adelaide'. In 1969 she was used by a mining and railway company as a barge to carry explosives. In 1972 the vessel was renamed 'T.S. Macquarie' and planned to be used for sea cadet training.; this did not eventuate. It was sold again and went to Melbourne to be used for pleasure sailing, and again sold for use as a ferry. Late in 1975 Flagstaff Hill purchased the vessel to be used as an exhibit at the Maritime Village where many visitors enjoyed being able to board and explore a real ship with a long history. Sadly, in late 2016, the decision was made to 'decommission' the vessel due to the continuing high cost of maintenance and the risk to public safety. Many of the components of the vessel are held as part of Flagstaff Hill's collection.The lifebuoy is an example of equipment carried on vessels in the late 19th and early 20th century to help preserve life. There were many lives lost in Australia’s colonial period, particularly along the coast of South West Victoria. The lifebuoy is significant for its connection with the Australian built, 1922 coastal trader, Reginald M. Lifebuoy, round , cork, filled, white canvas cover with four red tabs. Text is printed in black on quarters 1 and 3. This lifebuoy once belonged to the vessel 'Reginald M' , Pt Adelaide. "REGINALD M / Pt ADELAIDE".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lifebuoy, lifesaving, ship equipment, reginald m, life rings, safety ring, life-saving buoy, ring buoy, life preserver, personal floating device, floatation device, safety equipment, coastal trader, john murch, reg webb

Melbourne Tramway & Omnibus Co. Bell Punch No. D382. A heavy nickel plated steel ticket or fare strip cancelling / registering mechanism used on Melbourne cable trams. When a fare was sold, the bell would ring advising the passenger that their fare have registered. "An ingenious device resembling in principle the ticket punch of a railway porter. It is carried by the conductor who wears pinned to his coat a 'trip-slip'. He punches this once for every fare received; the action is simultaneously registered on a dial inside the punch and bell rings to appraise the passenger of the fact. The punch is provided with a patent lock, the secret of which is known only at headquarters and effective system of check is thus secured." (" A story of the Melbourne Cable Tramway System" - page 54). Used by the MT&O and MMTB until 1922/23 when replaced by the check ticket system. Manufactured by the Railway Register Manufacturing Company. Lock code IDMA. Has "MT&O Co. ..." stamped on one side along with patent dates.Has "D 382" punched above ticket entry slot (both sides), "335" on handle, "MT&O Co." stamped on numbering registering face.trams, tramways, ticket punch, bell punch, tickets, fares, cable trams

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.

This image shows a semi-aerial view of a property along a river adjacent to Beechworth in approximately 1900. The photographer has capitalised words in the label, indicating that 'The Precipice' may have suggested a particular rather than a general vantage point to local people at the time. Although the exact location of the photograph is yet to be determined, Beechworth Gorge is popular today with hikers and nearby Mt Stanley is noted for its views. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and natural landscape in the early Twentieth Century, around the time of Australia's Federation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.Obverse: Image from The Precipice. /burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, views, landscapes, farmsteads, rivers, beechworth gorge, mt stanley, emulsion, the precipice

a) Nagaoka Record Anti-Static & Disc Guard Kit The Nagaoka STAT-10 is a record protecting agent that serves both to protect your records from static and to significantly reduce record and stylus wear. By using this product you will improve the sound that you hear from your records, but will also protect your records. The unique charge reducing formula significantly reduces the amount of static electricity present on the surface of the vinyl recording. It also reduces the irritating noise produced by the scratches present on the surface of the vinyl recording. This record protecting agent also contains a special lubricant / protecting fluid agent.This lubricant / protecting fluid reduces record wear so that your recordings are as good as new. b) 'PAROSTATIK' Disc preener -: Use while rotating record slowly on Turntable. Press gently during one or two revolutions. Dust collected on plush surface should be removed before re-use. Device has "built-in" anti-static requiring occasional moisture replacement. Remove cap from centre tube withdraw and moisten wick (when dry) with clean water and replace Always return "Parostatik" to case when not in use. Vinyl records became very popular mid 20thC and cleaners were used to preserve the audio quality of the record surface.A box containing Vinyl record cleaning equipment manufactured by a) Nagaoka Pty Ltd Japan and b) 'Parostatik' C.E Watts Pty Ltd England a ) Box : NAGAOKA / A / trademark / NAGAOKA / AUTOMATIC RECORD CLEANER / ORIGINAL BEST PRODUCTS / NAGAOKA & CO LTD. MADE IN JAPAN / AUTOMATIC / RECORD CLEANER / AUTO 1 / NAGAOKA ORIGINAL BEST PRODUCTS b) Packet ; THE / "PAROSTATIK" PATENT .... REGD./ IMPROVED / DISC PREENER / FOR PERFECT RECORD MAINTENANCE Cylinder; Watts / "PAROSTATIK" / DISC PREENER / For perfect record maintenancerecord players, music, vinyl records, moorabbin, bentleigh, cheltenham, japan, nagaoka pty ltd ,, watts c. e. pty ltd, parostatik disc preener, england

William A Ives worked in New Haven, Connecticut, and surrounding towns of Wallingford and Hamden from 1868 to 1917 and was a prolific inventor of braces and other wood boring tools between 1868 and 1884, when he received a dozen patents for these devices. William A. Ives lived in the New Haven CT area, and his first auger-making activity took place in the town of Hamden. At first in association with the Churchill family who had been manufacturing tools in the area at least as early as 1863. That firm's works had created "Augerville" in Hamden, starting earlier, possibly as early as 1830. Ives became active as part of the Hamden Manufacturing Co. until 1875 (it is thought he may also have started his own business in the interim), and the William A. Ives & amp; Co. was established by 1877. This continued, until William's death in 1888, when The Hamden Mfg. Company became its successor. Ives also registered the name "Mephisto" trademark name with the US patent office that was to be used in connection with augers, auger bits, machine bits as of June 1st, 1909, appearing on items up until at least 1922. It also appears that the trademark was licensed by the Mephisto Tool Co of Hudson New York who continued to manufacture tools under this trademark. Item is significant because its maker was the inventor of the wood auger boring bit and his patent has been used ever since on many different types of bits with little change to the original design.Auger wood screw bit W A Ives Patent Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Book outlines the requirements to be considered - chemicals, conditions re ventilation, protective clothing such as respiratory devices, gloves and eye and face protectors. An understanding of the effects of various chemical solutions. A detailed Glossary of health and safety terms is included. Alternative options for solvents etc is also given. The importance of a safety hazard audit register for hazardous substances is detailed. Glued and cloth bound book of 161 pages. Cover light fawn with black print and binding.viosh, safety and health, victorian institute of occupational safety and health, art facilities, chemicals, ventilation, safety audits, hazardous chemicals and substances, protective clothing, bob hall

A bandage is a piece of material used either to support a medical device such as a dressing or splint, or on its own to provide support to the body; it can also be used to restrict a part of the body. G. J. Coles opened the 'Coles Variety Store' on 9 April 1914 on Smith Street in the Melbourne, Victoria suburb of Collingwood. Further expansion occurred and Coles' interest in food retailing was spurred in 1958 when it acquired 54 John Connell Dickins grocery stores. It then acquired the Beilby's chain in South Australia in 1959 and 265 Matthews Thompson grocery stores in New South Wales in 1960 .In 1960, the first supermarket was opened in the Melbourne suburb Balwyn North, at the corner of Burke and Doncaster Roads where a modernised version continues to operate. By 1973, Coles had established stores in all Australian capital cities. From 1962, its supermarkets were branded Coles New World with accompanying rocket imagery. In 1991, the stores were re-branded Coles Supermarkets and from 1998, simply as Coles. George James (G. J.) Coles learned the retail trade working for his father's 'Coles Store' business from 1910 to 1913. The store continued operating as "The Original Coles" at Wilmot, Tasmania until it was destroyed by a fire on 24 January 2014. An unused, 1 inch ( 2.5cm ) x 6 yards ( 2metres) cotton, ‘open wove’ bandage in a cellophane wrapper sold by G.J. Coles Pty Ltd Variety StoresCellophane wrapper top: WHITE OPEN WOVE / BANDAGE / 1 X 6 YDS. / SPECIAL QUALITY / G.J.COLES * pharmacy, medicines, bandages, wounds, early settlers, market gardeners, moorabbin, bentleigh, cheltenham, cotton, gauze, coles g j pty ltd., variety stores, supermarkets, smith street collingwood, retailers, shops

This representative example demonstrates a mariner’s astrolabe. Historical examples are rare. There are less than one hundred known to exist and most of these have been recovered from shipwrecks, many from Spanish and Portuguese vessels. An astrolabe is a measuring device once used to navigate the seas by observing the sun and stars to measure their altitude. The measurement of altitude could then be used to calculate the ship’s latitude but at that time in history there was no means of measuring longitude. The body of the navigational astrolabe was cast brass and much heavier, and less complicated than the variety used on land. The heavier weight and cut-away shape reduced the effect of the wind and waves when trying to use it at sea. A mariner’s astrolabe or ‘star finder’ is a simplified version than that used by Arabic astronomers to find the altitude of the sun and stars above the horizon, and time of the sunrise and sunset. It is a forerunner to the quadrant, octant and sextant and was popular for about 200 years over the 1500s and 1600s to find the latitude of a ship at sea. The user held the astrolabe at eye level and, usually with assistance, aligned the stars through the two small sights (pinnules), then read the altitude indicated by the pointer on the arm. It could also be used to sight the sun by holding it lower down, aiming it at the sun, and adjusting it until the sun shone through both pinnules. This astrolabe is an example used to demonstrate the mariner’s astrolabe, which was navigational tool of the 1500s and 1600s, in the time before longitude was able to be determined. It is a forerunner to modern navigation technology. Mariner’s astrolabe – a representative example. A gold painted, disc shaped object with cut outs and revolving arm in centre. The arm has two sights attached at right angles. The top has a ring attached. Measurements are marked in degrees in a circular scale around outer edge.flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, navigation instrument, navigation tool, navigation, astrolabe, mariner’s astrolabe, measure latitude, measure altitude, arabic navigation, measuring device, star finder, astronomy, marine tool, marine instrument

Train Instrument transportation Box used for the transporting of Flaman Speed Indicator and Recorder to the repair workshops The Flaman Speed Indicator and Recorder was a device patented in 1901 by Nicolas Charles Eugène Flaman of France for indicating the current speed of a vehicle (for example a railway locomotive) and recording it on a paper tape that could be unrolled and examined at the end of a run to provide evidence of the speeds attained on the journey. Design features: The paper tape recording was driven directly by the wheels of the locomotive, with the paper spool moving at a fixed rate per kilometre travelled. Three graphs were recorded, the first being time elapsed (with the trace moving vertically if the train was stationary), the second being a speed curve. and the third recording the driver's attentiveness to signals ("Vigilance") by marking one tick above a line when the driver depressed a button, and another below the line when the engine went over the signal ramp. Data recorded: Read together, it was possible to determine exactly what speed the locomotive had been travelling at any point in time or distance. As well as allowing study of locomotive performance, it also allowed greater scrutiny of the observance of the driver of speed restrictions along the line and attentiveness to signals. It was practice on some railways such as the Victorian Railways in Australia for the driver to sign the speed chart prior to departure.Historic - Victorian Railways - Train Instrument transportation Box for the transporting of Flaman Speed Indicator and Recorder to the repair workshopsLarge wooden box with wrought iron fittings, painted black with white lettering on side panels. RETURN TO / TOOL ROOM / NEWPORTpuffing billy, train instrument transportation box, victorian railways, flaman speed indicator and recorder

Bushfire behaviour is influenced by many factors including temperature, relative humidity (RH), forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), as well as fire size, shape and direction. Temperature and relative humidity have major impacts on fuel dryness and therefore upon the availability of fuel for combustion. The amount of fine fuel available can increase rapidly from nearly zero when fuel moisture content is more than 16% after rain or a heavy morning dew, to many tonnes per hectare as fuel dries out later in the day and the moisture content drops below 9%. This explosive escalation in the amount of available fuel can happen over a few hours on hot and windy days. This device is used for determining air temperature and relative humidity. It contains two thermometers, one of which is covered with a wick saturated with ambient temperature liquid water. These two thermometers are called dry bulb and wet bulb. Once the thermometers to reach equilibrium temperatures the two thermometers are quickly read. The figures are then used to convert the dry bulb temperature TDB and the wet bulb temperature TWB into humidity information. The wet bulb temperature is approximately equal to the adiabatic saturation temperature. Relative humidity meter in wooden box two stainless steel tubes contain wet and dry thermometers A small clock drives a fan motor in the base to circulate airforests commission victoria (fcv), weather, bushfire

Henry Beater Christian (1886-1962) , was a descendant of one of the earliest settler families in Kew. Employed at the Kew Asylum as a 'public servant', he was a skilled amateur photographer, photographing numerous scenes in Kew and on his travels around Victoria. The majority of his photographs date from 1916 to 1929. His finest photographs are housed in two photograph albums. Digital copy of a photograph from page 17 of the 47-page photograph album containing 261 gelatinous silver images, loaned by Diane Washfold with permission given to digitise and hold a copy in our collection. This photograph, dating from c.1926, forms part of a group of photos preceding images of [Black] Spur, so the photographs may have been taken as part of that bushwalking trip. John Chapman has written in 'Bushwalking Clubs - A Brief History', about the establishment in Victoria of the first bushwalking club in 1888, and the popularisation of bushwalking during the interwar period. Henry Christian's 'walks' appear to have been undertaken solely or with a companion/s. This camera shot invites the viewer to access the landscape through the point-of-view of the man standing with his back to the camera at the edge of the road. The man holds leaves in his left hand [to deter insects], and has a knapsack on his back. The landscape in the distance includes both cleared land for farming and remnant vegetation. The oval framing device was used when Henry Christian developed the photo.Illegible ink inscription on pagehenry beater christian (1886-1962), landscape photography, kew (vic.) — yarra river, christian-washfold collection, photograph albums, bushwalking -- victoria

Large paper document including colour illustrations of Melbourne Harbor Trust shield and other shields. Includes three wax seals attached to document with blue ribbon."To All and Singular to whom these presents shall come, Sire Anthony Richard Wagner/ Knight Commander of the Royal Victorian Order Garter Principal King of Arms. Sir John Lunamace Heaton Arm/ Strong Knight, Member of the Royal Victorian Order. Clarenceux King of Arms an Aubrey John Toppin Esquire/ Commander of the Royal Victorian Order. Norroy and Ulster King of Arms Send Greeting! Whereas Victor/ George Swanson. Esquire upon whom has been conferred the Australian Efficiency Decoration Chairman of the Melbourne Harbor/ Trust Commissioners hath represented unto The Most Noble Bernard Marmaduke, Duke of Norfolk, Knight of the Most/ Noble Order of the Garter Knight Grand Cress of the Royal Victorian Order, Earl Marshal and Hereditary Marshal of/ England and one of Her Majesty's Most Honourable Privy Council that the Melbourne Harbor Trust Commissioners is a body/ corporate with perpetual succession and a Common Seal duly constituted by Act of Legislature of the Colony of Victoria number/ DLII bearing date Twenty second day of December 1876 the said Act having been amended from time to time and various Acts passed consolidating such amendments that under the said/ Act the exclusive management and control of the port and the preservation and improvement of the port generally as vested in the said Commissioners. That the Melbourne Harbour Trust/ Commissioners being desirous of having Armorial Bearings, Supporters and a Device or Badge duly assigned under lawful authority and he hath therefore requested the favour of His Grace's/ Warrant for Ouigranting and assigning such Armorial Ensigns and in the same Patent such Supporters and such Device or Badge as may be proper to be borne and used by the Melbourne/ Harbor Trust Commissioners on Seals otherwise accoding to the Laws of Arms. And forasmuch as the said Earl Marshal did by warrant under his hand and Seal bearing date the Sev-/ enth day of March 1962 authorize and direct Us to grant and assign such Armorial Ensigns and such Supporters and such Device or Badge Accordingly. Know ye therefore that we/ the said Garter Clarenceux and Norroy and Ulster in pursuance of His Grace's warrant and by virtue of the Letters of Patent of Our several offices to each of us respectively granted do/ by these Presents grant and assign unto the Melbourne Harbor Trust Commissioners the Arms following that is to say: Azure a representation of the constellation of the Southern Cross/ Argent on a Chief enarched on five Pallets of the first. And for the Crest Out of a Coronet composed of eight Masts each with sail set and upon Rim Or in front of a Bollard proper/ two Anchors in saltire Azure Mantled figure doubled Argent as the same are in the margin here of more plainly depicted. And by the Authority aforesaid We do/ further grant and assign the following Device or Badge that is to say: Two Anchors in saltire Argent as here depicted And by the Authority aforesaid the said Garter/ do by these Presents further grant and assign unto the Melbourne Harbor Trust Commissioners the Supporters following that is to say : On either side a Sea Horse/ (Hippocampus) or collared and lined Gules in front of a representation of the Melbourne Harbour front proper as the same are also in the margins here of more/ arms plainly depicted the whole to be borne and used forever hereafter by the Melbourne Harbour Trust Commissioners on seals otherwise according to the laws of/ Arms. In witness whereof we the said Garter Clarenceux and a Norroy and Ulster Kings of Arms have to these presents subscribed Our names and affixed the seals/ Of our Several offices this fith day of March in the Twelfth Year of the reign of our Soveriegn Lady Elizabeth the Second by the Grace of God of the United Kingdom of Great/ Britain and Northern Ireland and of Her other Realms and Territories Queen head of the Commonwealth Defender of the Faith and in the years of Our Lord One Thousand nine/ hundred and sixty three" "Prosperity Through Service"

Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry. The first phonograph cylinders were manufactured in 1888, followed by Edison's foundation of the Edison Phonograph Company in the same year. The recorded wax cylinders, later replaced by Blue Amberol cylinders, and vertical-cut Diamond Discs, were manufactured by Edison's National Phonograph Company from 1896 on, reorganized as Thomas A. Edison, Inc. in 1911. Until 1910 the recordings did not carry the names of the artists. The company began to lag behind its rivals in the 1920s, both technically and in the popularity of its artists, and halted production of recordings in 1929. Thomas A. Edison invented the phonograph, the first device for recording and playing back sound, in 1877. After patenting the invention and benefiting from the publicity and acclaim it received, Edison and his laboratory turned their attention to the commercial development of electric lighting, playing no further role in the development of the phonograph for nearly a decade. Start of the Recording Industry: In 1887, Edison turned his attention back to improving the phonograph and the phonograph cylinder. The following year, the Edison company introduced the ”Perfected Phonograph”. Edison introduced wax cylinders approximately 4+1⁄4 inches (11 cm) long and 2+1⁄4 inches (5.7 cm) in external diameter, which became the industry standard. They had a maximum playing time of about 3 minutes at 120 RPM, but around the turn of the century the standard speed was increased to (first 144) and then 160 RPM to improve clarity and volume, reducing the maximum to about 2 minutes and 15 seconds. Several experimental wax cylinder recordings of music and speech made in 1888 still exist. The wax entertainment cylinder made its commercial debut in 1889 at first, the only customers were entrepreneurs who installed nickel-in-the-slot phonographs in amusement arcades, saloons and other public places. At that time, a phonograph cost the equivalent of several months' wages for the average worker and was driven by an electric motor powered by hazardous, high-maintenance wet cell batteries. After more affordable spring-motor-driven phonographs designed for home use were introduced in 1895, the industry of producing recorded entertainment cylinders for sale to the general public began in earnest. Blank records were an important part of the business early on. Most phonographs had or could be fitted with attachments for the users to make their own recordings. One important early use, in line with the original term for a phonograph as a "talking machine", was in business for recording dictation. Attachments were added to facilitate starting, stopping, and skipping back the recording for dictation and playback by stenographers. The business phonograph eventually evolved into a separate device from the home entertainment phonograph. Edison's brand of business phonograph was called the Ediphone. The collection of three phonograph cylinders are an example of early recorded music use for domestic entertainment. They are significant as they represent the beginnings of the modern recording industry.Cardboard tube-shaped gramophone cylinder box with lid. The printed label on the outside of the box advertises the maker and patent details. The Catalogue Number and Title are either printed or hand written on the cylinder’s lid. This cylinder contained Record no. 49, “B & H Jack” and was made at the Edison Laboratory USA. C. 1905On lid “Edison Record No. 49”, written in pencil “B & H Jack” (it looks like this) On cylinder “EDISON GOLD MOULDED RECORDS ECHO ALL OVER THE WORLD” Patents listed for 1904 & 1905warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, gramophone record, gramophone cylinder, edison cylinder, edison record, home entertainment, music recording, edison laboratory orange nj, usa, national phonograph company of australia ltd sydney, thomas a. edison

Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry. The first phonograph cylinders were manufactured in 1888, followed by Edison's foundation of the Edison Phonograph Company in the same year. The recorded wax cylinders, later replaced by Blue Amberol cylinders, and vertical-cut Diamond Discs, were manufactured by Edison's National Phonograph Company from 1896 on, reorganized as Thomas A. Edison, Inc. in 1911. Until 1910 the recordings did not carry the names of the artists. The company began to lag behind its rivals in the 1920s, both technically and in the popularity of its artists, and halted production of recordings in 1929. Thomas A. Edison invented the phonograph, the first device for recording and playing back sound, in 1877. After patenting the invention and benefiting from the publicity and acclaim it received, Edison and his laboratory turned their attention to the commercial development of electric lighting, playing no further role in the development of the phonograph for nearly a decade. Start of the Recording Industry: In 1887, Edison turned his attention back to improving the phonograph and the phonograph cylinder. The following year, the Edison company introduced the ”Perfected Phonograph”. Edison introduced wax cylinders approximately 4+1⁄4 inches (11 cm) long and 2+1⁄4 inches (5.7 cm) in external diameter, which became the industry standard. They had a maximum playing time of about 3 minutes at 120 RPM, but around the turn of the century the standard speed was increased to (first 144) and then 160 RPM to improve clarity and volume, reducing the maximum to about 2 minutes and 15 seconds. Several experimental wax cylinder recordings of music and speech made in 1888 still exist. The wax entertainment cylinder made its commercial debut in 1889 at first, the only customers were entrepreneurs who installed nickel-in-the-slot phonographs in amusement arcades, saloons and other public places. At that time, a phonograph cost the equivalent of several months' wages for the average worker and was driven by an electric motor powered by hazardous, high-maintenance wet cell batteries. After more affordable spring-motor-driven phonographs designed for home use were introduced in 1895, the industry of producing recorded entertainment cylinders for sale to the general public began in earnest. Blank records were an important part of the business early on. Most phonographs had or could be fitted with attachments for the users to make their own recordings. One important early use, in line with the original term for a phonograph as a "talking machine", was in business for recording dictation. Attachments were added to facilitate starting, stopping, and skipping back the recording for dictation and playback by stenographers. The business phonograph eventually evolved into a separate device from the home entertainment phonograph. Edison's brand of business phonograph was called the Ediphone. The collection of three phonograph cylinders are an example of early recorded music use for domestic entertainment. They are significant as they represent the beginnings of the modern recording industry.Cardboard tube-shaped gramophone cylinder box with lid. The printed label on the outside of the box advertises the maker and patent details. The Catalogue Number and Title are either printed or hand written on the cylinder’s lid. This cylinder contained Record no. 13619, the recording “Poor old England” published by Castling and Godfrey, sung by Billy Williams. Made by National Phonograph Company USA. C.1907On lid “Edison Record” and “This record should turn at 160 revolutions per minute, no faster” Written on lid in blue pen “Trumpet”, “EDISON AMBEROL RECORD / FOUR MINUTE”warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, gramophone record, gramophone cylinder, edison cylinder, edison record, home entertainment, music recording, edison laboratory orange nj, usa, national phonograph company of australia ltd sydney, thomas a. edison

Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry. The first phonograph cylinders were manufactured in 1888, followed by Edison's foundation of the Edison Phonograph Company in the same year. The recorded wax cylinders, later replaced by Blue Amberol cylinders, and vertical-cut Diamond Discs, were manufactured by Edison's National Phonograph Company from 1896 on, reorganized as Thomas A. Edison, Inc. in 1911. Until 1910 the recordings did not carry the names of the artists. The company began to lag behind its rivals in the 1920s, both technically and in the popularity of its artists, and halted production of recordings in 1929. Thomas A. Edison invented the phonograph, the first device for recording and playing back sound, in 1877. After patenting the invention and benefiting from the publicity and acclaim it received, Edison and his laboratory turned their attention to the commercial development of electric lighting, playing no further role in the development of the phonograph for nearly a decade. Start of the Recording Industry: In 1887, Edison turned his attention back to improving the phonograph and the phonograph cylinder. The following year, the Edison company introduced the ”Perfected Phonograph”. Edison introduced wax cylinders approximately 4+1⁄4 inches (11 cm) long and 2+1⁄4 inches (5.7 cm) in external diameter, which became the industry standard. They had a maximum playing time of about 3 minutes at 120 RPM, but around the turn of the century the standard speed was increased to (first 144) and then 160 RPM to improve clarity and volume, reducing the maximum to about 2 minutes and 15 seconds. Several experimental wax cylinder recordings of music and speech made in 1888 still exist. The wax entertainment cylinder made its commercial debut in 1889 at first, the only customers were entrepreneurs who installed nickel-in-the-slot phonographs in amusement arcades, saloons and other public places. At that time, a phonograph cost the equivalent of several months' wages for the average worker and was driven by an electric motor powered by hazardous, high-maintenance wet cell batteries. After more affordable spring-motor-driven phonographs designed for home use were introduced in 1895, the industry of producing recorded entertainment cylinders for sale to the general public began in earnest. Blank records were an important part of the business early on. Most phonographs had or could be fitted with attachments for the users to make their own recordings. One important early use, in line with the original term for a phonograph as a "talking machine", was in business for recording dictation. Attachments were added to facilitate starting, stopping, and skipping back the recording for dictation and playback by stenographers. The business phonograph eventually evolved into a separate device from the home entertainment phonograph. Edison's brand of business phonograph was called the Ediphone. The collection of three phonograph cylinders are an example of early recorded music use for domestic entertainment. They are significant as they represent the beginnings of the modern recording industry.Cardboard tube-shaped gramophone cylinder box with lid. The printed label on the outside of the box advertises the maker and patent details. The Catalogue Number and Title are either printed or hand written on the cylinder’s lid. This cylinder was made by Edison 1908 and contains Record number 53 by Sandy McNab. c. 1908On label “Edison Record No. 53, Sandy McNab" and "Form no. 1130, April 1908. Patented December 6 1904, No. 2109, and December 6 1904 No. 2110. “This record is sold by the National Phonograph Company of Australia Ltd, at Sydney Australia.” Trade Mark Thomas A. Edison warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, gramophone record, gramophone cylinder, edison cylinder, edison record, home entertainment, music recording, edison laboratory orange nj, usa, national phonograph company of australia ltd sydney, thomas a. edison

This image shows a pathway in the gardens adjacent to Beechworth's Town Hall at the beginning of the Twentieth Century, around the time of Australia's Federation. The pathway leading to a circular rotunda or covered seating area with a steep conical roof is lined with shrubs set in grass verges that appear to be covered with snow. It is unknown whether the snowfall or a factor to do with the gardens occasioned the taking of the image, which at the time may have been an exotic practice. Climate records going back to 1908 indicate that snow in winter is not unusual due to Beechworth's elevation and orientation, and the Town Hall itself was built in 1859. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques. This glass slide is significant because it provides insight into Beechworth's social amenities and climate in the early Twentieth Century, around the time of Australia's Federation into one nation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period. Thin translucent sheet of glass with a circular image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, town hall, town hall gardens, snow, rotunda, magic lantern, indigo shire, north-east victoria, nineteenth century, 1900s, twentieth century, emulsion slides

This image shows the gorge adjacent to Beechworth in approximately 1900. Although the exact location of the photograph is yet to be determined, the present-day Beechworth Gorge Walk includes views of the Cascades at the point at which Spring Creek flows into the valley on the level below. Gold-sluicing techniques in use in the town during periods of active gold extraction may have altered the landscape since the photograph was taken, however. In the 1850s a mill was built at the top of the Spring Creek falls by Russian-born Louis Chevalier, brother of artist Nicholas Chevalier. The mill supplied the town with lumber that supported the town's initial construction boom. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and natural landscape in the early Twentieth Century, around the time of Australia's Federation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, indigo shire, north-east victoria, spring creek falls, beechworth gorge, louis chevalier, nicholas chevalier, lumber industry, timber industry, 1850s, construction, building, mill, mills, waterfall

This image shows the gorge adjacent to Beechworth in approximately 1900. Although the exact location of the photograph is yet to be determined, the present-day Beechworth Gorge Walk includes views of the Cascades at the point at which Spring Creek flows into the valley on the level below. Gold-sluicing techniques in use in the town during periods of active gold extraction may have altered the landscape since the photograph was taken, however. In the 1850s a mill was built at the top of the Spring Creek falls by Russian-born Louis Chevalier, brother of artist Nicholas Chevalier. The mill supplied the town with lumber that supported the town's initial construction boom. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and natural landscape in the early Twentieth Century, around the time of Australia's Federation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, beechworth gorge, indigo shire, landscapes, mill, sluicing, gold mining, north-east victoria, spring creek, louis chevalier, cascades

The basic balance scale has been around for thousands of years and its accuracy has improved dramatically over the last several centuries, the principle behind this tool remains unchanged. Its parts include a fulcrum, a beam that balances on it, a pan at the end of the beam to hold the materials to be weighed, and a flat platform at the other for the counter-balancing weights. Balance scales that require equal weights on each side of the fulcrum have been used by everyone from apothecaries and assayers to jewellers and postal workers. Known as an unequal arm balance scale, this variety builds the counterweight into the device. Counter scales used in dry-goods stores and domestic kitchens often featured Japanned or (blackened) cast iron with bronze trims. Made by companies such as Howe and Fairbanks, the footed tin pans of these scales were often oblong, some encircled at one end so bulk items could be easily poured into a bag. Seamless pans were typically stamped from brass and given style names like Snuff (the smallest) and Birmingham (the largest). Some counter scales were designed for measuring spices, others for weighing slices of cake. In the 18th century, spring scales began to appear and would use the resistance of spring to calculate weights, which are read automatically on the scale’s face. The ease of use of spring scales over balance scales. These scales are significant as they identify one of the basic preparation items for the weighing of foodstuff in the family kitchen to prepare everyday meals. This item is significant as it gives a snapshot into domestic life within the average home in Australia around the turn of the twentieth century and is, therefore, an item with social relevance. Black cast iron, medium weighing scales, with a fulcrum which the beam that balances on, there is a scoop or large bowl at one end for the material to be weighted and a flat platform at the other end that holds the weights. Around the cast iron base is an embossed strip weight and bowl missing.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village