This small case is lined with a metal insert and shows remnants of a carry strap. It could have been used for storing and carrying fuses or cartridges for the life saving Rocket Launcher machine. The protective metal insert would help keep the contents dry or cool and protect from flame. It is part of the collection of rescue equipment in the Rocket House used by the life saving rescue crew. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - Rocket rescue became the preferred lifesaving method of the rescue crews, being much safer that using a lifeboat in rough seas and poor conditions. The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. . The British Board of Trade regularly published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle, determined by the Head of the crew and measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A continuous whip line was then sent out to the ship’s crew, who hauled it in then followed the instructions – in four languages - on the attached tally board. The survivors would haul on the line to bring out the heavier, continuous whip line with a tail block connected to it. They then secured the block to the mast or other strong part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the survivors fixed above the whip’s tail block. The hawser was then tightened by the crew pulling on it, or by using the hooked block on the shore end of the whip and attaching it to a sand anchor. The breeches buoy was attached to the traveller block on the hawser, and the shore crew then used the whip line to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. The rescue crew wore scarlet, numbered armbands and worked on a numerical rotation system, swapping members out to rest them. This small leather carrying case is significant for its connection with the rocket rescue equipment, local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Leather case, brown with contrasting stitching, protective metal insert divided into two compartments. Rectangular shape. Roller buckle on front with remnants of the matching strap. Also remnants of a leather strap on the side, possibly a shoulder strap.flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, maritime accidents, shipwreck victim, rocket equipment, marine technology, rescue boat, lifeboat, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, rocket rescue method, shore to ship, rocket apparatus rescue, stranded vessel, line throwing mortar, mortar, rocket rescue apparatus, line thrower, line throwing, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, line throwing cartridge, l.s.r.c., lsrc, leather case, cartridge case, fuse case, ammunition case

Members of the Life Saving Rescue Crew would wear scarlet arm bands such as these as part of their uniform, with each member having a different number. The crew would work as a team to haul in the victims of the shipwreck. The leader of the crew would call out one or several member's numbers to give them a break during the rescue, while other members took their place. All members would then be relieved at some time during the rescue. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - Rocket rescue became the preferred lifesaving method of the rescue crews, being much safer that using a lifeboat in rough seas and poor conditions. The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. . The British Board of Trade regularly published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle, determined by the Head of the crew and measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A continuous whip line was then sent out to the ship’s crew, who hauled it in then followed the instructions – in four languages - on the attached tally board. The survivors would haul on the line to bring out the heavier, continuous whip line with a tail block connected to it. They then secured the block to the mast or other strong part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the survivors fixed above the whip’s tail block. The hawser was then tightened by the crew pulling on it, or by using the hooked block on the shore end of the whip and attaching it to a sand anchor. The breeches buoy was attached to the traveller block on the hawser, and the shore crew then used the whip line to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. The rescue crew wore scarlet, numbered armbands and worked on a numerical rotation system, swapping members out to rest them. This set of scarlet arm bands is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Arm bands; three scarlet flannel arm bands with black cotton backing and a metal buckle on one end. White cotton embroidery forms letters and numbers, with each arm band having a different number. Part of the uniform of the Life Saving and Rescue Crew.Embroidered on front "L.S. 1 R.C." "L.S. 8 R.C." "L.S. 13 R.C." flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, breakwater, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, maritime accidents, shipwreck victim, rocket equipment, marine technology, rescue boat, lifeboat, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, rocket rescue method, shore to ship, rocket apparatus rescue, stranded vessel, line throwing mortar, mortar, rocket rescue apparatus, line thrower, line throwing, lifeboat warrnambool, arm band, armband, scarlet arm band, l.s.r.c., lsrc, red arm band

The boards each have instructions adhered to each side, printed in four languages (English, French, Dutch and German). At the beginning of a shore-to-ship rescue the instructions are sent to the distressed vessel after the first rocket line was received by them. The stranded people on the vessel follow the instructions to assist the life saving rescue crew in saving their lives. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - Rocket rescue became the preferred lifesaving method of the rescue crews, being much safer that using a lifeboat in rough seas and poor conditions. The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. . The British Board of Trade regularly published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle, determined by the Head of the crew and measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A continuous whip line was then sent out to the ship’s crew, who hauled it in then followed the instructions – in four languages - on the attached tally board. The survivors would haul on the line to bring out the heavier, continuous whip line with a tail block connected to it. They then secured the block to the mast or other strong part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the survivors fixed above the whip’s tail block. The hawser was then tightened by the crew pulling on it, or by using the hooked block on the shore end of the whip and attaching it to a sand anchor. The breeches buoy was attached to the traveller block on the hawser, and the shore crew then used the whip line to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. The rescue crew wore scarlet, numbered armbands and worked on a numerical rotation system, swapping members out to rest themThis pair of tally board is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Tally boards, two, rectangular wooden boards, both with a hole drilled into one short end. Instructions are glued onto the boards. They were printed in light letters onto dark canvas in four languages (English, French, Dutch and German). Text (English) "MAKE THIS HAWSER FAST ABOUT 2 FEET ABOVE THE TAIL BLOCK. CAST OFF WHIP FROM HAWSER. SEE ALL CLEAR AND THAT THE ROPE IN THE BLOCK RUNS FREE, AND SHOW SIGNAL TO THE SHORE."flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, breakwater, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, maritime accidents, shipwreck victim, rocket equipment, marine technology, rescue boat, lifeboat, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, rocket rescue method, shore to ship, rocket apparatus rescue, stranded vessel, line throwing mortar, mortar, rocket rescue apparatus, line thrower, line throwing, lifeboat warrnambool, beach apparatus, rocket machine, rocket head, rocket launcher, rocket line, beach rescue set, rocket set, tally board, rescue instructions

Auction for a sale of Mining Machinery, Buildings and Equipment of the Exchequer Extended Gold Mine, Daylesford, under instructions from Mr. H. A. M. Bromfield, Legal Manager, Vincent Street, Daylesford on the 12th August, 1941. J. H. Curnow & Son were the auctioneers.business, auctioneers, j h curnow & son pty ltd, ian dyett collection - auction catalogue - exchequer extended gold mine, mr h a m bromfield, the cambridge press

This image shows an unknown location in the area of Beechworth that was possibly used as a sluicing mining site for gold during the Victorian Gold Rush. This era saw an influx of Chinese immigrants and Australian prospectors hoping to strike it rich on the fields. Many companies such as the Rocky Mountain Extended Gold Sluicing Company Ltd and the Cocks Pioneer Gold &Tin Sluicing Company also set up mines in the area. This site may be the location of one of these company's mines. The wooden logs are reminiscent of known sluicing operations in the era from that time. Sluicing involved the use of high-pressured hoses to clear away soil from earth that had been dug up by miners and was a popular method of excavation in the area, although it had severe impacts on the environment.The search for gold is ingrained into the history of Victoria and therefore, images like this one which portray an open cut sluicing site can reveal important information for society and technology for the date when the photograph was taken. This image is of important historical significance for its ability to convey information about sluicing and the methods used to find gold. It also shows a location where sluicing was undertook which provides insight into the impact of sluicing on the environment at a time when it was done.A colour rectangular photograph printed on glossy photographic paperReverse: 6855 /beechworth, gold rush, sluicing, mining

Parke-Davis was founded in Detroit, Michigan by Dr. Samuel P. Duffield, a physician and pharmacist. A partnership of Dr. Duffield and Hervey Coke Parke was formed in 1866, with George S. Davis becoming a third partner in 1867. Duffield withdrew in 1869, and the name Parke, Davis & Company was formally adopted in 1871, being incorporated in 1875. It was once the world's largest pharmaceutical company, and is credited with building the first modern pharmaceutical laboratory and developing the first systematic methods of performing clinical trials of new medications. Parke-Davis was acquired by Warner-Lambert in 1970, which in turn was bought by Pfizer in 2000 This is an oral rapid- and short-acting anti-diabetic drug from the sulfonylurea class used in treatment of Type 2 Diabetes.A brown glass bottle with a metal screw top and 1ml glass dropper, in original box , for GlucothricilFront Label & Box : GLUCOTHRICIL / POISON / ISOTONIC SOLUTION OF EPHEDRINE / AND TYROTHECIN / CONTAINS ............ / PARKE-DAVIS & CO. . LTD. / SYDNEYpharmacy, medicines, glucothricil, athritis, glassware, bottles, moorabbin, bentleigh, cheltenham, parke-davis pty ltd., michigan, united states america

Rosalie Triolo presented Our Schools and the War as Ringwood and District Historical Society guest speaker - June, 2022. Dr Rosalie Triolo is the History Method lecturer in the Faculty of Education at Monash University and is active as a writer and presenter in state and national History Education communities. She taught for 13 years in country and metropolitan Victorian government secondary schools, and has been involved for 30 years with the History Teachers’ Association of Victoria. She p[resents regularly to academic and general audiences on different aspects of the Great War and Australian education, and has led battlefield tours for History teachers as well as Australian History fellowships for student-teachers. The doctorate on which this book is based was awarded a Monash University Mollie Holman medal.Soft cover book detailing how The Great War profoundly touched the lives of Australian teachers, school children, and local communities.Handwritten inscription - For RDHS, Congratulations on all you are doing so well. Sincerely, Rosalie Triolo, June 2022.

37 pages of text with cardboard covernon-fictionBackground and overview of the establishment and work of the Association for the Blindassociation for the blind, association for the advancement of the blind

This electroplated silver teaspoon was made by the Sheffield Silver Plate & Cutlery Company Limited from about 1913 to early-1930s. It was recovered from an unknown shipwreck in the coastal waters of Victoria in the late 1960s to early 1970s. The shipwrecks in the area range from around the 1840s to the early-1930s. It is part of the John Chance Collection. Sheffield manufactures produced high quality silverware products. In the mid-1700s a cutler, Thomas Boulsover, invented a process to fuse copper between two sheets of silver, which could still be like solid silver then the edges were bound in silver. Items made this way are now referred to as Old Silver Plate. The modern method of electroplating has a much thinner layer of silver. The firm Sheffield Silver Plate and Cutlery Co. Ltd. was established in 1913 by Mappin & Webb to make spoons and forks using the American Wilzin process, which was a failure. In 1923 the company was incorporated then re-financed and reverted back to the older production method for electroplating. The maker’s stamp usually had the letters “S.S.P. & C. Co Ltd EPNS” and often included an octagon stamp with “SSP”. The firm had the registered trademarks of ‘SILCUTA’ and ‘SILTONA’ and has also used the name ‘Sheffield Nickel & Silver Plating Co. Ltd.’ The firm had manufacturing Works at Priestley Street, Sheffield from 1913 until the 1960s. They also had a London office in 1919 at Atlantic House, 40a Holborn Viaduct, London, E.C.1., then in 1921 at Union Bank Buildings, Charterhouse Street, E.C.1. The company was dissolved in 2000, the last office address being 23 Albemarle Street London, W1S 4AS. Although this spoon is not linked to a particular shipwreck, it is recognised as being historically significant as an example of cutlery, possibly from a passenger’s luggage or imported for use in Colonial Victoria in the 19th to early 20th century. The spoon is the only example in Flagstaff Hill’s collection that is connected to the manufacturer Sheffield Silver Plate and Cutlery Co. Ltd., historically significant also, as in 1939 the same manufacturer was a recognised supplier to the British Government. The spoon is also significant as it was recovered by John Chance, a diver in Victoria’s coastal waters in the late 1960s to early 1970s. Items that come from several wrecks have since been donated to the Flagstaff Hill Maritime Village’s museum collection by his family, illustrating this item’s level of historical value.Spoon; teaspoon, nickel plated silver, discoloured to brown. Old English design. Inscription on handle. Made by Sheffield Silver Plate & Cutlery Co Ltd., Sheffield. Spoon has dimpled surface, nicks and dents. Embossed logo within sunken elongated octagon [SSP] Embossed letters following logo, “S S P C & CO LTD EP/NS” flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, shipwreck artefact, john chance, sheffield, cutlery, eating utensils, electroplate, silver plate, silverware, flatware, antique flatware, old english flatware pattern, spoon, teaspoon, silver flatware, dining, silver plated, epnns, sheffield silver plater & cutlery, ssp, ssp & c co ltd, 20th century silverware

Auction catalogue with cream cover and black printing of Mining Machinery and Equipment of The Golden Duke Gold Mining Co. (Blackwood) N. L. on 20th October, 1938. Catalogue has columns for £, s & d down the right side of the page. Items include tools, portable steam engine, Stamper Battery, pump, buildings and poppet legs. J H Curnow & Son were the auctioneers.business, auctioneers, j h curnow & son pty ltd, ian dyett collection - auction catalogue - the golden duke gold mining co (blackwood) n. l., j h curnow & son

150 years of experience and commitment. Norwegians have been producing and exporting cod liver oil for more than 1000 years. But it was not before 1645 it was reported that cod liver oil could be used to prevent and cure disease. At the end of the 18th century the first scientific article was published to support this. In the middle of the 19th century, the pharmacist Peter Möller observed that people along the west coast of Norway consuming cod liver oil regularly were rarely ill. He dedicated himself to finding out how this healthy liquid could be produced with better taste and pureness at a lower price. He developed a method of using steam to extract the oil from fresh cod livers. Based on this technological advance, the company Peter Möller was founded in 1854 in Lofoten on Norway’s arctic coast, where you find pure, cold, clean seas and high quality raw material. Peter Joachim Möller (1793-1869) At first Möller’s Cod Liver Oil was believed to be a good source of vitamin D and A, and the health benefits were associated with these vitamins. Peter Möller believed, however, that there were other significant benefits from fatty acids and other ingredients in the cod liver oil – both known and unknown. Peter Möller was dedicated to understanding more about these benefits. His dedication and commitment is clear in Möller's vision to improve people’s health by delivering the highest quality omega 3 products. Timeline 1793 Peter Möller is born in Røros, Norway 26 April. 1819 Peter Möller travels to Christiania (Oslo) and is employed by the pharmacist Frantz Peckel at the Svane chemist. He is employed on condition that he passes his pharmaceutical exam within one year. 1822 Graduated as a pharmacist with a unanimous first grade and with the award of the Professor's special satisfaction. 1842 Together with professors A. Holst and Chr. Boeck, Peter Möller participates in the commission which develops the first Norwegian Pharmacopoeia. 1853 Peter announces his method to cod liver oil works along the coast. He equips cod liver oil factories with new equipment in Lofoten, Ålesund and Kristiansund. The facility outside Ålesund is the most important for testing the method. 1854 The Peter Möller company is established as production has started at the three factories. Sales are lower than anticipated even though the quality is considerably better with the new method. The consumers of cod liver oil had been used to the fact that “good medicine must taste bad” and would not believe that the new and better quality was as healthy. Therefore, the following years are used to introduce consumers to the product, and also to convert more producers to the new method. 1869 Peter Möller dies. There are 70 cod liver oil steamers which use his steam rendering method, and 5000 barrels are produced every year. Möller’s company increases the quality by better routines for quality controls. 1870 Severin A Heyerdal, Möller’s son-in-law, assumes the leadership of the firm after Peter's death. He continues the work by improving the quality of the cod liver oil. The goal was to make it as pure and unaltered as in the liver. At this time, Möller had already started selling its product in the USA. In 1870, WH Schieffelin & Co. ("The oldest drughouse in America") was engaged by Peter Möller in the USA. 1881 Frantz Peckel Möller assumes the leadership of the Peter Möller company. He saw it as his duty to further the work on cod liver oil, and through a combination of solid scientific education and an eminent sense of the great mercantile possibilities, he made Möller’s cod liver oil the number one in the world market. 1914 The first world war leads to Möller’s bottled cod liver oil being shut out of the export market. However, domestic sales are good. 1924 The subsidiary Møystad Möller & Co. is established for bulk exports and the Association of Medicinal Cod liver oil Exporters is established in Bergen in 1925. 1925/26 The green bottles are introduced. Medicinal cod liver oil exports remain almost constant, while total Norwegian cod liver oil exports increase. 1938 The factory on the Løren grounds in Oslo, Norway is built. The factory is in the same place today. Peter Möller’s Pharmaceutical Laboratorium A/S is also established to separate out the scientific business. Investment is made in a new facility for refining and bottling veterinary cod liver oil, and increased production of industrial cod liver oil. 1940 The outbreak of the 2nd world war sees exports fall dramatically, while cod liver oil’s significance as a dietary supplement receives increased attention. Domestic sales increase strongly. 1945 After the war, medicinal cod liver oil retains its high status as an important dietary supplement in the “rebuilding" of the country. Cod liver oil becomes an ”emergency product in ravaged areas where the supply situation is difficult. Competition from other countries such as the USA, England and Iceland increases, and Norway no longer dominates the market. 1983 Möller’s cod liver oil in capsule form is launched and palatable cod liver oil is launched. 1990 Peter Möller A/S merges with Orkla Borregaard A/S (now ORKLA) 2005 Peter Möller merges with CollettPharma. The new company is called MöllerCollett. 2007 Merger between MöllerCollet and DanskDroge. The new company is called Axellus. Oval in section with a thin neck, mauve tinted clear glass bottle with text embossed on side.On side : 'P.MOLLER', 'OL JECOR', 'GADOR VER', 'CHRISTIANIA'.cod liver oil, norway, peter moller, christiana, oslo

The Mason jar, named after American tinsmith John Landis Mason, who patented it in 1858, is a molded glass jar used in home canning to preserve food. The jar's mouth has a screw thread on its outer perimeter to accept a metal ring or "band". The band, when screwed down, presses a separate stamped steel disc-shaped lid against the jar's rim. An integral rubber ring on the underside of the lid creates a hermetic seal. The bands and lids usually come with new jars, but they are also sold separately. While the bands are reusable, the lids are intended for single-use when canning. Glass jars and metal lids are still commonly used in home canning while they have been largely supplanted by other methods for commercial canning (such as tin cans and plastic containers). Item at this time cannot be associated with an historical event, person or place, provenance is unknown, item assessed as a collection asset.Clear glass preserving jar with metal screw lid grooved base for lid clip."AGEE / MASON / JAR" imprinted into side of glassflagstaff hill, warrnambool, flagstaff hill maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, jar, glass jar, preserving jar, food preserving, food storage, agee mason, agee mason jar, john landis mason

Hand shears needed to be very sharp and often had a leather strap or ‘driver’ which passed over the hand. Others had sheepskin bound around the grip. Blades had to be regularly sharpened on a grinding stone. Most hand shears were made in Sheffield, England, with various models produced offering wide or narrow blades, sharp or rounded points, and various grips and bows. The technique of Australian hand shearing gradually developed from the 1830s using the old English method of cutting the flank with hand shears in a series of circular cuts from the sheep’s neck to the tail. In the early 1930s the Ballarat School of Mines introduced a wide-ranging Wool Classing Course as jobs were in extremely short supply during the Great Depression. Metal handshears used for shearing sheep.ballarat school of mines, shearing, woolclassing, sheep

The Mason jar, named after American tinsmith John Landis Mason, who patented it in 1858, is a molded glass jar used in home canning to preserve food. The jar's mouth has a screw thread on its outer perimeter to accept a metal ring or "band". The band, when screwed down, presses a separate stamped steel disc-shaped lid against the jar's rim. An integral rubber ring on the underside of the lid creates a hermetic seal. The bands and lids usually come with new jars, but they are also sold separately. While the bands are reusable, the lids are intended for single-use when canning. Glass jars and metal lids are still commonly used in home canning while they have been largely supplanted by other methods for commercial canning (such as tin cans and plastic containers). Item at this time cannot be associated with an historical event, person or place, provenance is unknown, item assessed as a collection asset.Clear glass preserving jar "Agee Special" with metal screw lid grooved base for lid clip "AGEE Special MASON / JAR" imprinted into side of glassflagstaff hill, warrnambool, flagstaff hill maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, jar, glass jar, preserving jar, food preserving, food storage, agee mason, agee mason jar, john landis mason, agee special

The Mason jar, named after American tinsmith John Landis Mason, who patented it in 1858, is a molded glass jar used in home canning to preserve food. The jar's mouth has a screw thread on its outer perimeter to accept a metal ring or "band". The band, when screwed down, presses a separate stamped steel disc-shaped lid against the jar's rim. An integral rubber ring on the underside of the lid creates a hermetic seal. The bands and lids usually come with new jars, but they are also sold separately. While the bands are reusable, the lids are intended for single-use when canning. Glass jars and metal lids are still commonly used in home canning while they have been largely supplanted by other methods for commercial canning (such as tin cans and plastic containers). Item at this time cannot be associated with an historical event, person or place, provenance is unknown, item assessed as a collection asset.Clear glass preserving jar "Agee Special" with metal screw lid grooved base for lid clip "AGEE Special imprinted into side of glassflagstaff hill, warrnambool, flagstaff hill maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, jar, glass jar, preserving jar, food preserving, food storage, agee mason, agee mason jar, john landis mason, agee special

Since their Australian introduction in the early 20th century, public telephones have undergone several design iterations; diversifying methods of payment from coin to card, incorporating solar charging, mobile charging and Wi-fi access and of course, mitigation against vandalism. This model, a coin-operated Gold Phone, replaced the easily pilfered Red Phone and was succeeded by the Blue Phone in the 1990s. Although the prevalence of public telephones has decreased alongside the increase in mobile phone usage, public telephones remain under Telstra’s universal service obligation as vital communications infrastructure for low-income citizens and those needing to communicate in disasters. According to the Conversation, 13 million calls are made annually from public payphones, 200,000 of which are to triple zero.Orange plastic cased public payphone with button dials on face.public telephone, payphone, public services, telecom

The Cheese Factory in this image was opened around 1879 by Mr. G.G. Pearce. It was in Waddell Street. It was one of the first cheese factories in Victoria. It was later owned and operated by William Telford with the assistance of John Mahon. The factory was described in the Bacchus Marsh Express newspaper as an important business and service for the region. G.G. Pearce was reported to have spent a good deal of money in setting up the factory to ensure it was one which produced high quality cheese using modern methods of production. The factory was sold in 1889 to a Mr. H. W. King who was from Abbotsford in Melbourne. Unfortunately within a few days of Mr King buying the factory it was completely destroyed in a fire. All that was left were two large pine trees and two large underground concrete tanks.G.G. Pearce was described as a pioneer of cheese factories in Victoria. His first factory was just outside of Bacchus Marsh at Hopetoun. Around 1879 he moved into Bacchus Marsh and opened a new purpose built factory in Waddell Street. The Bacchus Marsh Express newspaper reported that no expense had been spared in constructing this factory. The factory was completely destroyed in a fire in 1889 which makes it fortunate that this image was captured of this early cheese factory in Victoria.Small sepia unframed photograph on card with gold border framing photograph. Housed in the album, 'Photographs of Bacchus Marsh and District in 1883 by Stevenson and McNicoll'. The image shows a group of men and women standing in a row in front of the Bacchus Marsh Cheese factory. One of the women is holding a small child. In front of another woman stands a young boy. Behind them is a covered wagon with a man seated upon it. Some of the men and women are wearing long aprons. In the background is the Cheese Factory. It is a large wooden structure with a high and steep pitched roof.On the front: Stevenson & McNicoll. Photo. 108 Elizabeth St. Melbourne. COPIES CAN BE OBTAINED AT ANY TIME. On the back: LIGHT & TRUTH inscribed on a banner surmounted by a representation of the rising sun. Copies of this Portrait can be had at any time by sending the Name and Post Office Money Order or Stamps for the amount of order to STEVENSON & McNICOLL LATE BENSON & STEVENSON, Photographers. 108 Elizabeth Street, MELBOURNE stevenson and mcnicoll 1883 photographs of bacchus marsh and district, cheese factories, bacchus marsh cheese factory

Part of yearly marketing and information material promoting the Falls Creek Ski School. This publication includes detailed information about the Falls Creek Snowsport School Program for 2002. An introduction by the School Director, Benny Pregenzer states "Our motto is improving our guests skiing and boarding in a fun and safe environment. The most important facets of a good instructor are patience and empathy. These are qualities that our instructors display in every lesson and together with successful teaching methods, will ensure you experience fast improvement. Our instructors are carefully selected from Australia and all over the world to provide the highest quality service possible. Have a great holiday and see you on the slopes." The brochure bears the logo of Nursing Australia, proud sponsors of the Falls Creek Snowsport School.This item is important because it documents seasonal activities at Falls Creek Snowsport School in 2002.A glossy booklet featuring images and information about programs to be offered at Falls Creek in the 2002 winter season. The front cover features a group of downhill skiers while the back cover is illustrated with an image of a female snowboarder. Coloured images are included throughout the booklet. The centre page includes a map of trails at Falls Creek.On front cover Falls Creek and the resort Logo fallscreek.com.au Snowsport Schoolfalls creek marketing, falls creek ski academy, falls creek race club, falls creek snowsport school.

Sir Frederick William Hewitt was a great advocate of nitrous oxide anaesthesia, mainly for short procedures. In 1885, he reviewed the methods of administration and concluded that accurately fitting valves were essential at the commencement of the inhalation, in order to ensure the rapid washout of air from the lungs; and there was a distinct advantage in allowing some rebreathing of nitrous oxide towards the end of inhalation. He thus devised the stopcock. The stopcock consists of a cylinder with two rotating sleeves and two rubber flap valves. The arrangement allows air to be breathed either through the valves or rebreathed to and from the bag; nitrous oxide to be breathed either through the valves from the bag and out to the atmosphere or rebreathed to and from the bag. Soon after the introduction of this stopcock, there was an increased interest in administering oxygen in combination with nitrous oxide.Amber coloured ether inhaler, with leather mask, celluloid shield and inflatable cushion with attached Hewitt's stopcock.hewitt, stopcock, celluloid, ether, inhaler, mask, rebreathing

Sidney Yankauer, M.D. (1872-1932), an ear, nose and throat specialist and pioneer in bronchoscopy, practiced at the Mount Sinai Hospital in New York. Dr. Yankauer, a prolific inventor of medical equipment, might best be known for the tube he designed for suctioning the mouth and throat. Yankauer introduced the wire-mesh anaesthesia mask around 1904. The drop method involved placing the mask over the patient’s nose and mouth, and then placing gauze over the mesh of the mask. Next, liquid anaesthetic, such as ether or chloroform, was applied in drops or lightly poured onto the gauze so that the patient breathed in evaporated anesthetic as well as air. The gutter around the base of the mask was designed to catch any residue of the harmful anaesthetic. (The Wood Library Museum, 2016; Museum of Healthcare Kingston, 2016)A metal tear-shaped mask with gauze wire dome, gutter around the base and detachable spring piece with open circular handle to secure cloth over gauze. Found inside medical carry box #899Stamped underneath neck of circular handle: HATRICKdr [e.s.] holloway, hatrick, yankauer, drop method, mask, gauze

This photograph was taken on Friday the 27th of August 2004 as part of an event called 'Direct Seeding Expo'. This event was one of many held by the Wooragee Landcare Group in the early 2000s which aimed to educate the local community on certain agricultural and biodiversity conservative techniques. This particular photograph shows attendees at the property of Neil and Anne Nankervis, inspecting sites where direct seeding had been used ten months earlier. Three different direct seeding techniques were demonstrated during the day by several experts in the field. Direct seeding involves the sowing of seeds directly into the soil to achieve germination and establishment. It is an alternative to planting seedlings in a contained nursery plot. This direct method is intended to mimic a more natural process of growth, revegetating larger areas in a more efficient manner.This photograph is significant as it provides evidence of a project undertaken by the Wooragee Landcare Group in the early 2000s to educate members of the public on alternative and potentially more efficient methods of planting seedlings. The Wooragee Landcare Group has been instrumental in the co-ordination of programs relating to biodiversity protection in the local area, providing great assistance to landholders.Landscape coloured photograph printed on gloss paperReverse: WAN NA EONA2N2. ANN+ 1 4240 / neil and anne nankervis, wooragee, wooragee landcare group, wooragee landcare, direct seeding expo, direct seeding, seeding, seedlings, direct seeding sites, alternative seeding, alternative seeding method

The rocket rescue crews used a sand anchor at a beach rescue site to weigh down the rescue apparatus. The crew would connect the steel cables to the connecting cable and then join heavy ropes or chains to the connecting cable. They would then bury the anchor in a trench about three-quarters of a metre deep, keeping the connecting cable’s end free. The length of heavy rope or chain was attached to a pulley block onto the heavy hawser line. The block and a crotch pole were used to keep the hawser line high and taught, keeping the survivors above the sea as they were hauled to shore on a line or in a breeches buoy. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it. In 1858 the provision of rocket and mortar apparatus was approved for lifeboat stations in Victoria, and in 1864 a rocket house was built to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s, the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to a rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy apparatus was in use. The apparatus was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a lightweight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part of the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. This sand anchor is part of the rocket rescue equipment and is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.The sand anchor comprises a plank with steel cables and a connecting cable. The rectangular wooden bevelled-edged plank with two pairs of square metal plates bolted through it. Each metal plate has an eyelet and the two steel cable lengths are permanently attached by their eyelets to the plates. The eyelets at each end of the cable lengths are reinforced with rope work and one length also has a ‘U’ bolt shackle connection. The steel connecting cable also has reinforced eyelets at both ends. The plank has a black stencilled inscription on the upper surface. Stencilled in black paint "ANCHOR" "BACKER"flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, breeches buoy, rocket house, rocket equipment, rocket launcher, rocket line, marine technology, beach rescue set, traveller, block, running block, pulley, hawser, faked line, lady bay, warrnambool harbour, port of warrnambool, volunteer lifesavers, volunteer crew, breakwater, rocket rescue method, rocket rescue apparatus, shore to ship, rocket apparatus rescue, stranded vessel, whip line, endless whip, harbour board, sand anchor, rocket set, anchor backer, rescue anchor, beach anchor, backer, anchor, steel cable, wire cable, connecting cable

This image shows the approach to Beechworth from the south-west via the Newtown Bridge. Numerous early buildings line the road as it bifurcates to become Ford and High Streets on the ridge above Spring Creek and Newtown Falls. The sloping, rocky terrain and water course along the gorge show evidence of the intense mining activity that occurred at the site. The Ovens Gold Rush at Beechworth started when gold was found at Spring Creek in February 1852, prompting an influx of miners from around the world. The population grew over 20,000 by 1857. While the earliest mining at Beechworth was similar to that in other Victorian goldfields like Ballarat and Bendigo, Beechworth is notable for its use of hydraulic sluicing as a major method of removing wash-dirt. Hydraulic sluicing employs high pressure jets of water to blast away large areas of earth and wash it down to be run through a sluice box. Gold gets caught in the sluice and the remaining slurry is washed away. This method of mining is extremely effective but causes significant environmental impacts and damage to waterways. Large water quantities were required for large-scale sluicing, and the long water races and deep tailraces that were constructed in the Beechworth area in the nineteenth century are nonetheless considered feats of engineering. The site in the photograph is associated with the Rocky Mountain Mining Company who constructed an eight hundred meter tunnel under the township between 1876-1880 to reduce water levels at Spring Creek, which had been subject to diversions since the earliest days of alluvial mining. Over four million ounces of gold (115 tones) were found at Beechworth between 1852 and 1868, and the wealth from the gold rushes built Beechworth and the nationally significant buildings that remain standing today.This image shows the early development of the Beechworth township above Spring Creek, where gold was discovered in 1852. Evidence of hydraulic sluicing, a uniquely predominant method at Beechworth, and water-works engineering are present in the landscape. By the 1870s, alluvial gold deposits were depleted and increasingly complex engineering was required so deeper shafts could reach bedrock. This image is significant for understanding changes to the landscape and the evolution of mining methods and engineering practices related to the extensive construction, manipulation and management of water networks. The shift from smaller scale alluvial mining to larger company dominance in the mining industry has implications for understanding wider social, economic, political and industrial changes in the region of Beechworth and within the context of the Victorian Gold Rush more broadly. A black and white rectangular reproduction photograph printed on photographic paper. burke museum, beechworth museum, beechworth, gold fields, gold rush, victorian gold rush, hydraulic sluicing, rocky mountain mining company, spring creek, netwown falls, mining tunnels, water races, tailraces, colonial australia, australian gold rushes, mining technology, beechworth historic district, indigo gold trail, migration, indigo shire, gold mining, gold mining history

This is a set of five photographs of Multiplex mechanical stereoplotting equipment at the Army Survey Regiment, Fortuna Bendigo. c1950s. Multiplex equipment was imported from the UK in 1951 and introduced in the following year, to accelerate map production output covering CMF training areas at 1:25,000 map scale. Multiplex plotting was a productive advancement replacing the ‘Arundel’ method of graphical plotting planimetric detail that was expensive and slow, especially in timbered mountainous terrain. Air photos were made into small diapositives and mounted on racks in the exact position relative to when the aerial photos were taken. The technicians operated the Multiplex in a darkened room, with one photo projected with a green filter and the other through a red filter to form a 3D view of the overlapping photos. The 3D model projected onto a platen, which was a small platform that was raised up and down. The technician viewed the 3D image with special glasses fitted with red and green lenses. In the centre of the platen was a small pinhole that served as a floating mark, with a vertical pencil located exactly below the pinhole. This tracing table was moved to follow the topographic feature or contour line and draw it on the paper underneath. The technician raising or lowering the platform’s floating mark to match the height of the 3D terrain. It also replaced the slotted template method of mechanical adjustment of strips of aerial photography, however was restricted to each strip rather than between strips in the block. Although the Multiplex was phased out of production in 1968, it was used in the training of photogrammetry and aero-triangulation at the School of Military Survey located at Bonegilla, Victoria until the early 1990s. The history of the Multiplex is covered in more detail with additional historic photographs, in pages 50 to 51 of Valerie Lovejoy’s book 'Mapmakers of Fortuna – A history of the Army Survey Regiment’ ISBN: 0-646-42120-4.This is a set of five photographs of Multiplex mechanical stereoplotting equipment at the Army Survey Regiment, Fortuna, Bendigo. c1950s. The photographs were printed on photographic paper and are part of the Army Survey Regiment’s Collection. The photographs were scanned at 300 dpi. .1) - Photo, black & white, c1950s, unidentified personnel operating Multiplex equipment. .2) - Photo, black & white, c1950s, Multiplex equipment. .3) - Photo, black & white, c1950s, Multiplex components identified. .4) - Photo, black & white, c1950s, Multiplex optical components. .5) - Photo, black & white, c1950s. Unidentified technician laying down individual Multiplex plots..1P to .2P, .4P – No annotations. .3P annotations identifying Multiplex components on front of photo. .5P annotated on front ‘Lay down of individual Multiplex plots at 1/14000 to framework of master grid to form Composite Compilation Sheet – Material Duralex.’royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, photogrammetry

The art of making glass can be traced back to 2600 BC in Mesopotamia. Egyptians practised making glass around 2500 BC. Artificial glass first appeared in the Egyptian or the Mesopotamian civilization, whereas they used tools made out of volcanic glass obsidian in the Stone Age. Ancient China, however, discovered how to make glass a little later. Glass beads are known to be one of the earliest products made out of glass. Their creation is thought to be primarily accidental. In the later Bronze Age, glassmaking came to a halt. Glass was a luxury material back then. Archaeological excavations suggest the use of glass in England during the middle ages. In the 10th century, stained glass found a place in cathedrals and windows of palaces. After the Renaissance, architectural methods changed substantially, leading to a decrease in stained glass as a building material. Domestic use of glass increased following the industrial revolution. Vessels, glass windows, and glass beads gained popularity in Europe during this period. During the 19th century, many people preferred glass windows and doors as a decorative option. In the late 19th century, some designers brought back stained glass in decorative windows. It was during this period that Mr Tiffany discovered several methods to make domed glass handicrafts. People discovered the true versatility of using glass as a building material only in the 20th century. With glassmaking technology receiving an industrial boom, you could produce several different types of glass. Toughened glass, laminated glass, bulletproof glass, and smart glass all boosted the use of glass in buildings. Today, several skyscrapers, small and big homes, and offices use glass in almost all aspects of construction and design. https://www.aisglass.com/glass-made-step-step-process/The invention and development of glass, both as domestic items and in building, has been nothing short of revolutionary. Prior to the use of glass for windows, the interior of buildings were extremely dark, even during sunny days. The use of glass domestic objects, that could be easily washed, led to improved hygiene.Cylindrical drinking glass with stepped relief around lipNoneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, glass

The art of making glass can be traced back to 2600 BC in Mesopotamia. Egyptians practised making glass around 2500 BC. Artificial glass first appeared in the Egyptian or the Mesopotamian civilization, whereas they used tools made out of volcanic glass obsidian in the Stone Age. Ancient China, however, discovered how to make glass a little later. Glass beads are known to be one of the earliest products made out of glass. Their creation is thought to be primarily accidental. In the later Bronze Age, glassmaking came to a halt. Glass was a luxury material back then. Archaeological excavations suggest the use of glass in England during the middle ages. In the 10th century, stained glass found a place in cathedrals and windows of palaces. After the Renaissance, architectural methods changed substantially, leading to a decrease in stained glass as a building material. Domestic use of glass increased following the industrial revolution. Vessels, glass windows, and glass beads gained popularity in Europe during this period. During the 19th century, many people preferred glass windows and doors as a decorative option. In the late 19th century, some designers brought back stained glass in decorative windows. It was during this period that Mr Tiffany discovered several methods to make domed glass handicrafts. People discovered the true versatility of using glass as a building material only in the 20th century. With glassmaking technology receiving an industrial boom, you could produce several different types of glass. Toughened glass, laminated glass, bulletproof glass, and smart glass all boosted the use of glass in buildings. Today, several skyscrapers, small and big homes, and offices use glass in almost all aspects of construction and design. https://www.aisglass.com/glass-made-step-step-process/The invention and development of glass, both as domestic items and in building, has been nothing short of revolutionary. Prior to the use of glass for windows, the interior of buildings were extremely dark, even during sunny days. The use of glass domestic objects, that could be easily washed, led to improved hygiene.Moulded patterned glass butter dish. Base has been broken.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, glass, kitchen item, butter

Contents: p.1-3; Origins, arrival in Australia; p.4-9; How they lived - camp sites, dating (including carbon dating); p.10-27; Physical appearance, skin colour, hair, clothing, body ornaments, cicatrization; exchange system, distribution of food, marriage &? sexual relations; the tribe - structure, relationship to land, territory, gives map showing locations of tribes, New South Wales, Victoria &? eastern South Australia, leadership, government, division of labour, status of women, estimated population at white settlement, density of population (Victoria); p.28-31; Language - names &? naming, reproduces Wembawemba vocabulary, notes use of secret languages, gives 12 rules for pronounciation; p.32-53; Religion, spirit beliefs, totemism, moieties, phratries, marriage rules; mythology, gives eaglehawk &? crow myth from Lake Victoria &? other myths illustrating origins of fire &? natural rock formations, mythical beasts (Bunyip, Mindie), stellar beliefs; magic, medicine men, powers, native remedies for sickness, describes ceremony held in Melbourne, 1847 to avert evil, sorcery, pointing bone, love magic, rain makers; messengers, appearance, etiquette, message sticks; p.54-71; Rock art, motifs, colours, decorative art, engraving of utensils, rock engravings, manufacture &? use of pigments, engraving techniques; trade system, objects bartered, meeting places for trade (Victoria), map shows possible routes (south east Australia); corroborees, purpose, body ornaments &? decorations, musical instruments; p.72-93; Ceremonial life, marriage, punishment for infidelity, birth, childhood, games &? amusements, initiation, etiquette of visiting tribes, details of ceremony, womens role, earth figures &? ground designs, bull roarers, female puberty ceremonies; p.94-133; Shelters, fire making, cooking, construction of canoes, wooden implements, use of reeds, animal skins &? sinews, shells; stone tools, cylindro conical stones, scrapers, knives &? microliths; hunting weapons, spear, other methods pits, nets; fishing methods &? spears, traps; food sharing, womens responsibilities for collecting, digging stick, cooking methods, insect foods, plant foods, water resources; manufacture &? use of spears, spear throwers, shields, clubs, boomerangs; inter- &? intratribal fighting; p.134-147; Death, disposal of body - eating of the dead, burial, cremation, platform exposure, dendroglyphs (N.S.W.), Aboriginal burial grounds (Darling &? Murray Rivers), mourning, widowhood, kopi caps (N.S.W.), causes of death, inquest ceremonies, revenge expedition, after death beliefs; p.148-157; The end of the tribes white settlement &? its impact on Aboriginal life, friction between natives &? settlers, establishment of Protectorates; copiously illustrated throughout.maps, b&w illustrations, b&w photographswemba wemba, murray river, darling river, lake victoria