Booklet of 30 pages. Table of Contents: Editorial, Theatre party, Economic Geology of Victoria, Obituary - Andrew Anderson Esq., J. P., Our President, Coal, History of roasting at Kalgoorlie, Melbourne electric supply co, Australian coinage, Pilbarite, Liquid air, What is the "Expression" for "Success in the electrical engineering professions?", Students' annual excursion to Melbourne, Melbourne city council's electric light station, Modern tunneling, Estimation of copper, Oxozone - a fume destroyer, News and notes, Sporting notes, Answers to correspondents, Past Students, Editorial notes. Images.Pink coloured booklet of 32 pages. Page 25 outline the whereabouts of past Ballarat School of Mines Students: A.R. Booth, W.T. Lakeland, Lewis Westcott, Leo M. Seward, Reginald Williamson, Stanley White, Clyde Allan, Charles Laird, W.E. Eyres, Virgil Tucker, H. Hawkesworth, H.J. Saw, H. Meadows, Fred G. Brinsden, C. Stevenson, Fred Treloar, J. Peart, E.M. Weston, Dick Galloway, Richard Galloway, G.R. Curry, H. Meadows, Will Watson, Don Cameron, Eric Bieske, Cliff Garrard ballarat school of mines, staff, obituary - andrew anderson, esq., j.p., l. w. g. buchner, a. r. booth, w. t. lakeland, lewis westcott, leo. m. seward, reginald williamson, stanley white, clyde allan, charles laird, w. e. eyres, virgil tucker, h. hawkesworth, h. j. saw, h. meadows, fred. g. brinsden, c. stevenson, fred treloar, j. peart, e. m. weston, dick galloway, h. b. bennetts, g. r. curry, will watson, don. cameron, eric bieske, cliff. garrard, lindsay d. cameron, phil brown, w. p. avery, j. foster, j. bickett, f. h. inglis, g. davenport, l. c. courbould, t. lennon, h. wilkins, g. h. reid, c. hesselmann, e. fraser, reginald callister, a.r. booth, w.t. lakeland, leo m. seward, w.e. eyres, h.j. saw, fred g. brinsden, e.m. weston, richard galloway, g.r. curry, don cameron, cliff garrard

Home-made Spirit Level approx. 30 cm long. Round piece of 2cm Dowel, flattened on one side. Contains a small glass tube with liquid and air bubble inside. The glass tube is kept in place by a metal sleeve with small window to form a spirit level.tool, level

Between 1867 and 1920, anaesthesia for dental operations was often maintained by blowing the vapour of ether or chloroform into the patients' oral or nasal pharynx. Junker's inhalers are a "blow over" device used with a hand-held bellows to bubble air through liquid chloroform and to the patient. It was initially intended for use with bichloride of methylene, a mixture of chloroform and methyl alcohol. Ferdinand Ethelbert Junker introduced his inhaler in 1867 as appointed physician to Samaritan Free Hospital for Women (although it didn't have that name until c.1904). Glass jar with liquid measure markers etched onto. The jar has a metal lid, with a metal tube descending into the jar. Two metal tubes are protuding out of the top of the lid, and each has a small section of rubber tubing attached. There is also a metal hook, used to attached the jar to the physicians (anaesthetist's) lapel.Stamped into frame of metal lid: LONDON MADEjunker, blow over, chloroform, samaritan free hospital for women

Junker's inhaler of brown glass, shaped as a cylindrical bottle, with two curved metal tubes protruding from a metal cap. One tube is connected to a brown rubber tube that ends in double-barrelled hand bellows. On the right is a black vulcanite rubber mask, which is also connected to a brown rubber tube. Junker's inhalers are a "blow over" device, used with hand-held bellows to bubble air through liquid chloroform in the jar and through to the patient.Hand-written inscription on bellows. "SVH 1968"inhaler, anaesthesia, chloroform, methyl, methylene

The tool is used for establishing a horizontal plane, it consists of a small glass tube containing alcohol or similar liquid and an air bubble. The tube is sealed and fixed horizontally in a wooden or metallic block or frame with a smooth lower surface. The glass tube is slightly bowed, and adjustment to the horizontal is indicated by the movement of the bubble. The device is on a level surface when the bubble is in the middle of the glass tube. The level sensitivity is proportional to the radius of the curvature of the glass. The spirit or bubble level consists of a sealed glass tube containing alcohol and an air bubble. It was invented in 1661 and was first used on telescopes and later on surveying instruments, but it did not become a carpenter's tool until the factory-made models were introduced in the mid-19th century. The circular level, in which a bubble floated under a circular glass to indicate the level in all directions, was invented in 1777. But It lacked the sensitivity of the conventional level.A hand tool that has not changed much since its invention in 1661, this tool is used today and although the materials it is made from have changed it's use has not.Spirit level wooden with two windows one of which has a piece of brass sheet metal protecting it.Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, hand tool, spirit level, carpenders tool, builders tool, surveyors instrument

The tool is used for establishing a horizontal plane, it consists of a small glass tube containing alcohol or similar liquid and an air bubble. The tube is sealed and fixed horizontally in a wooden or metallic block or frame with a smooth lower surface. The glass tube is slightly bowed, and adjustment to the horizontal is indicated by the movement of the bubble. The device is on a level surface when the bubble is in the middle of the glass tube. The level sensitivity is proportional to the radius of the curvature of the glass. The spirit or bubble level consists of a sealed glass tube containing alcohol and an air bubble. It was invented in 1661 and was first used on telescopes and later on surveying instruments, but it did not become a carpenter's tool until the factory-made models were introduced in the mid-19th century. The circular level, in which a bubble floated under a circular glass to indicate the level in all directions, was invented in 1777. But It lacked the sensitivity of the conventional level.A hand tool that has not changed much since its invention in 1661, this tool is used today and although the materials it is made from have changed it's use has not.Spirit level wooden has 2 glass levels, 1 horizontal & 1 vertical Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

This kiln glazed container for liquid's, was the type used in the 1700's to mid 1900's to contain fluids mainly for human consumption which needed to retain liquid that could be affected by sunlight and or required to be maintained at a cooler temperatures. Ginger beer and other "brews" for human consumption were the prime target. The ability to refill these vessels were of the utmost importance to the consumer. Over time these containers were reduced in size and produced for "special" liquids e.g. alcoholic Port. This Demi John stone ware was manufactured in Tamworth (England) and imported into Australia during a period when the majority of "quality" domestic items were sourced from "the Mother Country" and the ties between the still "colonial" outpost were very strong. This bondage remained longer in rural communities than in the cities. The "multi-culturalism of the post World War II era resulted in the lessening of the earlier ties. The growing of nationalism, the Aussie evolution, was brought about by the increased social and business/commercial interactions between Australia and the United States of America, post World War II.This container(jug) is very significant to the Kiewa Valley, a rural region that required these type of liquid storage vessels, especially in the late 1800's to the mid 1900's. These were times when household refrigeration, if available, would be from the "block ice" coolers or "cool" storage nooks and crannies within farmhouse locations.This large "stone ware" glazed Demi John, alias Carboy has a capacity of over 20 litres. It has a conical smooth lipped neck top with a wide, flat(three to four finger) carry and poring handle. The top third portion of the jug is caramel in colour and the bottom a darker cream. It has a manufacturer's seal stamped into the surface before glazing. This item would have been corked and then sealed (air tight) with wax.manufacturer's seal "GEORGE SKEY WILNECOTE TAMWORTH"household liquid jar container, 1800's food storage, kiln fired glazed pottery

For pumping air into petrol irons, the maker is probably Coleman. Liquid fuel irons were a great advancement from Sad Irons in the late 1800's and were used before electricity was availableBrass air pump with wooden handle. A brass tube two centimetres diameter and 14 ccentimetres long with a half centimetre diameter. A 14 centimetre long metal rod with a two and a half centimetre diameter and a three and a half centimetre long wooden handle which slides in and out of the tube. Presumably there is a fitting inside the tube on the end of the rod to push air out of the hole on the other end of the tube.K15.3coleman iron, brass air pump

An aneroid barometer is an instrument used for measuring pressure without the use of a liquid. Invented in 1844 by French scientist Lucien Vidi, the aneroid barometer uses a small, flexible metal box called an aneroid cell (capsule), which is made from an alloy of beryllium and copper and responds to changes in air pressure.An example of a widely used type of barometer.A brass aneroid barometer with a white face.Manufactured by C. Wermer and Co, Melbournebarometer, aneroid barometer, c. wermer

An aneroid barometer is an instrument used for measuring air pressure as a method that does not involve liquid. Invented in 1844 by French scientist Lucien Vidi, the aneroid barometer uses a small, flexible metal box called an aneroid cell (capsule), which is made from an alloy of beryllium and copper. The evacuated capsule (or usually several capsules, stacked to add up their movements) is prevented from collapsing by a strong spring. Small changes in external air pressure cause the cell to expand or contract. This expansion and contraction drives mechanical levers such that the tiny movements of the capsule are amplified and displayed on the face of the aneroid barometer. Many models include a manually set needle which is used to mark the current measurement so a change can be seen. This type of barometer is common in homes and in recreational boats. It is also used in meteorology, mostly in barographs and as a pressure instrument in radiosondes.5 inch Aneroid barometer on wooden basebarometer, aneroid

Small, 40-page paper booklet issued by E. Condon, Secretary of Mines, under the authority of The Hon. J. C. M. Balfour, MLA, Minister of Mines. The booklet was printed Melbourne, Victoria 1969. Topics include Assistance to Mining, Commencing Mining Operations, Concessions to Mining Industry, Miners Rights and Claims, Mining Leases and Licenses, Examination Boards, Gold Buying and Selling, Air Conditions in Mines, Cyanide Plant, State Crushing Batteries, Extractive Industries, Petroleum (On Land), Petroleum (Offshore), Pipelines, Explosives, Inflammable Liquids, Gas Meter Examination and Liquified Petroleum Gas.book, mining reports, mines department can we help you?, e condon, the hon j c m balfour, geological survey of victoria, mines department laboratories, explosives and gas examining branch, minister for mines, depot & core laboratory

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995.An example of a galvanised measuring jug made specifically to maintain government standard liquid measurements that were sold to the public. The probability is that this artifact was made around the first quarter of the 20th century and gives us today a snapshot of how imperial weights and measures were used before decimalisation and how a standard of measurement for merchants was developed in Australian based on the Imperial British measurement system. The container has social significance as an item used in Victoria as a legal standard measure to ensure that goods sold in Victoria were correct. Jug conical shaped with rounded top coming to a very slight point wide handle at back. VIB.L.66 1/2 Gall capacityflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Cubed iron ship tanks were invented by Richard Trevithich in 1808, in partnership with Robert Dickson, and the design was patented that year. The invention eventually replaced the wooden casks or barrels used at the time, as the ship tanks were more secure and their shape was much more economical in storage space. The robust metal tanks were originally made to transport water, but their preserving quality enabled them to transport perishable dry goods such as grain on long voyages, as well as other forms of liquid and solid cargo. The first ship tanks were made from sheets of iron, and later mild steel sheets, with double riveted edges and corners. A round cast iron lid with handle grips was fitted snugly into the top opening, providing an air-tight and water-tight seal. Brass taps were often fitted into the base, which could have been the case with this tank, but it now has a wooden bung in the hole. Sailing ships began using the new ship tanks on Australian voyages from around the 1830s, storing food and water for those on board, and filling them with other cargo. A large number of the ship tanks were repurposed in 1838 for the Victoria Settlement at Port Essington, N.T., as they were able to protect the food, clothing and other stores from termite and insect damage. Other ‘recycled’ ship tanks were cut in half and used as washing tubs or cookers. A 1929 catalogue from Hudson’s Tank Stores advertised square tanks that contained around 600 litres – 160 gallons – which equals an internal measurement of 33.25 inches – 84.5 centimetres – per side ship tanks are still made and sold in 1952 by the Globe Tank and Foundry in Wolverhampton, England, which was incorporated in 1922. Today, ship tanks can be seen around Australia. Wilsonson’s Promontory Lightstation has the lid from a ship tank that was used on site for the storage of water. Some have been repurposed as domestic water tanks and dog kennels, others for eucalyptus distilleries. Flagstaff Hill has two ship tanks. The Campaspe Port at Echuca, once a bustling river port, has a ship tank beside the locomotive yard. The lids of ship tanks are collectible items. Richard Trevithick (1771-1833): - Trevithick was born in 1771 in Cornwall, England. He was a famous British engineer and inventor during the Industrial Revolution, known for his invention of the first full-scale working railway, the high-pressure steam locomotive, which he demonstrated hauling a railway train in 1804. He set up a small workshop in 1808 at 72 Fore Street, Limehouse, London, to make iron ship tanks, and this invention was instrumental in replacing the wooden casks formerly used for storage on ships. He was involved with mining technology, iron foundry and ship equipment. Ship tanks changed the way that cargo was transported on ships and other vehicles from the 1830s and were used into the mid-20th century. The ship tanks’ advantages were that they could store more content, lasted longer, were waterproof and airtight, stackable and could be repurposed for many uses other than water, such as fuel, dry goods and domestic cargo. They have even been used aa dog kennels and cookers. Ship tanks were part of the evolving methos to transport water, food and cargo, which changed in 1956 when Malcolm McLean invented the large, rectangular shipping containers that are in use today; they speed up the process of loading on and off the ships, saving time and money. Ship tank: a cubed iron container with an offset hole on one side. The hole has cutouts for securely attaching a lid. This tank is on its side on the ground with the opening facing sideways. The side facing upwards has a wooden bung in a round hole. The ship tank is made from six square, thick iron sheets, rolled and riveted along the edges. The inside has a black sticky coating, possibly bitumen, and a strong creosote odour. There are small remnants of green paint on the outer surface.flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, iron cube, water tank, shipping container, ship tank, ship's tank, ship tanks, marine container, richard trevithich, 1808, robert dickson, water transport, water storage, iron foundry, steel sheets, iron sheets, revets, victoria settlement, port essington, globe tank and foundry, wolverhampton, british engineer, british inventor, wooden casks

Safety Eyeshields which were issued to protect the eyes from liquid irritant sprayed from enemy aircraft. during WWIIThese eyeshields were the property of one of the pioneer families in the city of Moorabbin. 2 One-piece transparent plastic eyeshield visor, mounted on green green fabric band that is secured by three metal staples. At each end of the fabric band is secured two lengths of black elastic, one end features a metal hook, the other a metal ring, and when joined secure the eyeshields to the wearer's head. The elastic straps are joined to the to fabric by metal pop studs, and these press down into two further pop studs located on the visor making the plastic bend to the shape of the wearer's face. Cardboard case is made of heavy duty card, open one end to form and envelope for storage. A felt material is attached as a cushioned nose strip. They are in a brown paper envelope and contained within a Cardboard case is made of heavy duty card, open one end to form and envelope for storage. There are printed with instruction on how to use them.Eyeshields, Anti-Gass, Mk. II. Air Spray Immediate action to be taken to prevent blisters - with instructions.world war ii, safety equipment, eye shields, anti-gas, eyeshields

A butter churn is a device used to convert cream into butter. This is done through a mechanical process, via a crank used to manually turn a rotating device inside the barrel shaped churn. The agitation of the cream, caused by the mechanical motion of the device, disrupts the milk fat. The membranes that surround the fats are broken down, subsequently forming clumps known as butter grains. These butter grains, during the process of churning, fuse with each other and form larger fat globules. Air bubbles are introduced into these fat globules via the continued mechanical action of the churn. The butter grains become more dense as fat globules attach to them while the air is forced out of the mixture. This process creates a liquid known as buttermilk. With constant churning, the fat globules eventually form solid butter and separate from the buttermilk. The buttermilk is then drained off and the butter is squeezed to eliminate excess liquid and to form it into a solid mass. Then rinsing could be done simply by washing in water, followed by draining, salting and working or "kneading" the butter with a pair of wooden butter pats, or with bare hands. This is a paddle churn, a barrel that contains a paddle, which is operated by a handle. The paddle churned the butter inside the container when the handle was turned. Early settlers had to be self sufficient, growing their own vegetables, making tools and clothing and usually had a house cow to produce their milk supplyThis domestic butter churn is an example of the skill of the pioneer craftsman, carpenters and tool makers c1900. As pioneers and early settlers had to be self sufficient they usually kept a dairy cow or 'house cow' to provide milk for drinking and for butter and cheese to made by the family.A small wooden, domestic butter churn with a lid and a crank that manually rotated the paddle inside. E. CHERRY / MAKER / GISBORNE / VICTORIA / Apioneers, early settlers, market gardeners, moorabbin, brighton, cheltenham, dairy products. dairy farmers, milk, butter, dairies

A Storm Glass and Thermometer such as this one would be used in predicting or forecasting the weather. Farmers used predictions they read from their Storm Glass to prepare for stormy weather or for choosing a good time for planting or harvesting their crops. This could mean to them the difference between a good year and a year without income. This design has been in use since the early 1800’s. According to Admiral Fitzroy (who studied the storm glass and wrote instructions on its use) the liquid in the glass changes composition and appearance according to the direction of the air moving around it. He advised the user to disturb the contents once or twice a year by tipping it upside down and shaking it gently. Item is a good example of a barometer/thermometer that would have been in most homes and farms from the late 19th century and early 20th century. This item would have been massed produced at the time therefore easily available and quite cheap to purchase making this particular item not very significant as not associated with a historic person or property or with a known manufacturer or date.Storm Glass and Thermometer, commonly called a 'Cottage Barometer', mounted on a rectangular dark rectangle of wood, top corners rounded. The Storm Glass (or weather glass, or chemical weather glass) is suspended in a long oval shaped hole in the wood on left side, held in place at top and at bottom with 2 metal bands secured by nails. The glass of this gauge is hand blown, sealed at the top with another layer of glass. The watery fluid in the storm glass is opaque brownish colour with dark particles floating in it. (Storm glasses were usually filled with a variation of a mix of camphor, distilled water, ethyl alcohol and silver nitrate.) The alcohol thermometer is mounted on the right side of the wood, bulb resting in a hollow, attached at top and near base by 2 thin metal strips, with clover-leaf shaped ends, nailed into place. Over the bulb is nailed a metal guard with 3 ventilation slits cut into it. On left of thermometer is a scale, stamped into wood, 30 below zero to 130 above zero, in 2 degree intervals. A border of 2 thin parallel lines, with remnants of light coloured paint, is around the block of wood. On the reverse side, a metal plate is nailed to the top with a mounting hole in it. Impressed sideways along edge of barometer is "STORMY" "CHANGE" "FAIR". Across the top of the thermometer is a fleur de leis in the wood, and above this it is stamped "FAHRENHEIT". On right of the thermometer, stamped into the wood, is "BLOOD/HEAT", "SUMR/HEAT", "TEMPE/RATE", "FREEZ/ING". On the back of the wood, at the base, are remnants of a white sticker with "...111.73". Carved into the wood is "HOLLAND / AV". flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, barometer, cottage barometer, storm glass, thermometer, chemical weather glass

Atomiser tube and attachment head for a perfume bottle. Atomizers, which vaporised liquid into fine droplets using air, were first used in the medical field around c. 1859. By the late 1870s, French perfume makers were using vaporizers to scent the air in their sales booths.This item is part of a collection that represent the urban development occurring in the Warrnambool.Container brass for perfume bottle. Ribbed cylinder with screw lid. Blue and white stones inlaid on top. warrnambool, shipwrecked-coast, flagstaff-hill-maritime-museum, shipwreck-coast, brass container, perfume bottle, perfume

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995.An example of a brass measuring jug made specifically to maintain government standard liquid measurements that were sold to the public. The probability is that this artefact was made sometime between George V reign (1910-1936) and gives us today a snapshot of how imperial weights and measures were checked by Government departments prior to decimalisation and how a standard for the various types of measurement was developed in Australian based on the Imperial British measurement system. The container has social significance as an item used in Victoria as a legal standard measure to ensure that goods sold in Victoria were correct. Jug brass haystack form with a deep lip and pouring spout, small neck and broad base. It displays a curved pistol handle. Inscription at base of handle top of jug stamped 61 GVR SM. These marks signify that the measure complied with the Victorian Government capacity liquid standard measurement. Item made during the reign of George V (1910-1936 (GVR).Other marks indicate model number (61) & SM possible could be either small measure, the maker, or Standards Melbourne.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995.An example of a galvanised measuring jug made specifically to maintain government standard liquid measurements that were sold to the public. The probability is that this artifact was made around the first quarter of the 20th century and gives us today a snapshot of how imperial weights and measures were used before decimalisation and how a standard of measurement for merchants was developed in Australian based on the Imperial British measurement system. The container has social significance as an item used in Victoria as a legal standard measure to ensure that goods sold in Victoria were correct given the item is galvanised it was probability used for kerosene or petrol etc not for liquids used for human consumption. Jug conical shaped with rounded top coming to a very slight point wide handle at back. VIB.L.66 1/2 Gall capacity unsure of the markings 66 could mean the model number capacity is 1/2 an imperial gallon VIB.L markings not known possibly a company or Victorian Department that the jug was made for and no longer active.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995. An example of a galvanised measuring jug made specifically to maintain government standard liquid measurements that were sold to the public. The probability is that this artifact was made around the first quarter of the 20th century and gives us today a snapshot of how imperial weights and measures were used before decimalisation and how a standard of measurement for merchants was developed in Australian based on the Imperial British measurement system. The container has social significance as an item used in Victoria as a legal standard measure to ensure that goods sold in Victoria were correct given the item is galvanised it was probability used for kerosene or petrol etc not for liquids used for human consumption. Galvanised Iron jug with rounded top, Inscription on handle at back. 2 gallon GV.35flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995.An example of a galvanised measuring jug made specifically to maintain government standard liquid measurements that were sold to the public. The probability is that this artifact was made around the first quarter of the 20th century and gives us today a snapshot of how imperial weights and measures were used before decimalisation and how a standard of measurement for merchants was developed in Australian based on the Imperial British measurement system. The container has social significance as an item used in Victoria as a legal standard measure to ensure that goods sold in Victoria were correct given the item is galvanised it was probability used for kerosene or petrol etc not for liquids used for human consumption. Jug galvanised conical shaped with rounded top, handle at back. 3 gallon GV.27flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

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

Card board box containing 3 individual envelopes (originally held 6) that hold one piece transparent plastic eye shield visors mounted on leather band with felt forehead comfort strip held by 3 staples. At the end of the leather band two lengths of black elastic material straps with one having a small hook and the other having small ring and when joined secure the shield to the wearers head. The elastic bands are secured to the leather using press studs which clip into two studs in the plastic visor to make the visor fit around the wearers face. The cardboard box is made of heavy duty cardboard with opening at one end to access the envelopes. The envelopes are beige manila type and not sealed. On cardboard Box a label - EYESHIELDS,ANTI-GAS, MK11 AIR SPRAY Action to be taken within ten minutes in the following order to prevent blisters--. 1. COTTON WASTE: Swab liquid off exposed skin. 2. OINTMENT: Rub hard on exposed skin for 1 minute. 3. EYESHIELD: Change. 4. CLOTHING: If detector shows large drops, remove or cut away as necessary. If cape "worn" swab off liquid. SMALL drops :no action. 5. OINTMENT: Rub on skin now exposed. 6. DETECTORS: If possible, remove and renew. (Tippet or Armlet). 7. WEAPONS: Decontaminate. 8. OINTMENT: Re-apply to hands. A.F.A.& CO. 1941