In the early years of the 20th century adequate technical education was lacking and became a focus in the Victorian Parliament. After much debate and discussion among politicians and educationalists, the 1910 Education Act No 2301 was passed, making possible the establishment of new technical schools to address the dearth of skilled trades people. In July 1912 Collingwood Technical School opened in the modified bluestone buildings at 35 Johnston St, originally built in 1853 as the Collingwood Town Hall and Court House. Within three weeks, there were 57 boys enrolled - studying preliminary carpentry and pattern-making, plumbing, engineering, sheet iron work and bricklaying. They attended two hours a night on three evenings a week. In 1913, the school opened its doors to juniors and took residence in new permanent buildings erected on the site. It was classified as a trades school by the State Education Department. Two years later courses in electrical wiring and electrical and mechanical engineering were introduced. In 1988 Preston College of TAFE and Collingwood College of TAFE merged to become Northern Metropolitan Institute of TAFE (NMIT). (http://victoriancollections.net.au/organisations/northern-melbourne-institute-of-tafe)Red soft covered book of 60 pages. Contents include: List of President, Council and staff, constitution, aim of the school, scholarships, evening classes, advice to parents, Railway fares, tram fares, free travel, general rules for students. syllabus of work, evening work. Images include carpentry class, Bricklaying, plastering and Turning & Fitting classcollingwood technical school, collingwood, tafe, nmit, northern metropolitan institute of tafe, carpentry, bricklaying, plastering, turning and fitting

A hammer is a tool with a heavy head and a handle, often made of shock absorbent wood or fibreglass, that is used to strike an object. The most common use for hammers are to drive nails, fit parts, forge metal and break apart objects. Hammers vary in size, shape and structure, depending on their uses. Hammers are basic tools in many trades. A hammer is composed of a head, most often made of steel and handle also called a helve or haft. Most hammers are hand tools. A traditional hand-held hammer consists of a separate head and handle, fastened together by means of a special wedge made for the purpose, or by glue, or by both . This 2 piece design is often used to combine a dense metallic striking head with a non-metallic mechanical shock absorbing handle - to reduce user fatigue from repeated strikes. If wood is used for the handle, it is often ash or hickory, which are tough and long lasting materials that can dissipate shock waves from the hammer head. This upholsterer’s hammer has one end of the steel head rounded for knocking nails into wood furniture. The other end is divided to form a 2 pronged claw for withdrawing nails. . An upholsterer's hammer with a steel head and wooden handle, The steel head has one rounded end and a clawed endpioneers, early settlers, market gardeners, moorabbin, bentleigh, cheltenham, brighton, tools, craftsman, carpenters, cabinet makers, blacksmiths, builders, woodwork

The subject item was made in England by W&T Avery a British manufacturer of weights and weighing machines. The company was founded in the early 18th century and took the name W & T Avery in 1818. The undocumented origin of the company goes back to 1730 when James Ford established the business in the town of Digbeth. On Joseph Balden, the then company’s owner’s death in 1813 William and Thomas Avery took over his scale making business and in 1818 renamed it W & T Avery. The business rapidly expanded and in 1885 they owned three factories: the Atlas Works in West Bromwich, the Mill Lane Works in Birmingham and the Moat Lane Works in Digbeth. In 1891 the business became a limited company with a board of directors and in 1894 the shares were quoted on the London Stock Exchange. In 1895 the company bought the legendary Soho Foundry in Smethwick, a former steam engine factory owned by James Watt & Co. In 1897 the move was complete and the steam engine business was gradually converted to pure manufacture of weighing machines. The turn of the century was marked by managing director William Hipkins who was determined to broaden the renown of the Avery brand and transform the business into specialist manufacture of weighing machines. By 1914 the company occupied an area of 32,000m² and had some 3000 employees. In the inter-war period, the growth continued with the addition of specialized shops for cast parts, enamel paints and weighbridge assembly and the product range diversified into counting machines, testing machines, automatic packing machines and petrol pumps. During the second world war, the company also produced various types of heavy guns. At that time the site underwent severe damage from parachute mines and incendiary bombs. Then from 1931 to 1973, the company occupied the 18th-century Middlesex Sessions House in Clerkenwell as its headquarters. Changes in weighing machine technology after World War II led to the closure of the foundry, the introduction of electronic weighing with the simultaneous gradual disappearance of purely mechanical devices. The continued expansion was partly achieved through a series of acquisitions of other companies. After almost a century of national and international expansion, the company was taken over by GEC in 1979. Keith Hodgkinson, managing director at the time, completed the turn-around from mechanical to electronic weighing with a complete overhaul of the product range of retail sales of industrial platform scales. In 1993 GEC took over the Dutch-based company Berkel and the Avery-Berkel name was introduced. In 2000 the business was in turn acquired by the US-American company Weigh-Tronix, who already owned Salter, and is today operating as Avery Weigh-Tronix.An item used by grocers and merchants throughout the then British colonies of England to weigh store-bought goods around the mid to late 19th century. This item gives an insight into the daily lives of early colonial settlers and is a significant part of the era’s social history of the time.Balance scale and weights with removable dish, two round weights glued to tray 4oz and 8oz. Scales 'to weigh up to 28lb. Printed in gold on black labels each side "W & T AVERY LTD", "BIRMINGHAM" warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, scale and weights, food preparation equipment, w t avery ltd, balance scale, grocers scales, james ford, william & thomas avery, birmingham uk

A weight made in England by W&T Avery a British manufacturer of weights and weighing machines. The company was founded in the early 18th century and took the name W & T Avery in 1818. The undocumented origin of the company goes back to 1730 when James Ford established the business in the town of Digbeth. On Joseph Balden, the then company’s owner’s death in 1813 William and Thomas Avery took over his scale making business and in 1818 renamed it W & T Avery. The business rapidly expanded and in 1885 they owned three factories: the Atlas Works in West Bromwich, the Mill Lane Works in Birmingham and the Moat Lane Works in Digbeth. In 1891 the business became a limited company with a board of directors and in 1894 the shares were quoted on the London Stock Exchange. In 1895 the company bought the legendary Soho Foundry in Smethwick, a former steam engine factory owned by James Watt & Co. In 1897 the move was complete and the steam engine business was gradually converted to pure manufacture of weighing machines. The turn of the century was marked by managing director William Hipkins who was determined to broadening the renown of the Avery brand and transforming the business into specialist manufacture of weighing machines. By 1914 the company occupied an area of 32,000m² and had some 3000 employees. In the inter-war period, the growth continued with the addition of specialized shops for cast parts, enamel paints and weighbridge assembly and the product range diversified into counting machines, testing machines, automatic packing machines and petrol pumps. During the second world war, the company also produced various types of heavy guns. At that time the site underwent severe damage from parachute mines and incendiary bombs. Then from 1931 to 1973, the company occupied the 18th-century Middlesex Sessions House in Clerkenwell as its headquarters. Changes in weighing machine technology after World War II led to the closure of the foundry, the introduction of electronic weighing with the simultaneous gradual disappearance of purely mechanical devices. The continued expansion was partly achieved through a series of acquisitions of other companies. After almost a century of national and international expansion, the company was taken over by GEC in 1979. Keith Hodgkinson, managing director at the time, completed the turn-around from mechanical to electronic weighing with a complete overhaul of the product range of retail sales of industrial platform scales. In 1993 GEC took over the Dutch-based company Berkel and the Avery-Berkel name was introduced. In 2000 the business was in turn acquired by the US-American company Weigh-Tronix, who already owned Salter, and is today operating as Avery Weigh-Tronix. An item used used by grocers and merchants to weigh store bought goods around the 1950s. This item gives an insight into social history of the time.Weights, metal, silver electroplated, 1 x 2lb, 2 x 4lb, 1 x 7lb. (4) all government stamped, made by Avery Ltd.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, weight, imperial weight, imperial standard weights and measures, imperial standard weight

A weight made in England by W&T Avery a British manufacturer of weights and weighing machines. The company was founded in the early 18th century and took the name W & T Avery in 1818. The undocumented origin of the company goes back to 1730 when James Ford established the business in the town of Digbeth. On Joseph Balden, the then company’s owner’s death in 1813 William and Thomas Avery took over his scale making business and in 1818 renamed it W & T Avery. The business rapidly expanded and in 1885 they owned three factories: the Atlas Works in West Bromwich, the Mill Lane Works in Birmingham and the Moat Lane Works in Digbeth. In 1891 the business became a limited company with a board of directors and in 1894 the shares were quoted on the London Stock Exchange. In 1895 the company bought the legendary Soho Foundry in Smethwick, a former steam engine factory owned by James Watt & Co. In 1897 the move was complete and the steam engine business was gradually converted to pure manufacture of weighing machines. The turn of the century was marked by managing director William Hipkins who was determined to broadening the renown of the Avery brand and transforming the business into specialist manufacture of weighing machines. By 1914 the company occupied an area of 32,000m² and had some 3000 employees. In the inter-war period, the growth continued with the addition of specialized shops for cast parts, enamel paints and weighbridge assembly and the product range diversified into counting machines, testing machines, automatic packing machines and petrol pumps. During the second world war, the company also produced various types of heavy guns. At that time the site underwent severe damage from parachute mines and incendiary bombs. Then from 1931 to 1973, the company occupied the 18th-century Middlesex Sessions House in Clerkenwell as its headquarters. Changes in weighing machine technology after World War II led to the closure of the foundry, the introduction of electronic weighing with the simultaneous gradual disappearance of purely mechanical devices. The continued expansion was partly achieved through a series of acquisitions of other companies. After almost a century of national and international expansion, the company was taken over by GEC in 1979. Keith Hodgkinson, managing director at the time, completed the turn-around from mechanical to electronic weighing with a complete overhaul of the product range of retail sales of industrial platform scales. In 1993 GEC took over the Dutch-based company Berkel and the Avery-Berkel name was introduced. In 2000 the business was in turn acquired by the US-American company Weigh-Tronix, who already owned Salter, and is today operating as Avery Weigh-Tronix. An item used used by grocers and merchants to weigh store bought goods around the 1950s. This item gives an insight into social history of the time.Weight, brass, Stamped F27, 2lb.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, weight, brass weight

The, horse drawn metal scoop ,guided by a man, was used to clear earth for road making. Well before the introduction of motorised, mechanical graders and trucks the painstaking, labour-intensive work was undertaken by large teams of sturdy men using strong horses such as the draught horse. Roads were needed by the market gardeners to transport their produce to market. Later as the heavy wagon loads continually caused ruts and general degradation of the roadways a Plateway system was installed so that the wagon wheels could roll along the rails thus protecting the roadways. August 31st 2021 Ron Nash, from WA, informs us "The men and horses pulling earth scoops in the photo are not moving earth for road making - they are excavating an "earth tank", or dam, as described in common nomenclature today. This skill was known as "tank sinking", and tank sinkers were active in many rural and remote areas in the 1800's and early 1900's, establishing sizeable dams for important water reserves for community and farm and railway use. With the advent of mechanised equipment such as bulldozers, the trade of tank sinking was still carried out, but on a faster basis. I am a former tank sinker and earth moving contractor, now long retired." Early settlers in Moorabbin Shire had to build the roads, plateways, drains, as the settlement of the land, in Dendy's Special Survey 1841 Brighton, spread and market gardeners need to transport their produce to market. Their most valuable possession was the draught horse that was used for ploughing, drawing carts and these scoops.Black & White photograph showing many horses pulling metal scoops guided by men to move earth for road making in Moorabbin Shire c 1900Back Handwritten Informationplateway, roadworks moorabbin shire, draught horses, metal scoops, paviers, box alonzo, smith j l; chaff cutter, horse drawn carts, toll gates brighton, motor cars 1900, steam engines, early settlers, bentleigh, mckinnon, parish of moorabbin, city of moorabbin, county of bourke, moorabbin roads board, shire of moorabbin, henry dendy's special survey 1841, were j.b.; bent thomas, o'shannassy john, king richard, charman stephen, highett william, ormond francis, maynard dennis, market gardeners, vineyards, orchards

Hardcovered book, half leather bound with marbled paper. Formerly book number 4040 from the Ballaarat East Public Library. Contents include: new pit-saw, self-moving carriage (car), Lord Worcestor's steam engine, extinction of fires, Cameron's Soda Water Apparatus, Newton's Lectures on Astronomy, coining at the Royal Mint, mechanical geometry, lifting ships by steam, voltaic-mechanic agent, steam navigation, portable hand-mill, Brown's pneumatic engine, Bell's invention for saving lives from shipwreck, triple pump, cycloidal chuck, potato-washer, sand clock, Galvanic electricity, perpetual motion, Hadley's Quadrent, Wollaston's Night-Bolt, rope bridges, boring machinery, locomotive steam-engines, new London Bridge, naval architecture, steam and water wheel, Spencer's Patent Forge, boat with wings, ivory profile portraits, Jenning's Gas burner, Ramage's Telescope, washing machine, tallow lamp, iron masts, self regulating pendulum, prismatic compass, simple blowpipe. Includes image of Henry Brougham, and many drawings of inventions.non-fictioncar, newton, fire, shipwreck, bell, naval architecture, locomotive, ballaarat east public library, ballarat east public library, ballarat east library, henry brougham, potassium, meridian lines, pit saw, self moving carriage, lord worcestor, steam engine, cameron s, soda water, astronomy, royal mint, mechanical geometry, lifting ships by steam, voltaic mechanic agent, steam navigation, hand mill, brown s pneumatic engine, triple pump, cycloidal chuck, potato washer, sand clock, galvanic electricity, perpetual motion, hadley s quadrent, wollaston s night bolt, rope bridges, boring machinery, steam engines, new london bridge, steam and water wheel, spencer s patent forge, boat with wings, ivory profile portraits, jenning s gas burner, ramage s telescope, washing machine, tallow lamp, iron masts, self regulating pendulum, prismatic compass, simple blowpipe, bookplate

This model of a mechanical ore roasting and chloridising furnace was invented and patented by Thomas Edwards of the Edwards Pyrites Smelting and Ore Reduction Company. This new type of furnace produced a high standard of sulphur free ore known as ‘sweet roasted’. Edwards used this model for demonstrations in the USA. Of note is the central large vertical cogwheel (externally driven) which drives small vertical cogwheels via angled cogging drives. These in turn drive a horizontal wheel. Each side of the vertical wheel is set on an opposite side to the horizontal wheel of its neighbours, resulting in opposite direction rotation of neighbouring horizontal wheels. Each horizontal wheel turns a rabble (set of vertical iron paddles) within the furnace. These rabbles, each turning in opposite direction to its neighbours, move the roasting ore in a zig-zag path through the furnace. The elongated furnace with its line of rabbles produced a much ‘sweeter’ roasted ore than could be obtained from a typical tank-shaped furnace. In 1924, when the model was donated to the Ballarat School of Mines, Ballarat’s Courier newspaper reported, ‘Apart from its historical and education value, the gift should serve to stimulate the inventive faculties of the students who have to win fame for the school and for themselves in the metallurgical world.’ The furnace model was donated to Ballarat School of Mines and used as an educational prop from 1924. The model relates to the mining industry which is a significant part of Ballarat's history and heritage. Ballarat School of Mines is the oldest Technical School in Australia and is celebrating 150 years in 2020.Metal model of Edwards' Ore Reduction Furnace. The model includes cogwheels, rabbles and other details. Scale is thought to be around 1:20M259ballarat school of mines, edwards, pyrites, ore reducation, edward retallack, mining, model

James Oddie was Vice-President of the Ballarat School of Mines in 1886.Blue, lined, foolscap paper from Ballarat School of Mines Logo. It is handwritten by James Oddie for the Ballarat School of Mine Council and is in regards to the duties of Professor Ferdinand Krause."The Vice-President submits the following statement for consideration by the Council: - On Tuesday 1st June between 2 and 3 o'clock in the afternoon I called on Professor Krause and requested him to prepare plans and sections with a view to the erection of furnaces, machinery, and appliances which the committee appointed by Council had resolved upon obtained for the School. Mr Krause at once refused, urging that this work was outside his duties, but that he would be willing to undertake it if allowed a remuneration of 5% which was 2 1/2 % less than a professional engineer would charge. He took exception to a paragraph that appeared in the "Ballarat Star" of the 28th May which referred to the visit and inspection of the Honorary Staff or mechanical engineers on the day previous. He further stated that he was not going to be a shoeblack to these persons and his language and manner was generally offensive and insubordinate. The progress of the work is thus considerably delayed. James Oddie"ballarat school of mines, oddie, krause, mining, furnace, james oddie, ferdinand krause

Typed letter on Mount Morgan Gold-mining Company, Limited Letterhead relating to staffmember W. Gildard who worked in the Electrical Department at Mount Morgan. The letter is signed by Norman F. White..1) I hereby certify the Bearer Mr W. Gildard has been under my supervision this last two years and six months in Electric Light Dept Mount Morgan G.M.Co. Ltd While under me he was quick steady and industrious also possessed good mechanical ideas. He has been switch board and Dynamo attendant worked on outside circuits series are Lighting Mine Lighting under Ground Electric Bells and Telephone work. He has had experience also on our new plant turbo generators Stationary Motors and Electric Locomotives Electric Tramway Work over head wiring and ground return you will also find him most obliging and willing. Leaving of his own accord. Frank McFarlane A.G.E.E. Electric Foreman Mount Morgan G.M. Co. Ltd march 21st 1907ballarat school of mines, mount morgan gold-mining company, mount morgan, norman f. white, electricity, w. gildard, letterhead

These wool undervests were purchased by Edith Bender for her husband Edwin, prior to 1963. Edwin would catch a ‘Red Rattler’ train along the North Shore line to go to work in Pitt Street., Sydney. Edith was concerned Edwin would catch a cold in the unheated train or in his unheated office, so she brought these woollen undervests for him to wear to work. Edwin would wear the undervests under a woollen suit and with a woollen overcoat. Edwin passed away in 1963, at which point Edith stored the undervests away. They were passed to Edith’s daughter when Edith passed away in 1980. They were then passed to Tanya Davis on the death of her mother. Tanya donated the undervests to the National Wool Museum in 2021.2x cream wool undervests. Henley style with short sleeves and three buttons at the front. Labels from the maker ‘Braemar’ have been stitched to the neckline of both vests. An additional label is stitched under the first button on the front of both undervests. Label stitched to neck of vest: BRAEMAR / MADE IN SCOTLAND / OPTIMUS / PURE WOOL / TREATED TO RESIST / SHRINKAGE / QUALITY / B. OPTIMUS Label stitched to front buttons of vest: MADE IN SCOTLAND / FOR FARMER’S / SYDNEY Attached swing tag: BRAEMAR / The WASHING of WOOLLENS / PREPARE a bath of good bar or flake soap, thoroughly dissolved in water not hotter than the hands can bear. Squeeze the garments through the hands several times in the bath. Don’t rub them on a board. Rinse in warm water until soap is thoroughly removed. Wringing should be done in the hands. Stretch well to width and length and dry at once, preferably in the open air Stretch again in the hands when dry. Attached swing tag. Reverse: IMPORTANT POINTS / Do not use soda or washing powders. / This garment must not be subbed on a board, or subjected to mechanical friction.red rattler, wool clothing

A Large Rare mid 19th Century Balance Scale (also called a Beam Scale) Made in England by W&T Avery a British manufacturer of weighing machines. The company was founded in the early 18th century and took the name W & T Avery in 1818. The undocumented origin of the company goes back to 1730 when James Ford established the business in the town of Digbeth. On Joseph Balden the then company’s owner’s death in 1813 William and Thomas Avery took over his scale making business and in 1818 renamed it W & T Avery. The business rapidly expanded and in 1885 they owned three factories: the Atlas Works in West Bromwich, the Mill Lane Works in Birmingham and the Moat Lane Works in Digbeth. In 1891 the business became a limited company with a board of directors and in 1894 the shares were quoted on the London Stock Exchange. In 1895 the company bought the legendary Soho Foundry in Smethwick, a former steam engine factory owned by James Watt & Co. In 1897 the move was complete and the steam engine business was gradually converted to pure manufacture of weighing machines. The turn of the century was marked by managing director William Hipkins who was determined to broadening the renown of the Avery brand and transforming the business into a specialist manufacture of weighing machines. By 1914 the company occupied an area of 32,000m² and had some 3000 employees. In the inter-war period the growth continued with the addition of specialized shops for cast parts, enamel paints and weighbridge assembly and the product range diversified into counting machines, testing machines, automatic packing machines and petrol pumps. During the second world war the company also produced various types of heavy guns. At that time the site underwent severe damage from parachute mines and incendiary bombs.Then from 1931 to 1973 the company occupied the 18th-century Middlesex Sessions House in Clerkenwell as its headquarters. Changes in weighing machine technology after World War II led to the closure of the foundry, the introduction of electronic weighing with the simultaneous gradual disappearance of purely mechanical devices. The continued expansion was partly achieved through a series of acquisitions of other companies. After almost a century of national and international expansion the company was taken over by GEC in 1979. Keith Hodgkinson, managing director at the time, completed the turn-around from mechanical to electronic weighing with a complete overhaul of the product range of retail scales and industrial platform scales. In 1993 GEC took over the Dutch-based company Berkel and the Avery-Berkel name was introduced. In 2000 the business was in turn acquired by the US-American company Weigh-Tronix, who already owned Salter, and is today operating as Avery Weigh-Tronix. Item made and used possibly around the 1850s by Victorian colonial government to check weights of goods being sold by early shop keepers on the gold fields item is very rare.James McEwan & Co were the retailers of W & T Avery scales in Victoria from 1852. A very rare item used probably to check weights used by merchants during colonial times by government inspectors in Victoria. A similar example exist in a NSW museum, the item is believed to have been made before W & T Avery expansion to the Soho foundry in Birmingham in 1885 and after 1818.Beam balance scale suspended from a wooden tripod, with metal trays suspended by three chain lengths. embossed on the balance beam W T Avery, Birmingham,flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, scale, avery

In times past the only way to measure a ship’s speed was to throw a wood log into the water and observe how fast it moved away from the ship. In the 16th century, the log was fastened to a rope knotted at set intervals. The log was thrown over the stern (back) of the vessel and a crew member counted the number of knots that were paid out in a set time. From this, they could estimate the vessel's speed through the water. This was known as streaming the log and is also the derivation of the knot as a measurement of nautical speed. Various manufacturers of nautical equipment had sought over the years to perfect the operation of determining a ship's speed and it wasn't until Thomas Walker and his son Ferdinand developed a mechanical system that eventually made this task became easy for marine navigators. Thomas Walker & Son were internationally renowned in the manufacturing of ship logs the founding father, Thomas Walker (1805–1871), an engineer in Birmingham, patented his mechanical log in 1878 which was a recording instrument that attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial then recorded the distance travelled. Thomas Walker first went into business to manufacture stoves at 58 Oxford Street Birmingham. Walker’s self-feeding stove was widely lauded at the Paris Exhibition of 1855, winning a prize medal and kickstarting the first of many notable innovations for the Walker family's manufacturing business. However, it wasn’t until working on an earlier ship’s log model invented by his Uncle that Thomas Walker became interested in the further development of this device, used to ascertain a ship’s speed. Walker continued to improve on the common log for the company of Massey & Sons and these improvements were deemed revolutionary. This log became a firm favourite of the West India Association (a British-based organisation promoting ties and trade with the British Caribbean), being the most common log in use for two generations. It took until 1861 for Thomas Walker and his son, Thomas Ferdinand Walker (1831-1921) to patent the first Walker log of many. Together, with the introduction of the A1 Harpoon Log two years later, they established the Walker Log Business as a force to be reckoned with. By his passing in 1871, Thomas Walker Snr had not only founded a family business with considerable staying power but also instilled a tradition of public service. Having sat as a representative on the Birmingham Town Council for 15 years and played an active role in public works, he was soon given the nickname of ‘Blue Brick Walker’. Much like his father, Thomas Ferdinand Walker changed the face of the maritime industry. His patent of 1897, the ‘Cherub’ log, was a notable departure from the past providing a far more accurate reading and replacing the majority of logs of the age. They were the first to produce an electric log (Trident) and the Walker factory was one of the first to introduce the 48-hour work week for employees.The ship log was invented and made by a significant marine instrument maker and innovator of machinery. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades.Ships Log, Walker Trident electric motor, in wooden box with instructions inside box. The motor dial with electric cord is still inside box.Inscription "Admiralty patent number 3332" and "Walker Trident Electric Ship Log (Mark III), 15-25 volt". On top of lid, hand written, is "G TAYLOR"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, ships log, thomas walker & son, electric ships log, marine navigation, thomas ferdinand walker, ship log

The ship's log part, called a fish, is likely to be from a mechanical taffrail log system. It was recovered from the wreck site of the barque, the 1840-1852 Grange. There are no marks on the fish to identify its maker or model. It is part of the John Chance Collection. This ‘fish’ is part of an early to mid-1800s ship's log. It would likely have been part of a taffrail log connected to a rotor (also called propeller, spinner) by a strong line, and the other end connected by a line to a dial mounted on the taffrail, or stern rail, at the stern of the vessel. As the propeller rotated through the water it would spin the log, which in turn would cause a number to register on the dial, showing the current speed in knots; one knot equals one nautical mile per hour. TAFFRAIL LOGS A taffrail log is a nautical instrument used for measuring the speed of a vessel, providing vital navigational information to be calculated, such as location and direction. A log has been used to measure the speed of a vessel since the 1500s. A simple piece of wood was tied to a long line and thrown into sea at the back of the vessel. The rope was knotted all along at equal distances apart. On a given signal the log line was pulled back into the vessels, the knots counted until the log came up, then the figures were calculated by a navigator In 1802 the first successful mechanical log available for general use was invented by Edward Massey. It had a rotor 'V' section connected to a recording mechanism. The water’s movement rotated the rotor, which intern sent the movement to the recorder. There are examples of this invention available to see in some of the maritime museums. Thomas Walker, nephew of Edward Massey, improved on Massey’s design, and Walker and his son took out a patent on the A1 Harpoon Log. In 1861. Both Massey and Walker continued to improve the designs of the taffrail log. New designs were still being introduced, even up to the 1950s. THE GRANGE, 1840-1858- The wooden barque ’Grange’ was a three-masted ship built in Scotland in 1840 for international and coastal trade. On March 22, 1858, the Grange set sail from Melbourne under Captain A. Alexander, carrying a cargo of ballast. The barque had left the Heads of Phillip Bay and was heading west along the Victorian coast towards Cape Otway. The ship struck Little Haley’s Reef at Apollo Bay due to a navigational error and was stuck on the rocks. The crew left the ship carrying whatever they could onto the beach. Eventually, the remains of the hull, sails and fittings were salvaged before the wreck of the Grange broke up about a month later. About 110 years later, in 1968, the wreck of the Grange was found by divers from the Underwater Explorers Club of Victoria. They were amazed to find a unique, six to nine pound carronade (type of small cannon) and a cannonball on the site. There have been no other similar carronades recorded. In that same year the anchor of the Grange was recovered by diver John Chance and Mal Brown. The ship’s log is significant historically as an example of hardware used when building wooden ships in the early to mid-19th century. The ship’s log is historically significant as an example of the work and trade of blacksmith. The ship’s log also has significant as it was recovered by John Chance, a diver from the wreck of the Grange in the 1968. Items that come from several wrecks along Victoria's coast have since been donated to the Flagstaff Hill Maritime Village’s museum collection by his family, illustrating this item’s level of historical value. The ship’s log is historically significant for its association with the 1840s wooden barque, the Grange. The Grange is an historical example of a Scottish built vessel used for international and coastal trader of both cargo and passengers in the mid-19th century. The Grange is an example of an early ship, designed with a wooden hull. It is significant as a ship still available to divers along the south coast of Victoria, for research and education purposes. The Grange is an example of a mid-19th century vessel that carried a weapon of defence onboard. Ship log fitting, called a fish; part of a brass navigational instrument, likely to be from a taffrail log. The metal is a tan colour and has rough surface with a sheen, and discolouration in places. Its basic shape is a hollow cylinder with ends tapering to a smaller size. In the centre there are opposing openings cut out, showing a rough texture inside. One end on the cylinder is closed with a ring and shank installed, fixed by an embedded screw through the end of the cylinder. There are no inscriptions.flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, west coast trader, apollo bay, mid-19th century shipwreck, the grange, scottish barque, little henty reef, captain a alexander, underwater explorers club of victoria, vhr 5297, coastal trader, wooden shipwreck, john chance, wooden ship, taffrail log, marine instrument, marine technology, navigation, nautical instrument, mechanical log, nautical navigation, navigation equipment, scientific instrument, ship log, ship log register, ship speed, taff rail log, patent log, towed log, taffrail log fish, edward massey, thomas walker

This testing voltmeter recorder was last certified by SEC Vic laboratories on the 17/4/77. It was used extensively as mobile recorder placed for periods of one month at locations experiencing unacceptable fluctuations of power. These locations would cover the North East regions of Victoria. They cover voltage drops at domestic and business properties especially those that were experiencing regular fluctuations(daily) at approximately the same time of the day. As the electrical network is required to operate within a set level of voltage, fluctuations outside of this has to be investigated and necessary remedial action taken. This is especially so for rural properties where power "drainage" can occur through animal/bird and tree interference. It can also be the result of defective wiring and overloading at peek operational times (milking machines).This mobile voltage recorder is very significant to the Kiewa Valley because it highlights the difficulties that can occur in maintaining a power supply that experiences fluctuating power demands by the rural industries that it supplies. The requirement of a mobile testing apparatus to cover the various sections in the Kiewa Valley and other rural areas in the northeast region is one of necessity as electricity once connected to a rural property is a labour saving supply as generators on rural properties require a higher degree of maintenance an ultimately at a higher cost. The testing of the SEC Vic supplied electricity to rural properties,those who had previously run on generators, had to be quick and unassuming with certainty of correct supply levels.The mechanism of this voltage recorder has been installed(by the manufacturer) into its own protective wooden box. This box has a front (swing open) lockable section which permits direct access to the installed measuring equipment (for servicing and data collection). The top section of the box has two screw on terminals for access to the machine being tested. This tester has its own inbuilt ink supply facilities and a mechanical clockwork device that unwinds a roll of paper onto a second roll at a rate of 10 mm per hour. The recording chart is marked with time slots against voltage. There is a recording arm which has an ink pen at the end. Both arm and pen carry the ink supply from the ink reservoir, located on the left side of the cabinet door in specially constructed bottle holder( three small bottle capacity). To record a suspect power problem to a home or business establishment the voltmeter is connected to a power supply outlet being tested and wind the recording clockwork mechanism (gives a four week running time). Before leaving the recorder in situ the electrician checks to see if the chart is recording the correct voltage and that the clock mechanism is advancing correctly.On the front of the access "door" at the top a metal label "RECORDING AMMETER" below this "MURDAY SYSTEM" below this "ALTERNATING CURRENT" and below this the manufacturer's registered number "No. 139156" Below this is a metal tag with State Electricity Commission of Victoria Electrical Engineer's Section equipment number "338" Below these tags and above the viewing window is the manufacturer's dtails "EVERSHED & VIGNOLES Led LONDON"sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall, power outages

.1) Box open, cardboard, dark green buckram, white paper lining, gold print on sides. .2) - .7) Hard cover book, cardboard, dark green buckram with gold print on front cover & spine. Pages are plain, cut, white, black print, black & white illustrations. .2) Volume 1 of 6. Unit & Location Indexes / Bibliography, Orders of Battle. 483 pages. .3) Volume 2 of 6. Headquarters, Infantry, Cavalry / Armoured & Intelligence Units. 605 pages. .4) Volume 3 of 6. Artillery, Air Defence and Engineer Units. 626 pages. .5) Volume 4 of 6. Medical and Signal Units. Box of 6 books. The Unit Guide / The Australian Army / 1939 - 1945. 654 pages .6) Volume 5 of 6. Aust Army Service Corps, Aust Army Ordnance Corps and Aust Electrical & Mechanical Engineer Units. 706 pages. .7) Volume 6 of 6. Womens Services / Volunteer Defence Corps / War Graves, Survey, Labour, Salvage / Military Policing / Recruiting & Training / Dental, Bath & Laundry / Veterinary & Animal / Movements & Transit / Pay, Records & Printing, Postal / Amenities & Canteens Units. 568 pages. books- military history, unit guide

The A1 Gold Mine is located north of Woods Point, near Jamieson, in the Upper Goulburn region of Victoria. Gold was discovered at the A1 site in 1861 and mining operations began in 1864. The A1 Mine Settlement refers to a small township known variously as Castle Reef, Castle Point, and Raspberry Creek, which developed in the 1860s around mining industry centred on a crushing machine that worked the three gold reefs in the area. Historically, the name "A1"referred to the high quality of gold found in the quartz reefs at depths of at least two thousand feet. Along with the Morning Star mine at Woods Point, the A1 gold mine produced almost sixty percent of Victoria's gold output in the 1950s to 1970s and continued operating until 1992 when it went into administration. Operations at the site were revived in 2016 and the A1 Mine is now considered one of Victoria's premier gold mines. The A1 mine is part of the extensive and prospective Lachlan Fold Belt, a north-west trending belt of tightly folded Early Devonian sedimentary rocks extending from New South Wales to Victoria. Mineralisation is hosted within or immediately adjacent to diorite dykes. Contemporary development of the 'Queens Lode' at the A1 mine signals a move from high-grade, narrow vein airleg mining into larger scale, mechanical mining designed to increase ore production volume. This original, undated photograph of the A1 Mine appears to depict an area or phase of disuse or abandonment. The aged and humble appearance of the cottage suggests association with the historical A1 Mine Settlement, therefore the image may have been taken prior to the 1950s-1970s revival period in which the A1 mine is known to have produced high gold yields. The photograph contributes to our understanding of the A1 Gold Mine's impact on the landscape and the social, environmental impacts of mining on communities and may be compared with others in the Burke Museum's extensive collection of mining photographs to deepen our understanding of mining in the Jamieson area.Black and white rectangular photograph printed on photographic paperReverse: 5577 / A1 Mine / Near Jamieson / Vic. /burke museum, beechworth museum, beechworth, gold fields, gold rush, victorian gold rush, mining tunnels, gold ming history, colonial australia, australian gold rushes, mining technology, beechworth historic district, indigo gold trail, indigo shire, upper goulburn shire, jamieson, woods point-walhalla goldfield, a1 gold mine, victorian high country, modern mining methods, orogenic gold province, gold mineralisation, devonian, dykes

Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Derek Viner was involved in the development of the VIOSH program and the first course in 1979 was under his leadership. He completed a Bachelor of Science Mechanical Engineering in the 1960s and then a Master of Science Air Transport Engineering in the 1970s. Dennis Else came to join the staff at Ballarat College of Advanced Education in 1984. He came here from the University of Aston in Birmingham, England. While a member of the engineering staff he established the Health and Safety Unit within the School of Engineering and very involved with the VIOSH programme.Two colour photographs - portraitviosh, victorian institute of occupational safety and health, derek viner, dennis else, ballarat college of advanced education, bachelor of science mechanical engineering, master of science air transport engineeing, university of aston birmingham, health and safety unit, school of engineering, course co-ordinator

Mrs J.L.Smith and Ada Smith in the backyard of the house Law Muir Den 510 Centre Rd Bentleigh c 1910. . The early settler women usually devoted a whole day to washing as it was very labourious. A fire was lit in a stone pit and a large tub of water boiled. Soap that had been made, usually in the previous Autumn, from fat drippings and caustic soda, was flaked into the tub to form suds. The clothes were moved around in the tub with a long wooden paddle that was also used to lift the clothes out of the tub into another tub of cold rinsing water..Stains were removed by scrubbing soap on the cloth against a scrubbing board. Clothes were wrung by hand or a mechanical wringer and hung on the clothes line to dry. Mary Ann Smith was married John Logan Smith 1860-1932 who at first rented a cottage 'Law Muir Den' & Shed from Mr Box and commenced business as a wood merchant - sawing logs into shorter pieces using one horse to power the saw. He purchased the property, added to the buildings , began trading in fuel and fodder as well and installed a chaff cutting mill powered by 10hp steam engine. The business prospered As Motor transport was increasing 1926 J L Smith built a small Garage on the opposite corner (Woolworths Supermarket 2005) , employed a good mechanic ( Reg Hunt ) and developed another successful business. J.L.Smith was an early settler in East Brighton now Bentleigh and established successful Wood cutting, Grain & Chaff cutting and Motor garage businesses in Centre Road . He was elected Councillor of the Shire of Moorabbin and, with Mary Ann, his family were involved with local Church, Red Cross, and other community organizations.Photograph, Black & White, showing 2 women washing clothes in a large tub, set over a fire in a stone pit, in the back yard. Clothes are hanging from a rope line strung between 2 trees and held up with a wooden 'prop'

This Edison Ediphone voice recording electronic business machine is manufactured to suit a small office and is light enough to carry between work and home for use outside normal business hours. It is a dictation machine, also called by the competitor’s brand name ‘Dictaphone’, and is used for recording spoken words that would later be transcribed and typewritten. A wax cylinder would be installed onto the machine’s drum and the Reproducer on the machine would be lowered onto the cylinder. The user would speak a message into a microphone and the reproducer would then convert the sounds to scribed marks on the cylinder. Later, the cylinder could be played and the Reproducer would enable the sound to be amplified through an attached speaker. This machine is currently without its power cord, microphone and speaker horn. Thomas A. Edison extended the technology of the telegraph to his phonograph machine, invented in the late 19th century. It could record and play back sounds of music and voice on a manually operated mechanical machine that used wax cylinders to store the sound. He envisaged the way this technology could be an asset in the office, and he was right! However, most of his phonograph machines were used for entertainment, some for playing lessons, and some for-teaching languages. In 1916 Edison introduced the Ediphone, which grew in popularity after the First World War and into the late 1920s until flat round records replaced the wax cylinders. This Edison Ediphone is significant for improving the way business administration was carried out in the early 20th century, freeing up precious time for professionals and administrative personnel. It was the forerunner of audio tapes and digital technology. The Ediphone enabled letters to be dictated when the time and place suited and reduced the time professionals needed to spend with their secretaries. Secretaries were able to type the letters as they played the recording and they could replay the message if necessary.Voice recorder; a dictation machine; desktop model Edison Ediphone. The electronic machine is in a medal case with remnants of the original grey colour. It has a rectangular base with an A4-sized footprint and a domed hood that retracts halfway into the back of the base. The corners of the base have metal reinforcing, and a short metal bar is on the front centre edge of the lid and the base. A long metal drum is mounted inside the machine. A round device called a ‘reproducer’ is mounted above the drum. There is a folding handle on the left front of the machine and an angled stand with paper guides in front of the drum. A rear cover has the maker’s name stamped on it. An electrical socket with eight pins is recessed beside the cover. Made by Edison.In white letters; “EDISON”flagstaff hill, warrnambool, maritime village, maritime museum, shipwreck coast, great ocean road, edison, ediphone, dictating machine, office equipment, voice recorder, usa, dictation, communication, office machine, dictaphone, speaking phonograph, thomas edison, ediphone voicewriter, voice writer

Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Notice advertising a seminar to be held at Ballarat College of Advance Education on Friday 16th July, 1982. Registration is at 9.00 to 9.30am, It is planned to conclude at 5.00pm. The speaker will be Professor Ralph Vernon from the Industrial Hygiene and Safety Engineering Division, Texas A&M University U.S.A. Topic is "Product Safety and Product Liability". The growth in product liability litigation in the U.S.A. is a major concern to manufacturers. Australian manufacturers should be aware and protect themselves. Cost of Seminar - $50.00 (including lunch). Those wishing to attend to return slip to Mr T Norwood, Head of Mechanical Engineering by 1st July.A4 sheet - printed sheet - rust colour ink. Small return slip re attendanceBCAE Letterheadviosh, victorian institute of occupational safety and health, seminar, ballarat college of advanced education, professor ralph vernon, texas a&m university, product safety and product liability, t d norwood, industrial hygiene and safety engineering division, department of mechanical engineering

Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Brief outline of the history of the development of VIOSH, and those responsible. They were Derek Viner (the initial Course Co-ordinator), Mr Tom Norwood (Head of the Mechanical Engineering Department), Mr Eric Wigglesworth (Chairman of the Education Committee of the Safety Institute of Australia) and Mr Zig Plavina (Technical Officer in the School of Engineering and Secretary of the Campus Safety Committee). Dr Dennis Else from the University of Aston, Birmingham arrived to establish the Victorian Institute of Occupational Safety and Health within the Engineering division of the University. Following the introductory speech, the talk gave information on the development, problems and theory of designing safe workplaces.One A4 page typed.viosh, victorian institute of occupational safety and health, social history, sociology, derek viner, course co-ordinator, tom norwood, head of mechanical engineering, eric wigglesworth, chairman, education committee of the safety institute of australia, zig plavina, technical officer, school of engineering, campus safety committee, university of aston, dennis else

A cigarette lighter is a portable device used to generate a flame. It consists of a metal or plastic container filled with a flammable fluid or pressurized liquid gas, a means of ignition, and some provision for extinguishing the flame. A spark is created by striking metal against a flint, or by pressing a button that compresses a piezoelectric crystal (piezo ignition), generating an electric arc. In naphtha lighters, the liquid is sufficiently volatile, and flammable vapour is present as soon as the top of the lighter is opened. Butane lighters combine the striking action with the opening of the valve to release gas. The spark ignites the flammable gas causing a flame to come out of the lighter which continues until the top is closed (naphtha type), The Beney Company was founded by Robert Ernest Beney of London, England. R. E. Beney invented and marketed the first Beney mechanical lighter in 1919. Beney also designed and manufactured numerous luxury lighters and striker boxes for Alfred Dunhill of London as well as Hermes of Paris. In 1938, Beckenham based Beney Lighters was acquired, adding utility lighters and precision tools to the company's (Winn & Coates) ever growing list of products. The biggest selling line manufactured by Beney was the Economic Gas Lighter which hung on the side of housewife's gas cookers and was also used for lighting Bunsen burners in laboratories. In 1939-1940 the company moved its administration to the Beney Lighter premises in Beckenham after the Head Office at Trinity Square along with many company records were destroyed in a 'doodlebug' flying bomb attack. Beney Ltd. continued producing lighters at least through the late 1954. A green metal cigarette lighter that used fuel and a striking action arm to produce a flame .base: BENEY / COMPANION / PATENT 568897 / BRITISH MADEtobacco, cigarettes, cigarette lighters, fuels, moorabbin, cheltenham, bentleigh, early settlers, beney pty ltd, beckenham england

he subject item is a pedal-powered rip saw with a tilting table made in the USA by W.F. & John Barnes Co. of Rockford, Illinois, between 1874 and 1890. The saw's blade moves rapidly in a circular motion and is driven by a pedal that spins a heavy flywheel with a leather belt attached to a gear drive that in turn drives the circular saw blade. The operator holds a wood workpiece on the table and moves it forward so the blade cuts it to the desired width and length. Company History: WF & John Barnes Co. was established in 1869, by making a formal partnership between William F. Barnes and John Barnes in 1872, and then incorporating in 1884. This company was an early manufacturer of pedal-powered equipment. By 1881 they were also making powered machinery such as lathes and pedestal drills. Many companies were making lightweight foot-powered equipment, but Barnes and the Seneca Falls Co. were the only ones to also make professional-grade workshop machines. From the beginning of their existence, they focused on pedal-powered machinery and specialised in making scroll saws. By 1937 the company focus had completely shifted to automotive assembly machinery, and custom-built machinery, machine tools, electrical, hydraulic, and mechanical controls and systems, including nuclear hardware. their production of foot-powered machinery had ceased. In the intervening years, they have got out of manufacturing completely. After a series of ownership changes, their equipment parts and stock were purchased in 1998 by LeBlond Ltd. of Amelia, Ohio. An item that although incomplete gives a snapshot into the manufacture and use of early woodworking machinery before the introduction of electricity or electric motors to power machines.A Treadle powered tilting table saw benchWF & J Barnes, Rockford Ill USA flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

First State Watch Factory: This factory was founded in 1930 under orders from Joseph Stalin, the "First State Watch Factory" was the first large-scale Soviet watch and mechanical movement manufacturer in the USSR. Via its USA-based trading company (Amtorg), the Soviet government bought the defunct Ansonia Clock Company of Brooklyn, New York in 1929, and the "Dueber-Hampden Watch Company of Canton", based in Ohio. The soviets moved twenty-eight freight cars full of machinery and parts from the USA to Moscow in order to establish the factory. Twenty-one former "Dueber-Hampden" watchmakers, engravers and various other technicians helped to train the Russian workers in the art of watchmaking as part of the Soviet's first five-year plan. The movements of very-early products were still stamped "Dueber-Hampden, Canton, Ohio, USA" (examples of these watches are very collectible today). In 1935 the factory was named after the murdered Soviet official Sergei Kirov. During the second world war, as the Germans closed in on Moscow in 1941, the factory was hurriedly evacuated to (Zlatoust USSR). By 1943 the Germans were in retreat, and the factory was moved back to Moscow, adopting the "First Moscow Watch Factory" name. In 1947 the first wristwatches under the brand name "Pobeda" and the first Marine Chronometers and Deck watches were produced. By 1951 the production of wristwatches had increased to 1.1 million. In 1975 new machinery and equipment for manufacturing complex watches were imported from Switzerland. The first chronograph called "Okean" (3133) was produced for the space station "Soyuz-23."The Chronometer is of recent manufacture and an excellent example of the type of instrument used to navigate the seas in the 19th century. It is of good quality and of a type regarded as very accurate and well made. The maker, First Watch Factory, has a dept that is still producing the "8916" standard Chronometer for horologists and collectors. Marine chronometer of Russian make in wooden case, metal handles on sides, inscription on a metal plaque on the front of the case. Polished square wooden outer case with green felt lining and, a leather carrying strap and buckle. Outer case is hinged and has a metal latch on the front. Outer case has a red velvet covering with a button and loop closure. Inscription on box are in Russian & translate as follows: ХРОНОМЕТР, = CHRONOMETER МОРСКОЙ, = NAUTICAL ГОСТ, 8916-77 = Gost ЛОЛ ЕТ, on dial face = LOL ETflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chonometer, russian, watch factory, marine, navigational instrument

Louis Heinrici, Germany, circa 1900 a small Stirling type hot air engine in which a body of air is worked constantly, being alternately heated and cooled during each revolution of the crankshaft. Heinrici hot air engines are of the valveless, closed cycle type, generally called Stirling cycle engines, after Robert Stirling, the Scottish Presbyterian minister who pioneered their development in the early 1800's. They operate by alternately heating and cooling a quantity of air, called the working fluid, contained in the engine's internal spaces. Heat is applied externally and passes through the cylinder wall, heating the working fluid, which is then expanded against a piston to do mechanical work. After heating and expanding, the working fluid is moved to a cool space where it cools and contracts before being returned to the hot space for the cycle to repeat. It has a displacer (just a loose piston), below and in the same cylinder as the power piston to which it is connected via cranks and linkages so as to lead by 90degrees of crankshaft angle. The displacer space and the piston space are connected by the annular gap around the loose fitting displacer so that the working fluid moves between these spaces and changes volume by the appropriate ratio as the engine rotates. Because they have no valves and experience no sudden pressure changes, Stirling engines are noted for quietness and reliability. Heinricis use air at atmospheric pressure for their working fluid, but for higher specific output (power for size) and better efficiency, modern Stirling cycle engines use pressurised gas- air, nitrogen, helium or hydrogen.Historic - Hot Air Engine - MotorHot Air Motor made of Steel with two drive wheels. a small Stirling type hot air engine in which a body of air is worked constantly, being alternately heated and cooled during each revolution of the crankshaft. Heinrici Motorheinrici hot air motor, puffing billy

George JOHNSON (18 August 1926- ) Born Nelson, New Zealand Arrived Australia 1953 George Johnson's formalised abstractions usually feature a pattern of small related geometrical shapes which give life, luminosity and fluidity to forms which might be mechanical and lifeless. Later his forms become become much larger and more architonic. The work of George Johnson debuted at the Herald Outdoor Art Show in 1953. The George Johnson Mural was commissioned by the Ballarat Teachers' College Students' Representative Council in 1965. It was purchased with funds raised by staff and students. At the unveiling of this work at the Ballarat Teachers' College Johnson's work was described at belonging to the "Hard Edged" school of abstract painters who had set themselves far above the mass of abstract painters by the vitality and artistic ability displayed in their work. Of the work John JOhnson said "We are all part of life and are growing and developing in many different ways, the process of development is often taking place without us even being aware of it. In my painting the embryo shapes appear and grow. I have tried to make the mural symbolic of life and growth. I do not thank that anything has been left to chance in the mural. Everything is working, and, I feel, working well. It has balance and harmony - and perhaps discord, as does life - one malfunction or imbalance throws everything out." This item is part of the Federation University Art Collection. The Art Collection features over 2000 works and was listed as a 'Ballarat Treasure' in 2007.A painted mural in three panels, including hession collage. art, artwork, george johnson, johnson, ballarat teachers' college art collection, mural, hard edged