A graduated cylinder, also known as a measuring cylinder or mixing cylinder, is a common piece of laboratory equipment used to measure the volume of a liquid. It has a narrow cylindrical shape. Each marked line on the graduated cylinder represents the amount of liquid that has been measured. A traditional graduated cylinder is usually narrow and tall so as to increase the accuracy and precision of volume measurement. It has a plastic or glass base (stand, foot, support) and a "spout" for easy pouring of the measured liquid. https://en.wikipedia.org/wiki/Graduated_cylinder The glass measuring tube was donated to Flagstaff Hill Maritime Village by the family of Doctor William Roy Angus, Surgeon and Oculist. It is part of the “W.R. Angus Collection” includes historical medical equipment, surgical instruments and material once belonging to Dr Edward Ryan and Dr Thomas Francis Ryan, (both of Nhill, Victoria) as well as Dr Angus’ own belongings. The Collection’s history spans the medical practices of the two Doctors Ryan, from 1885-1926 plus that of Dr Angus, up until 1969. ABOUT THE “W.R.ANGUS COLLECTION” Doctor William Roy Angus M.B., B.S., Adel., 1923, F.R.C.S. Edin.,1928 (also known as Dr Roy Angus) was born in Murrumbeena, Victoria in 1901 and lived until 1970. He qualified as a doctor in 1923 at University of Adelaide, was Resident Medical Officer at the Royal Adelaide Hospital in 1924 and for a period was house surgeon to Sir (then Mr.) Henry Simpson Newland. Dr Angus was briefly an Assistant to Dr Riddell of Kapunda, then commenced private practice at Curramulka, Yorke Peninsula, SA, where he was physician, surgeon and chemist. In 1926, he was appointed as new Medical Assistant to Dr Thomas Francis Ryan (T.F. Ryan, or Tom), in Nhill, Victoria, where his experiences included radiology and pharmacy. In 1927 he was Acting House Surgeon in Dr Tom Ryan’s absence. Dr Angus had become engaged to Gladys Forsyth and they decided he further his studies overseas in the UK in 1927. He studied at London University College Hospital and at Edinburgh Royal Infirmary and in 1928, was awarded FRCS (Fellow from the Royal College of Surgeons), Edinburgh. He worked his passage back to Australia as a Ship’s Surgeon on the on the Australian Commonwealth Line’s T.S.S. Largs Bay. Dr Angus married Gladys in 1929, in Ballarat. (They went on to have one son (Graham 1932, born in SA) and two daughters (Helen (died 12/07/1996) and Berenice (Berry), both born at Mira, Nhill ) According to Berry, her mother Gladys made a lot of their clothes. She was very talented and did some lovely embroidery including lingerie for her trousseau and beautifully handmade baby clothes. Dr Angus was a ‘flying doctor’ for the A.I.M. (Australian Inland Ministry) Aerial Medical Service in 1928 . Its first station was in the remote town of Oodnadatta, where Dr Angus was stationed. He was locum tenens there on North-South Railway at 21 Mile Camp. He took up this ‘flying doctor’ position in response to a call from Dr John Flynn; the organisation was later known as the Flying Doctor Service, then the Royal Flying Doctor Service. A lot of his work during this time involved dental surgery also. Between 1928-1932 he was surgeon at the Curramulka Hospital, Yorke Peninsula, South Australia. In 1933 Dr Angus returned to Nhill and purchased a share of the Nelson Street practice and Mira hospital (a 2 bed ward at the Nelson Street Practice) from Dr Les Middleton one of the Middleton Brothers, the current owners of what previously once Dr Tom Ryan’s practice. Dr Tom and his brother had worked as surgeons included eye surgery. Dr Tom Ryan performed many of his operations in the Mira private hospital on his premises. He had been House Surgeon at the Nhill Hospital 1902-1926. Dr Tom Ryan had one of the only two pieces of radiology equipment in Victoria during his practicing years – The Royal Melbourne Hospital had the other one. Over the years Dr Tom Ryan had gradually set up what was effectively a training school for country general-practitioner-surgeons. Each patient was carefully examined, including using the X-ray machine, and any surgery was discussed and planned with Dr Ryan’s assistants several days in advance. Dr Angus gained experience in using the X-ray machine there during his time as assistant to Dr Ryan. When Dr Angus bought into the Nelson Street premises in Nhill he was also appointed as the Nhill Hospital’s Honorary House Surgeon 1933-1938. His practitioner’s plate from his Nhill surgery is now mounted on the doorway to the Port Medical Office at Flagstaff Hill Maritime Village, Warrnambool. When Dr Angus took up practice in the Dr Edward and Dr Tom Ryan’s old premises he obtained their extensive collection of historical medical equipment and materials spanning 1884-1926. A large part of this collection is now on display at the Port Medical Office at Flagstaff Hill Maritime Village in Warrnambool. In 1939 Dr Angus and his family moved to Warrnambool where he purchased “Birchwood,” the 1852 home and medical practice of Dr John Hunter Henderson, at 214 Koroit Street. (This property was sold in1965 to the State Government and is now the site of the Warrnambool Police Station. and an ALDI sore is on the land that was once their tennis court). The Angus family was able to afford gardeners, cooks and maids; their home was a popular place for visiting dignitaries to stay whilst visiting Warrnambool. Dr Angus had his own silk worm farm at home in a Mulberry tree. His young daughter used his centrifuge for spinning the silk. Dr Angus was appointed on a part-time basis as Port Medical Officer (Health Officer) in Warrnambool and held this position until the 1940’s when the government no longer required the service of a Port Medical Officer in Warrnambool; he was thus Warrnambool’s last serving Port Medical Officer. (Masters of immigrant ships arriving in port reported incidents of diseases, illness and death and the Port Medical Officer made a decision on whether the ship required Quarantine and for how long, in this way preventing contagious illness from spreading from new immigrants to the residents already in the colony.) Dr Angus was a member of the Australian Medical Association, for 35 years and surgeon at the Warrnambool Base Hospital 1939-1942, He served with the Australian Department of Defence as a Surgeon Captain during WWII 1942-45, in Ballarat, Victoria, and in Bonegilla, N.S.W., completing his service just before the end of the war due to suffering from a heart attack. During his convalescence he carved an intricate and ‘most artistic’ chess set from the material that dentures were made from. He then studied ophthalmology at the Royal Melbourne Eye and Ear Hospital and created cosmetically superior artificial eyes by pioneering using the intrascleral cartilage. Angus received accolades from the Ophthalmological Society of Australasia for this work. He returned to Warrnambool to commence practice as an ophthalmologist, pioneering in artificial eye improvements. He was Honorary Consultant Ophthalmologist to Warrnambool Base Hospital for 31 years. He made monthly visits to Portland as a visiting surgeon, to perform eye surgery. He represented the Victorian South-West subdivision of the Australian Medical Association as its secretary between 1949 and 1956 and as chairman from 1956 to 1958. In 1968 Dr Angus was elected member of Spain’s Barraquer Institute of Barcelona after his research work in Intrasclearal cartilage grafting, becoming one of the few Australian ophthalmologists to receive this honour, and in the following year presented his final paper on Living Intrasclearal Cartilage Implants at the Inaugural Meeting of the Australian College of Ophthalmologists in Melbourne In his personal life Dr Angus was a Presbyterian and treated Sunday as a Sabbath, a day of rest. He would visit 3 or 4 country patients on a Sunday, taking his children along ‘for the ride’ and to visit with him. Sunday evenings he would play the pianola and sing Scottish songs to his family. One of Dr Angus’ patients was Margaret MacKenzie, author of a book on local shipwrecks that she’d seen as an eye witness from the late 1880’s in Peterborough, Victoria. In the early 1950’s Dr Angus, painted a picture of a shipwreck for the cover jacket of Margaret’s book, Shipwrecks and More Shipwrecks. She was blind in later life and her daughter wrote the actual book for her. Dr Angus and his wife Gladys were very involved in Warrnambool’s society with a strong interest in civic affairs. He had an interest in people and the community They were both involved in the creation of Flagstaff Hill, including the layout of the gardens. After his death (28th March 1970) his family requested his practitioner’s plate, medical instruments and some personal belongings be displayed in the Port Medical Office surgery at Flagstaff Hill Maritime Village, and be called the “W. R. Angus Collection”. The W.R. Angus Collection is significant for still being located at the site it is connected with, Doctor Angus being the last Port Medical Officer in Warrnambool. The collection of medical instruments and other equipment is culturally significant, being an historical example of medicine from late 19th to mid-20th century. Dr Angus assisted Dr Tom Ryan, a pioneer in the use of X-rays and in ocular surgery.Glass tube or cylinder with wide base and pouring lip. Measurements in ml and fl oz.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, measuring device, measuring cylinder, glass

The theodolite was sold by T. Gaunt & Co. of Melbourne, a manufacturer, importer and retailer of a wide variety of goods including jewellery, clocks and watches, navigational and measuring instruments, dinnerware, glassware and ornaments. Thomas Gaunt photograph was included in an album of security identity portraits of members of the Victorian Court, Centennial International Exhibition, Melbourne, 1888. (See further details below.) History for Troughton & Simms: Edward Troughton & William Simms established a scientific instrument making business in London in 1826. Edward Troughton (1756-1835) had previously had his own scientific instrument business, inherited from his father. His achievement's included a transit telescope for Greenwich Observatory (1816) and the precision surveying instruments for the Ordnance Survey of Britain, Ireland and India. William Simms (1793-1860) had trained as a goldsmith and began to gain work dividing circles on fine astronomical instruments. When William Simms died in 1860, the business was taken over by his son James and nephew William. Troughton & Simms shop in Fleet Street became the hub of the finest scientific instrument made in London, in a period in which there was an expanding demand for precision instruments, for astronomy, surveying and precision measurement. They made instruments for Greenwich Observatory, for imperial surveys and exploring expeditions. When fire destroyed the Houses of Parliament in 1834, the firm was commissioned to create new standard lengths, this required 10 years of testing against the remaining old measurements. Troughton and Simms made several of the main instruments for Melbourne Observatory, including an 18 inch azimuth used of the Geodetic Survey, portable transit instrument (circa 1850), zenith sector (1860), a 4.5 inch equatorial telescope (1862), an 8 inch equatorial telescope (1874) spectroscope (1877) and an 8 inch transit instrument in (1884). While the firm had an excellent reputation for quality the company exasperated many of its customers with delays of years in delivering some instruments. History for Thomas Gaunt: Thomas Ambrose Gaunt (1829 – 1890) was a jeweller, clock maker, and manufacturer of scientific instruments, whose head office and showroom were at 337–339 Bourke Street, Melbourne, Victoria, Australia. Thomas Gaunt established Melbourne's leading watchmaking, optical and jewellery business during the second half of the 19th century. Gaunt arrived in Melbourne in 1852, and by 1858 had established his own business at 14 Little Bourke Street. Around 1869 he moved to new premises in Bourke Street on the corner of Royal Arcade, Gaunt's shop quickly became a Melbourne institution. Gaunt proudly advertised that he was 'The only watch manufacturer in the Australian colonies'. While many watches and clocks may have had Gaunt's name on the dial, few would have been made locally. Gaunt did make some watches for exhibitions, and perhaps a few expensive watches for wealthy individuals. Gaunt's received a telegraph signal from Melbourne Observatory each day to correct his main clock and used this signal to rate and repair ship's chronometers and good quality watches. Thomas Gaunt also developed a department that focused on scientific instrumentation, making thermometers and barometers (from imported glass tubes), telescopes, surveying instruments and microscopes. Significance: With the rapid urban expansion, one of the most important needs of the new colony was to survey and map the landscape of the Australian Colony’s interior. Theodolites, such as this one, made by Troughton and Simms, who were significant scientific instrument makers of the 19th century were instrumental to the colony's surveyors and would have played an important part in their everyday work. This transit theodolite remains of national significance due to its pioneering role in Australian science and its association with Australia's earliest surveyors and astronomers. It is also significant for its association with nineteenth-century surveying instruments and instrument makers. Theodolite, Vernier repetition theodolite with enclosed horizontal circle (of about 130 mm diameter). Vertical circle exposed and somewhat corroded (diameter about 115 mm). Plate level 20" per division. Altitude bubble 20" per division. Horizontal and vertical circle intervals 20". Original (blue/grey) paint. Altitude bubble setting screw disabled. Tribrach allows movement of theodolite by 15 mm inside tribrach (for centering).Inscribed on the inner mounting plate,“Specially made in England for T Gaunt & Co Melbourne” and inscribed a little lower “Troughton & Simms London”flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, theodolite, t. gaunt & co, troughton & simms, scientific instrument, measuring instrument, surveyor's instrument

On 12 January, the World Health Organization (WHO) confirmed that a novel coronavirus was the cause of a respiratory illness in a cluster of people in Wuhan City, Hubei Province, China, who had initially come to the attention of the WHO on 31 December 2019. On 3 March, the Reserve Bank of Australia became the first central bank to cut interest rates in response to the outbreak. Official interest rates were cut by 0.25% (25 base points) to a record low of 0.5%. On 12 March, the Federal Government announced a A$17.6 billion stimulus package, the first since the 2008 GFC. he package consists of multiple parts, a one-off A$750 payment to around 6.5 million welfare recipients as early as 31 March 2020, small business assistance with 700,000 grants up to $25,000 and a 50% wage subsidy for 120,000 apprenticies or trainees for up to 9 months, 1 billion to support economically impacted sectors, regions and communities, and $700 million to increase tax write off and $3.2 billion to support short-term small and medium-sized business investment. On 16 March, Premier Dan Andrews and Minister for Health Jenny Mikakos declared a state of emergency for Victoria for at least four weeks. On 19 March, the Reserve Bank again cut interest rates by a further 0.25% to 0.25%, the lowest in Australian history. On 22 March, the government announced a second stimulus package of A$66bn, increasing the amount of total financial package offered to A$89bn. This included several new measures like doubling income support for individuals on Jobseeker's allowance, granting A$100,000 to small and medium-sized businesses and A$715 million to Australian airports and airlines. It also allowed individuals affected by the outbreak to access up to A$10,000 of their superannuation during 2019–2020 and also being able to take an additional same amount for the next year. on the same day Victorian Premier Daniel Andrews announced on 22 March that the state will bring the school holiday forwards to 24 March from 27 March. On 30 March, the Australian Federal Government announced a $130 billion "JobKeeper" wage subsidy program offering to pay employers up to $1500 a fortnight per full-time, part-time or casual employee that has worked for that business for over a year. For a business to be eligible, they must have lost 30% of turnover after 1 March of annual revenue up to and including $1 billion. For businesses with a revenue of over $1 billion, turnover must have decreased by 50%. Businesses are then required by law to pay the subsidy to their staff, in lieu of their usual wages. This response came after the enormous job losses seen just a week prior when an estimated 1 million Australians lost their jobs. This massive loss in jobs caused the myGov website to crash and lines out of Centrelink offices to run hundreds of metres long.The program was backdated to 1 March, to aim at reemploying the many people who had just lost their jobs in the weeks before. Businesses would receive the JobKeeper subsidy for six months.Colour photographs of furniture placed for social distancing in the Federation University E.J Barker Library during the Covid-19 Pandemic. The next day the library was closed all except staff.covid-19, corona virus, pandemic, library, e.j. barker library, mt helen library

Thaddeus Fairbanks (1796 –1886) was an American inventor. of heating and cook stoves, cast iron ploughs, and other items. His greatest success was the invention and manufacture of the platform scale, which allowed the weighing of large objects accurately. Fairbanks was born in Brimfield, Massachusetts, on January 17, 1796, the son of Joseph Fairbanks (1763–1846) and Phebe (Paddock) Fairbanks (1760–1853). His uncle was Ephraim Paddock, the brother of Phebe Paddock. In 1815 he moved to St. Johnsbury, Vermont, and set up a wheelwright's shop above his father's gristmill. In 1820 he married Lucy Peck Barker and In 1824 he built an iron foundry. his brother Erastus joined him to establish E. and T. Fairbanks, a partnership to manufacture heating stoves, cast iron ploughs a design for which he patented in 1826. In 1830 Fairbanks and Erastus became interested in the raising and processing of hemp. Fairbanks went on to patent a hemp and flax dressing machine and became the manager of the St. Johnsbury Hemp Company. He also built a set of scales that would measure large loads of hemp accurately, as there were no reliable scales at the time. Upon the success of building these scales, his brothers recommended that he make and sell these for general use.  Fairbanks' most famous invention then became the platform scale for weighing heavy objects. These are commonly known as the Fairbanks Scales, for which he patented his original design in 1830.  Before this time, accurate weighing of objects required hanging them from a balancing beam as a result, particularly heavy or ungainly objects could not be weighed accurately. A platform scale, if large enough, could weigh an entire wagon. By placing a full wagon on the scale, unloading it, and then placing it on the scale when empty, it became possible to easily and accurately calculate the weight and value of farm produce and other loads. In 1834 Fairbanks and his brother formed "E. and T. Fairbanks and Company" to manufacture and sell these platform scales. These scales were well known in the United States and around the world resulting in the company doubling in volume every three years from 1842 to 1857. There was a temporary slow down during the American Civil War, however, the business took off again after the war. Their partnership was incorporated in 1874 into a firm known as "Fairbanks Scale Company". These platform scales revolutionized weighing methods of large loads and have been in use ever since. Portable platform scales are found in almost every hardware store, physician's office, and manufacturing factory throughout the United States and the world. The first railway track platform scale patent was granted to Fairbanks on January 13, 1857, as Patent No. 16,381. In 1916 the company was purchased by ”Fairbanks, Morse and Company”. Ownership of the company has since changed several times, but Fairbanks Scales continue to be made in St. Johnsbury Vermont to this day. Fairbanks had received 43 patents in his lifetime with the last one at the age of 91. He died on April 12, 1886, and is buried at St. Johnsbury, Vermont, at the Mount Pleasant Cemetery. An early example of the first type of platform scale that revolutionised the weighing of goods throughout the world made in the USA around the turn of the 19th century. Commercially built platform scale on wheels. Cast iron base supports iron weighing platform with wooden floor. At back, square hollow wooden post supports a hooded rod which bears the weight of the platform and which hooks onto a brass balancing arm, marked in pounds up to 50. There is a cylindrical sliding weight and on the end a loop for a metal weight holder. The holder is designed for three circular pieces of metal with a slit to the centre. The weights used are 50, 100 and 200 lbs.Embossed to base Fairbanks Patent No 11 1/2, flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, platform scales

The City of Ballarat unanimously resolved to erect a Civic Hall in Mair Street in 1951. The architects, Gordon Murphy, of Melbourne, and H.L. and L.J. Coburn, of Ballarat, were commissioned in 1952. The Council constructed the foundations and footings for the building under the supervision of the former City engineer, Mr L.H. Finch, in 1953. These footings are of massed concrete. The design for the building took advantage of the cross fall of the land, providing for the Small Hall to be entered from the Doveton Street frontage through a foyer under the Main Stage, the structure is steel with brick panels, with accommodation for 1,592 persons in the Main Hall and 440 persons in the Lower Hall. The front facade faces Mair Street, set back from the building line to provide for the entrance drive-ways and kerbed gardens. Tenders were invited on a firm price basis. A young Ballarat master Builter, Walter Benbow Trahar was the successful tenderer, the contract price being 139,841 pounds. the work was commenced in 1953 and has proceeded in spite of material and labour difficulties until its completion. The following statistics are of interest:- * The foundations contained 200 cubic yards of concrete. * The constructional steel work weighs approximately 270 tons. * The reinforcing steel 47 tons. * Reinforced concrete in the structure, 1,100 cubic yards. * The approximate number of bricks in the building, 580,000. * The flooring is of selected kiln-dried hard wood and totals 40,000 lineal feet. * The dimensions of the Main Auditorium, 100ft by 86 ft, including the side promenades each 82ft by 13ft. *The Main stage, of reinforced concret with parquette finish measures 62 ft by 40ft. *The floor area of the Lower Hall is 74 ft by 38 ft, and has a stage dimensions of 40ft by 20 ft. * Each hall has independent heating and ventillating systems. Where possible the material in the building was furnished from local business houses. The public address installation, which provided for additional microphones, is on the main Stage. There is inter-communication throughout the building connecting the front office, with the bioscope box, the stages in both the large and lower halls, and the Hallkeeper's residence. Local craftsmen have completed the painting, plaster work, and the electrical installation; local produced materials being used in the construction of the buildings with the exception of the timber for the Main Floor, the roofing and the structural steel. The City of Ballarat Councillors in 1956 were Councillors N. T. Callow, F.J. Cutts, K.C. Webb, W.E. Roff, O.W. Curnow, F.T. Woodward, Allan C. Pittard, A.W. Nicholson, J.A. Chisholm, G.L. Scott, F.W. Oliver, A.D. Mason. The Town clerk was H.R. Maddern and the City Engineer was G. Murrowood. A City of Ballarat Council meeting of 25 September 2013 voted to demolish the Ballarat Civic Hall. The Council heard from nearly 50 members of the public during a marathon six-hour meeting. Councilors John Birt, Des Hudson, Amy Johnson, Josh Morris, Peter Innes, John Philips supported the motion to demolish Civic Hall. Councillors Samantha McIntosh, Vicki Coltman and Belinda Coates voted against the motion.Six page souvenir Program of citizens' entertainment on the occasion of the Opening of Ballarat Civic Hall on in August 1956. The front cover features the City of Ballarat Coat of Arms. The programme starts with a message from the Mayor, Cr Neil T. Carrow. It includes the Concert Programme directed by James H. Davey, an asrtist's impression of the Civic Hall from Mair Street, and information relative to the New Civic Hall. The programme features images of the City of Ballarat Coat of Arms, Cr N.T. Callow, , James H, Davey, and an artist's impression of the Ballarat Civic Hall. Mayor Neil Callow's Message: "To-day, our citizens witness the fulfilment of the most extensive Municipal undertaking in the City's period of recent prosperity and development. Their Hall now fills a requirement of which they have been deprived since the Coliseum building was destroyed by fire over 20 years ago. The building has been designed as an all purpose structure and I am hopeful the citizens will use it and enjoy it to its fullest extent. Your Council and its Architects have planned as broadly as possible for the benefit of all to-day and for years to come. We are proud of the work executed by a Ballaarat Master Builder whose work is a monument to the City's craftsmen. I feel I should also remind this assembly that the women of Ballaarat, back in 1951, provided funds which have been applied in the purchase of a Grand Piano and two Upright Pianos which are now installed in this building. The sincere hope of myself and your Councillors is that this Hall and its amenities will prove of immense value to the development of the cultural and artistic tastes of this community and that it will be freely used for these and many other purposes. From now on this magnificent building and its furnishings and equipment will be available to all. I strongly exhort you to use and protect it. My hope is that the citizens will, for many years to come, enjoy the amenities which it has to offer. ballarat civic hall, civic hall, architecture, finch, art deco, city of ballarat, coat of arms, city of ballarat coat of arms, callow, shugg, lemke, oates, gullan, tuuri, john, robertson, sorrell, antonio, gordon murphy, walter benbow trahar, trahar, coburn, h.l. coburn, l.j. coburn, n.t. callow

Thaddeus Fairbanks (1796 –1886) was an American inventor. of heating and cook stoves, cast iron ploughs, and other items. His greatest success was the invention and manufacture of the platform scale, which allowed the weighing of large objects accurately. Fairbanks was born in Brimfield, Massachusetts, on January 17, 1796, the son of Joseph Fairbanks (1763–1846) and Phebe (Paddock) Fairbanks (1760–1853). His uncle was Ephraim Paddock, the brother of Phebe Paddock. In 1815 he moved to St. Johnsbury, Vermont, and set up a wheelwright's shop above his father's gristmill. In 1820 he married Lucy Peck Barker and In 1824 he built an iron foundry. his brother Erastus joined him to establish E. and T. Fairbanks, a partnership to manufacture heating stoves, cast iron ploughs a design for which he patented in 1826. In 1830 Fairbanks and Erastus became interested in the raising and processing of hemp. Fairbanks went on to patent a hemp and flax dressing machine and became the manager of the St. Johnsbury Hemp Company. He also built a set of scales that would measure large loads of hemp accurately, as there were no reliable scales at the time. Upon the success of building these scales, his brothers recommended that he make and sell these for general use.  Fairbanks' most famous invention then became the platform scale for weighing heavy objects. These are commonly known as the Fairbanks Scales, for which he patented his original design in 1830.  Before this time, accurate weighing of objects required hanging them from a balancing beam as a result, particularly heavy or ungainly objects could not be weighed accurately. A platform scale, if large enough, could weigh an entire wagon. By placing a full wagon on the scale, unloading it, and then placing it on the scale when empty, it became possible to easily and accurately calculate the weight and value of farm produce and other loads. In 1834 Fairbanks and his brother formed "E. and T. Fairbanks and Company" to manufacture and sell these platform scales. These scales were well known in the United States and around the world resulting in the company doubling in volume every three years from 1842 to 1857. There was a temporary slow down during the American Civil War, however, the business took off again after the war. Their partnership was incorporated in 1874 into a firm known as "Fairbanks Scale Company". These platform scales revolutionized weighing methods of large loads and have been in use ever since. Portable platform scales are found in almost every hardware store, physician's office, and manufacturing factory throughout the United States and the world. The first railway track platform scale patent was granted to Fairbanks on January 13, 1857, as Patent No. 16,381. In 1916 the company was purchased by ”Fairbanks, Morse and Company”. Ownership of the company has since changed several times, but Fairbanks Scales continue to be made in St. Johnsbury Vermont to this day. Fairbanks had received 43 patents in his lifetime with the last one at the age of 91. He died on April 12, 1886, and is buried at St. Johnsbury, Vermont, at the Mount Pleasant Cemetery. An early example circa 1900 of the first type of platform scales used in a grocery store. This design for accurately measuring goods that were sold over the counter revolutionised the weighing of goods throughout the world. Platform scale metal black with removable tray & pan. Has horizontal brass arm with a brass slide weight black removable weight hook and 2 x 2 lb. weights. Fairbanksflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

Set of 12 reports, photocopied onto heat sensitive paper from various magazines. Documents match the image numbers. .1 - 2 pages, from The Commonwealth Engineer, 1/10/1917 - "New Cars for the Melbourne Brunswick and Coburg Tramways", written by Straun Robertson. .2 - 2 pages, from The Commonwealth Engineer, 1/3/1919 - "Double Bogie Combination Tram Car - St Kilda Brighton Electric Line". .3 - 2 pages - Electrical Engineer - 15/6/1924 - "One Man cars for Melbourne and Geelong Vic. The Brill Birney Safety Car" .4 - 1 page - Electrical Engineer - 15/11/1925 - "Standard Car for Melbourne Tramways" - has sketch of W2 369. .5 - 2 pages - Electrical Engineer - 15/8/1927 - "New Bogie car for Melbourne Tramways" Y class. .6 - 2 pages - Electrical Engineer -15/3/1936 - "Tramcar of New type for Melbourne - Large car for Two-man or One-man operation" - Y1 class .7 - 3 pages, The Electrical Engineer and Merchandiser - 15/3/1932 - "Modern Tramcars for Melbourne - Design for reduction of noise and construction with electrical Welding" W3 class. .8 - 2 pages, The Electrical Engineer and Merchandiser - 15/11/1933 - "New Tramcars for Melbourne" - has sketch of the W4 class tram. .9 - 3 pages, The Electrical Engineer and Merchandiser - 16/12/1935 - "Melbourne's Lates Tramcars, comfortable Accommodation and modern traction equipment" - W5 class .10 - 3 pages - The Electrical Engineer and Merchandiser - 15/3/1939 - "Improved Type Tramcar - advanced truck design, pneumatically operated doors, special lighting, acceleration 3pmh per sec." SW5 class. .11 - 3 pages - The Electrical Engineer and Merchandiser - 15/9/1950 - "Noiseless Tramcar - first Australian Vehicles - Bogies fitted have special noise reducing features - motor drive through bevel gears, dynamic braking" - PCC 980 (See also Reg Item 5601 for a similar report) .12 - 1 page - handwritten on the rear of a copy of item 11 - Editorial from the Oct. 1951 issue of same magazine looking at the rate of acceleration. Reprint of .7 added 30/7/2019, from papers ex Robert Green - in poor condition, has been folded, both left and right hand edges in multiple tears. The photos are good. Measures 282H x 220W.trams, tramways, mmtb, mbctt, new tramcars, vr, bogie trams, birney, x class, w2 class, y class, y1 class, w3 class, one man trams, w4 class, w5 class, sw5 class, pcc class, tramcar design, electrical engineering

The discovery of the first telescope in 1608 can be attributed to Hans Lippershey of the Netherlands when he discovers that holding two lenses up some distance apart bring objects closer. He applies for a patent on his invention and this becomes the first documented creation of a telescope. Then in 1668, Newton produces the first successful reflecting telescope using a two-inch diameter concave spherical mirror. This opened the door to magnifying objects millions of times far beyond what could ever be obtained with a lens. It wasn’t until 1729 that Chester Moor Hall develops an achromatic lens (two pieces of glass with different indices of light refraction combined produce a lens that can focus colours to almost an exact point resulting in much sharper images but still with some distortion around the edges of the image. Then in 1729 Scottish instrument maker James Short invents the first parabolic and elliptic, distortion-less mirror ideal for reflecting telescopes. We now come to John Dollond who improves upon the achromatic objective lens by placing a concave flint glass lens between two convex crown glass lenses. This had the effect of improving the image considerably. Makers Information: John Dollond (1707-1761) London England he was a maker of optical and astronomical instruments who developed an achromatic (non-colour distorting) refracting telescope and practical heliometer. A telescope that used a divided lens to measure the Sun’s diameter and the angles between celestial bodies. The son of a Huguenot refugees Dollond learned the family trade of silk weaving. He became proficient in optics and astronomy and in 1752 his eldest son, Peter joined his father in an optical business, in 1753 he introduced the heliometer. In the same year, he also took out a patent on his new lenses. He was elected a fellow of the Royal Society in May 1761 but died suddenly in November and his share in the patent passed to his son Peter. In subsequent squabbles between Peter and the many London opticians who challenged his patent, Peter’s consistent position was that, whatever precedents there may have been to his achromatic lenses, his father had independently reached his practical technique on the basis of his theoretical command of Newtonian optics. As a result of maintaining his fathers patent, Dollond s became the leading manufacturer of optical instruments. For a time in the eighteenth and nineteenth century the word 'Dollond' was almost a generic term for telescope rather like 'Hoover; is to vacuum cleaner. Genuine Dollond telescopes were considered to be amongst the best. Peter Dollond (1731-1820) was the business brain behind the company which he founded in Vine Street, Spitalfields in 1750 and in 1752 moved the business to the Strand London. The Dollonds seem to have made both types of telescopes (reflecting and refracting), possessing the technology to produce significant numbers of lenses free of chromatic aberration for refracting telescopes. A Dollond telescope sailed with Captain Cook in 1769 on his voyage to observe the Transit of Venus. Thomas Jefferson and Admiral Lord Nelson were also customers of the Dollonds. Dollond & Co merged with Aitchison & Co in 1927 to form Dollond & Aitchison, the well-known high street chain of opticians, now fully part of Boots Opticians. They no longer manufacture but are exclusively a retail operation.    John Dollond's experiments in optics and how different combinations of lenses refract light and colour gave a better understanding of the divergent properties of lenses. That went on to inform and pave the way for the improvement of our understanding of optics that are represented today. Dollond was referred to in his time as the "Father of practical optics" as a leader in his field he received many prestigious awards. The telescope in the collection is a good example of one of Dollonds early library telescopes and its connection with one of England's 18th-century pioneers in optical development is in itself a significant and an important item to have within the collection. One tube ships day & Night Telescope brass inner tube with timber main tube covered in leather. Unavailable to inspect Inscriptions to determine authenticity.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, telescope, dolland, shipwreck-coast, flagstaff-hill-maritime-village, royal national life boat institution

This Dollond Day or Nigh telescope was designed to be used in any light conditions, as its name implies. Telescopes are optical instruments designed to make objects appear to be larger or closer. The discovery of the first telescope in 1608 can be attributed to Hans Lippershey of the Netherlands when he discovers that holding two lenses up some distance apart bring objects closer. He applies for a patent on his invention and this becomes the first documented creation of a telescope. Then in 1668, Newton produces the first successful reflecting telescope using a two-inch diameter concave spherical mirror. This opened the door to magnifying objects millions of times far beyond what could ever be obtained with a lens. It wasn’t until 1729 that Chester Moor Hall develops an achromatic lens (two pieces of glass with different indices of light refraction combined produce a lens that can focus colours to almost an exact point resulting in much sharper images but still with some distortion around the edges of the image. Then in 1729 Scottish instrument maker James Short invents the first parabolic and elliptic, distortion-less mirror ideal for reflecting telescopes. We now come to John Dollond who improves upon the achromatic objective lens by placing a concave flint glass lens between two convex crown glass lenses. This had the effect of improving the image considerably. Makers Information: John Dollond (1707-1761) London England he was a maker of optical and astronomical instruments who developed an achromatic (non-colour distorting) refracting telescope and practical heliometer. A telescope that used a divided lens to measure the Sun’s diameter and the angles between celestial bodies. The son of a Huguenot refugees Dollond learned the family trade of silk weaving. He became proficient in optics and astronomy and in 1752 his eldest son, Peter joined his father in an optical business, in 1753 he introduced the heliometer. In the same year, he also took out a patent on his new lenses. He was elected a fellow of the Royal Society in May 1761 but died suddenly in November and his share in the patent passed to his son Peter. In subsequent squabbles between Peter and the many London opticians who challenged his patent, Peter’s consistent position was that, whatever precedents there may have been to his achromatic lenses, his father had independently reached his practical technique on the basis of his theoretical command of Newtonian optics. As a result of maintaining his fathers patent, Dollond s became the leading manufacturer of optical instruments. For a time in the eighteenth and nineteenth century the word 'Dollond' was almost a generic term for telescope rather like 'Hoover; is to vacuum cleaner. Genuine Dollond telescopes were considered to be amongst the best. Peter Dollond (1731-1820) was the business brain behind the company which he founded in Vine Street, Spitalfields in 1750 and in 1752 moved the business to the Strand London. The Dollonds seem to have made both types of telescopes (reflecting and refracting), possessing the technology to produce significant numbers of lenses free of chromatic aberration for refracting telescopes. A Dollond telescope sailed with Captain Cook in 1769 on his voyage to observe the Transit of Venus. Thomas Jefferson and Admiral Lord Nelson were also customers of the Dollonds. Dollond & Co merged with Aitchison & Co in 1927 to form Dollond & Aitchison, the well-known high street chain of opticians, now fully part of Boots Opticians. They no longer manufacture but are exclusively a retail operation.    John Dollond's experiments in optics and how different combinations of lenses refract light and colour gave a better understanding of the divergent properties of lenses. That went on to inform and pave the way for the improvement of our understanding of optics that is represented today. Dollond was referred to in his time as the "Father of practical optics" as a leader in his field he received many prestigious awards. The telescope in the collection is a good example of one of Dollond's early library telescopes. Its connection with one of England's 18th century pioneers in optical development makes it a significant and an important item to have within the collection.Telescope: Dollond's Telescope, Day or Night model navigational instrument. Telescope is mounted on wooden tripod stand that has folding legs. Brass telescope with leather sheath over barrel, adjustable angle fitting with brass wing nuts that join the legs to the top frame, which is then joined to the telescope pole by an adjustable screw fitting. Manufactured by Dollond, London. Inscription reads "Dollond London, Day or Night" and "DOLLOND LONDON"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, telescope, dollond, dollond london, day & night telescope, floor-standing telescope, optical instrument, john dollond, peter dollond, achromatic telescope, heliometer, light refraction, instrument maker, lens, transit of venus, astronomical telescope, concave lens, library telescope, dollond telescope, day or night, day or night telexcope, scientific instrument, navigation, navigational instrument, astronomy

This is a set of 16 photograph of the Royal Australian Survey Corps’ Johnson Ground Elevation Meter (JGEM) Survey Vehicle taken at the Army Survey Regiment, Fortuna, Bendigo. The JGEM vehicle was extensively used by RA Svy within Australia from the late 1960s. A limited number of Ground Elevation Meter (GEM) station wagon type vehicles were manufactured by General Motors Corporation (GMC) in the USA for the United States Geological Survey, Canada’s mapping agencies, RA Svy and National Mapping (Natmap). The GEM was a four-wheel drive, four-wheel steer vehicle. Four-wheel steering was necessary to avoid systematic errors caused by non-tracking of front and rear wheels on conventionally steered vehicles. The manufacturer substituted the rear axle with a front axle and connected them to form the four-wheel steering mechanism. The two Australian GEM vehicles, referred to as Johnson GEMs (JGEMs) were converted into right-hand drive. After delivery in 1964, acceptance Natmap and RA Svy testing and operator training was undertaken at the Army's School of Military Survey located at Balcombe, Victoria. A small fifth wheel was mounted on a cantilever arm suspension midway between the front and rear wheels on the right side of the vehicle. It was lowered to and raised from its operating position by use of a constant pressure air cylinder. A telescopic bar, suspended between the front and rear axles, provided the reference datum for the angle measurement. The wheel provided the velocity or distance signal through a pulse generator system. A sensitive pendulum mounted on this bar provided the angle measurement for each minute distance traversed. The JGEM contained electromechanical instruments used to determine relative elevations, by trigonometric principles, along a traversed path. These relative elevations were obtained through apparatus which measures the instantaneous angle of inclination of the road and the instantaneous velocity of the meter along such a path. Road routes over which the JGEM operated were planned so that each started and ended as near as practicable to an existing point of known elevation (formally referred to as a level traverse bench mark). The difference in height from the bench mark and the road surface alongside the JGEM’s fifth wheel was measured with a level and staff. Along each route, mapping control photo reference points where new elevation values were required were identified on aerial photographs. Under favourable conditions it was possible to survey as much as 160km in an ordinary working day. The first of RA Svy’s JGEM operations was undertaken in 1:250,000 scale map areas of Queensland. CPL John Hook was the JGEM’s main operator in the early 1970s undertaking operations covering 1:250,000 scale map blocks over northern Victoria and central NSW, each requiring 36 points (9 runs of photography and 4 points across. SPR Lyn Thompson and SPR Bob McDonagh teamed with CPL Hook on some of these JGEM operations. When RA Svy was integrated into the Royal Australian Engineers in 1996, the JGEM vehicle with the Survey Corps collection was donated to its museum. It is believed to be the last of the original manufactured fleet in existence. The JGEM has undergone extensive refurbishment to achieve roadworthiness and is currently housed at The Australian Army Museum of Military Engineering, Hoslworthy Barracks, NSW. It can be viewed by making an appointment with the museum’s curator.This is a set of 16 photograph of the Royal Australian Survey Corps’ Johnson Ground Elevation Meter (JGEM) Survey Vehicle taken at the Army Survey Regiment, Fortuna, Bendigo. The photographs were on 35mm slide film and were scanned at 96 dpi. They are part of the Army Survey Regiment’s Collection. .1) - Photo, colour, c1960s, Johnson Ground Elevation Meter (JGEM) Survey Vehicle .2) - Photo, colour, c1960s, JGEM instrumentation, on-board computer. .3) - Photo, colour, c1960s, JGEM instrumentation. .4) - Photo, colour, c1960s, JGEM instrumentation, on-board computer. .5) - Photo, colour, c1960s, JGEM tyre pressure controller .6) - Photo, colour, c1960s, JGEM rear doors, SGT Geoff Briggs. .7) - Photo, colour, c1960s, JGEM 5th wheel distance/angle measurement device in lowered position, SGT Geoff Briggs. .8) - Photo, colour, c1960s, JGEM 5th wheel distance/angle measurement device in lowered position. .9) & .10) - Photo, colour, c1960s, JGEM tyre pressure system, SGT Geoff Briggs. .11) - Photo, colour, c1960s, JGEM tyre pressure system. SGT Geoff Briggs. .12) - Photo, colour, c1960s, JGEM levelling scope, levelling staff, unidentified technicians. .13) & .14) - Photo, colour, c1960s, JGEM levelling scope, unidentified technician. .15) & .16) - Photo, colour, c1960s, probably survey operation adjusted height plotted on block base sheet. .1P to .16P - Some of the equipment is annotated on the frame of the 35mm slides.royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, surveying

Famous Swiss landcape painter Louis Buvelot came to Melbourne in 1864 and set up a portrait photography studio which he operated for one year only in 1865. This photograph is believed to be the oldest photo in the Shillinglaw Family Album collection. It is believed that the subject is a young Phillip Shillinglaw, without beard, at age 22 or 23. Phillip Shillinglaw was born Melbourne, August 7, 1842. He married Sarah Ann Kidd in Heidelberg, Victoria, February 28, 1872. In 1881 Phillip and Sarah and their small family moved to Eltham and made home in what was later to become known as Shillinglaw Cottage but which Phillip named 'Wattle Brae'. Shillinglaw Cottage is significant to Eltham’s local history. It is one of the earliest known buildings still in existence. Records suggest that the cottage was built circa 1859 by a man named Cochrane, believed to be Thomas Cochrane, in conjunction with George Stebbings though it is not known what Stebbings’s contribution was. It is believed Stebbings owned the cottage between 1874 and 1888. According to Margaret Ball’s (2017) book Shillinglaw Family of Eltham 1660-2007, Thomas Cochrane and family lived there from 1867 to 1874 however this is contrary to the records of assessable rates levied by the Eltham District Road Board, established in 1858, which shows Cochrane was the owner occupier (in Little Eltham) of approximately 25 acres of cultivated land and 25 acres of pastureland upon which a hut was sited in 1860. It is suspected that George Stebbings may have acquired the property from Cochrane in 1874 as it is noted that he had a tenant for a period, James Rossiter, who was the editor for the Evelyn Observer in Kangaroo Ground in 1874 (LATE SHIRE OFFICE AT KANGAROO GROUND (1934, February 16). Advertiser (Hurstbridge, Vic. : 1922 - 1939), p. 5. Retrieved February 25, 2022, from http://nla.gov.au/nla.news-article56743657). In 1881 Phillip Shillinglaw became the ratepayer for the cottage though Stebbings retained ownership until 1888 at which time it was transferred to Shillinglaw. Photographer: Louis Buvelot Swiss landscape painter and portrait photographer, settled in Melbourne in 1864, admired by the artists from the Heidelberg area such as Tom Roberts and Arthur Streeton who bestowed him with the accolade of 'Father of Australian painting’. In the 1870s, his work increasingly drew elements from Australian landscape such as the bush land in works like Lilydale (1878) and Bush Track. "Louis Buvelot :: biography at :: at Design and Art Australia Online." Daao https://www.daao.org.au/bio/louis-buvelot/biography/. Accessed 9 Mar. 2023. On arriving in Melbourne in February 1865 Buvelot bought a photographer's studio at 92 Bourke Street East and took portraits for a year. In 1866 he moved to 88 La Trobe Street East and resumed his painting while Caroline-Julie gave French lessons to help Buvelot to establish himself as an artist in Melbourne. "Biography - Abram-Louis Buvelot." Australian Dictionary of Biography https://adb.anu.edu.au/biography/buvelot-abramlouis-3132. Accessed 2 Dec. 2022. CARTE-DE-VISITE (cdv) 1857-1890 Cartes-de-visite (cdv's) are the most common form of photograph from the nineteenth century, generally measuring two and a half inches by four and an eighth inches (6.3 x 10.5 cm) when mounted, sepia toned, mounted on a card which was generally printed with the photographer's name and address on the back or beneath the portrait. - Frost, Lenore; Dating Family Photos 1850-1920; Valiant Press Pty. Ltd., Berwick, Victoria 1991marg ball collection, shillinglaw family photo album 1, 1865, l. buvelot photographer, louis buvelot, phillip shillinglaw (1842-1914), unknown

On 12 January, the World Health Organization (WHO) confirmed that a novel coronavirus was the cause of a respiratory illness in a cluster of people in Wuhan City, Hubei Province, China, who had initially come to the attention of the WHO on 31 December 2019. On 3 March, the Reserve Bank of Australia became the first central bank to cut interest rates in response to the outbreak. Official interest rates were cut by 0.25% (25 base points) to a record low of 0.5%. On 12 March, the Federal Government announced a A$17.6 billion stimulus package, the first since the 2008 GFC. he package consists of multiple parts, a one-off A$750 payment to around 6.5 million welfare recipients as early as 31 March 2020, small business assistance with 700,000 grants up to $25,000 and a 50% wage subsidy for 120,000 apprenticies or trainees for up to 9 months, 1 billion to support economically impacted sectors, regions and communities, and $700 million to increase tax write off and $3.2 billion to support short-term small and medium-sized business investment. On 16 March, Premier Dan Andrews and Minister for Health Jenny Mikakos declared a state of emergency for Victoria for at least four weeks. On 19 March, the Reserve Bank again cut interest rates by a further 0.25% to 0.25%, the lowest in Australian history. On 22 March, the government announced a second stimulus package of A$66bn, increasing the amount of total financial package offered to A$89bn. This included several new measures like doubling income support for individuals on Jobseeker's allowance, granting A$100,000 to small and medium-sized businesses and A$715 million to Australian airports and airlines. It also allowed individuals affected by the outbreak to access up to A$10,000 of their superannuation during 2019–2020 and also being able to take an additional same amount for the next year. on the same day Victorian Premier Daniel Andrews announced on 22 March that the state will bring the school holiday forwards to 24 March from 27 March. On 30 March, the Australian Federal Government announced a $130 billion "JobKeeper" wage subsidy program offering to pay employers up to $1500 a fortnight per full-time, part-time or casual employee that has worked for that business for over a year. For a business to be eligible, they must have lost 30% of turnover after 1 March of annual revenue up to and including $1 billion. For businesses with a revenue of over $1 billion, turnover must have decreased by 50%. Businesses are then required by law to pay the subsidy to their staff, in lieu of their usual wages. This response came after the enormous job losses seen just a week prior when an estimated 1 million Australians lost their jobs. This massive loss in jobs caused the myGov website to crash and lines out of Centrelink offices to run hundreds of metres long.The program was backdated to 1 March, to aim at reemploying the many people who had just lost their jobs in the weeks before. Businesses would receive the JobKeeper subsidy for six months. * On 12 April 2020 Victorian Premier Daniel Andrews Extended the State of Emergency until midnight on May 11. On this day the world has 1,604,900 cases of coronavirus, with 95,738 deaths. America has 468,887 cases of covid19, with 1,900 Americans dying in the last 24 hours. The UK has 65,077 cases. 881 people died in the last 24 hours. Australia has 6,292 cases. 58 people have died to date.Colour photographs of Ballarat's usually very busy Dana Street during Covid-19 Social Isoliation. The photographs were taken at 4.00pm. dana street, ballarat, covid19, corona virus, pandemic, state of emergency

On 12 January, the World Health Organization (WHO) confirmed that a novel coronavirus was the cause of a respiratory illness in a cluster of people in Wuhan City, Hubei Province, China, who had initially come to the attention of the WHO on 31 December 2019. On 3 March, the Reserve Bank of Australia became the first central bank to cut interest rates in response to the outbreak. Official interest rates were cut by 0.25% (25 base points) to a record low of 0.5%. On 12 March, the Federal Government announced a A$17.6 billion stimulus package, the first since the 2008 GFC. he package consists of multiple parts, a one-off A$750 payment to around 6.5 million welfare recipients as early as 31 March 2020, small business assistance with 700,000 grants up to $25,000 and a 50% wage subsidy for 120,000 apprenticies or trainees for up to 9 months, 1 billion to support economically impacted sectors, regions and communities, and $700 million to increase tax write off and $3.2 billion to support short-term small and medium-sized business investment. On 16 March, Premier Dan Andrews and Minister for Health Jenny Mikakos declared a state of emergency for Victoria for at least four weeks. On 19 March, the Reserve Bank again cut interest rates by a further 0.25% to 0.25%, the lowest in Australian history. On 22 March, the government announced a second stimulus package of A$66bn, increasing the amount of total financial package offered to A$89bn. This included several new measures like doubling income support for individuals on Jobseeker's allowance, granting A$100,000 to small and medium-sized businesses and A$715 million to Australian airports and airlines. It also allowed individuals affected by the outbreak to access up to A$10,000 of their superannuation during 2019–2020 and also being able to take an additional same amount for the next year. on the same day Victorian Premier Daniel Andrews announced on 22 March that the state will bring the school holiday forwards to 24 March from 27 March. On 30 March, the Australian Federal Government announced a $130 billion "JobKeeper" wage subsidy program offering to pay employers up to $1500 a fortnight per full-time, part-time or casual employee that has worked for that business for over a year. For a business to be eligible, they must have lost 30% of turnover after 1 March of annual revenue up to and including $1 billion. For businesses with a revenue of over $1 billion, turnover must have decreased by 50%. Businesses are then required by law to pay the subsidy to their staff, in lieu of their usual wages. This response came after the enormous job losses seen just a week prior when an estimated 1 million Australians lost their jobs. This massive loss in jobs caused the myGov website to crash and lines out of Centrelink offices to run hundreds of metres long.The program was backdated to 1 March, to aim at reemploying the many people who had just lost their jobs in the weeks before. Businesses would receive the JobKeeper subsidy for six months. * On 12 April 2020 Victorian Premier Daniel Andrews Extended the State of Emergency until midnight on May 11. On this day the world has 1,604,900 cases of coronavirus, with 95,738 deaths. America has 468,887 cases of covid19, with 1,900 Americans dying in the last 24 hours. The UK has 65,077 cases. 881 people died in the last 24 hours. Australia has 6,292 cases. 58 people have died to date.Colour photographs of Ballarat's usually very busy Eyre Street during Covid-19 Social Isoliation. The photographs were taken at 4.00pm. ballarat, covid19, corona virus, pandemic, state of emergency, eyre street

Langlands Company History: Langlands foundry was Melbourne's first foundry and iron shipbuilder established in 1842, only 8 years after the founding of the Victorian colony by two Scottish immigrants, Robert Langlands and Thomas Fulton, who had formed a partnership before emigrating (1813–1859). The business was known as the 'Langlands Foundry Co'. Henry Langlands (1794-1863), left Scotland in 1846 with his wife Christian, née Thoms, and five surviving children to join his brother Robert. By the time he arrived in early January of 1847 the partnership of Robert Langlands and Fulton had dissolved as Fulton had gone off to establish his own works. It was at this time that the two brothers took over ownership of Langlands foundry. Several years later Robert retired and Henry became sole the proprietor. The foundry was originally located on Flinders Lane between King and Spencer streets. Their sole machine tool, when they commenced as a business, was a small slide rest lathe turned by foot. In about 1865 they moved to the south side of the Yarra River, to the Yarra bank near the Spencer Street Bridge and then in about 1886 they moved to Grant Street, South Melbourne. The works employed as many as 350 workers manufacturing a wide range of marine, mining, civil engineering, railway and general manufacturing components including engines and boilers. The foundry prospered despite high wages and the lack of raw materials. It became known for high-quality products that competed successfully with any imported articles. By the time Henry retired, the foundry was one of the largest employers in Victoria and was responsible for casting the first bell and lamp-posts in the colony. The business was carried on by his sons after Henry's death. The company was responsible for fabricating the boiler for the first railway locomotive to operate in Australia, built-in 1854 by Robertson, Martin & Smith for the Melbourne and Hobson's Bay Railway Company. Also in the 1860s, they commenced manufacture of cast iron pipes for the Board of Works, which was then laying the first reticulated water supply system in Melbourne. Langlands was well known for its gold mining equipment, being the first company in Victoria to take up the manufacture of mining machinery, and it played an important role in equipping Victoria's and Australia's first mineral boom in the 1850s and 1860s. Langlands Foundry was an incubator for several engineers including Herbert Austin (1866–1941) who worked as a fitter at Langlands and went on to work on the Wolesely Shearing machine. He also founded the Austin Motor Company in 1905. Around the 1890s Langlands Foundry Co. declined and was bought up by the Austral Otis Co. in about 1893. History for Grimoldi: John Baptist Grimoldi was born in London UK. His Father was Domeneck Grimoldi, who was born in Amsterdam with an Italian Father and Dutch mother. Domeneck was also a scientific instrument maker. John B Grimoldi had served his apprenticeship to his older brother Henry Grimoldi in Brooke Street, Holburn, London and had emigrated from England to Australia to start his own meteorological and scientific instrument makers business at 81 Queens St Melbourne. He operated his business in 1862 until 1883 when it was brought by William Samuel and Charles Frederick, also well known scientific instrument makers who had emigrated to Melbourne in 1875. John Grimoldi became successful and made a number of high quality measuring instruments for the Meteorological Observatory in Melbourne. The barometer was installed at Warrnambool's old jetty and then the Breakwater as part of the Victorian Government's insistence that barometers be placed at all major Victorian ports. This coastal barometer is representative of barometers that were installed through this government scheme that began in 1866. The collecting of meteorological data was an important aspect of the Melbourne Observatory's work from its inception. Just as astronomy had an important practical role to play in navigation, timekeeping and surveying, so the meteorological service provided up to date weather information and forecasts that were essential for shipping and agriculture. As a result, instruments made by the early instrument makers of Australia was of significant importance to the development and safe trading of companies operating during the Victorian colonies early days. The provenance of this artefact is well documented and demonstrates, in particular, the importance of the barometer to the local fishermen and mariners of Warrnambool. This barometer is historically significant for its association with Langlands’ Foundry which pioneered technology in the developing colony by establishing the first ironworks in Melbourne founded in 1842. Also, it is significant for its connection to John B Grimoldi who made the barometer and thermometer housed in the cast iron case. Grimoldi, a successful meteorological and scientific instrument maker, arrived in the colony from England and established his business in 1862 becoming an instrument maker to the Melbourne Observatory. Additional significance is its completeness and for its rarity, as it is believed to be one of only two extant barometers of this type and in 1986 it was moved to Flagstaff Hill Maritime Village as part of its museum collection. Coast Barometer No. 8 is a tall, red painted cast iron pillar containing a vertical combined barometer and thermometer. Half way down in the cast iron framed glass door is a keyhole. Inside is a wooden case containing a mercury barometer at the top with a thermometer attached underneath, each with a separate glass window and a silver coloured metal backing plate. Just below the barometer, on the right-hand side, is a brass disc with a hole for a gauge key in the centre. The barometer has a silvered tin backing plate with a scale, in inches, of "27 to 31" on the right side and includes a Vernier with finer markings, which is set by turning the gauge key. The thermometer has a silvered tin backing plate with a scale on the left side of "30 to 140". Each of the scales has markings showing the units between the numbers.Inscription at the top front of the pillar reads "COAST BAROMETER" Inscribed on the bottom of the pillar is "No 8". and "LANGLANDS BROS & CO ENGINEERS MELBOURNE " The barometer backing plate is inscribed "COAST BAROMETER NO. 8, VICTORIA" and printed on the left of the scale, has "J GRIMOLDI" on the top and left of the scale, inscribed "Maker, MELBOURNE". There is an inscription on the bottom right-hand side of the thermometer scale, just above the 30 mark "FREEZING" Etched into the timber inside the case are the Roman numerals "VIII" (the number 8)flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, warrnambool breakwater, coast barometer, coastal barometer, barometer, weather warning, ports and harbours, fishery barometer, sea coast barometer, austral otis co, coast barometer no. 8, henry grimoldi, henry langlands, john baptist grimoldi, langlands foundry co, meteorological instrument maker, robert langlands, scientific instrument maker, thermometer, thomas fulton

On the 1984 Los Angeles Olympic Uniforms donator Doug wrote- During the 1980s the Australian wool industry was at its most prosperous times with record numbers of sheep producing wool receiving ever increasing values due to the success of the Reserve Price Scheme, and the overall guidance of the Australian Wool Corporation (AWC). As a humble technician, my role was a low profile newly created position of “Controller, Technical Marketing” where wool was to be marketed on its technical properties, as distinct from the “Product Marketing Group” which exploited trhe traditional high profile approach of marketing wool;s superior fashion attributes. The Woolmark was the tool central to this approach. When the forthcoming Los Angeles Olympic Games was announced, the Product Marketing Group seized upon the chance to show the world that we could make top fashion garments and display them on our elite athletes on the world stage. A concept was launched using a contemporary top designer, Adel Weiss, with the most exclusive fabrics and knits available, and all with a lot of hype. This launch failed dismally for the following reasons- - The designer did a wonderful job presenting an excellent fashion range on perfect skinny models. The AOC however wanted a uniform which had an obvious Australian appearance when fitted to elite, and frequently muscular, athletes. - The fabrics chosen did not reflect the performance required by travelling athletes, there was no recognition of the need for ‘easy care.’ - There was no recognition given to the problem of measuring, manufacturing and distribution of a range of articles when the selected athlete could be domiciled anywhere in Australia. - There was no appreciation of such historical facts as Fletcher Jones, who had been unofficial suppliers dating back to the 1954 Olympics in Melbourne, and the Fletcher Jones board member, who was also an AWC board member, and was not in favour of the change. The project passed from Product Marketing to Public Relations, a big spending off-shoot of the AWC Chairman David Asimus, and due to the day to day operations of the project was passed to me and PR took care of the financial matters. The first task was to meet with the AOC and find out exactly their requirements. This lead to the production of a design and manufacturing brief, cointaining exact time lines for each event required to ensure an appropriate uniform on every athlete chosen to represent his/her country on the date given for the Opening Ceremony in Los Angeles. Working backwards the timeline becomes- 1. Noted the exact date of the Opening Ceremony. 2. Estimated the date for distributing completed garments to each athlete. 3. Estimated the time span available for measuring each athlete and commence making each component of the ensemble to the individual measurements of each athlete. 4. Decided the date for making the final choice of uniform design concept. 5. Decided the date for distribution of the design brief to selected designers. These five steps were spread out over a two year period. The Commonwealth Games occur midway between each Olympic Games, work on the Olympic uniform commences the week after the Commonwealth Games closing ceremony and MUST be ready by the prescribed day two years hence. The project also had to remain cognisant of trade politics existing within the span of the task, as well as the temperament of designers in general. It is no overstatement to say that in the past every designer in Australia believed they could, and should, be chosen to design the Australian Uniform. The final choice of designer almost always faced criticism from the fashion press and any designer who had been overlooked. However, with the contenders receiving an exacting brief the numbers of serious contenders greatly reduced. The Los Angeles Olympic Uniforms. A further reason for the AWC bid failure to design the LA uniform was that the AOC had already chosen Prue Acton to design it. This was based on her proven performance during previous games as she had a talent for creating good taste Australiana. Her design concepts also considered the effect when they were viewed on a single athlete as well as the impact when viewed on a 400 strong team coming on to the arena. A blazer trouser/skirt uniform in bright gold was chosen for the formal uniform. It was my task to select a pure wool faille fabric from Foster Valley weaving mill and have sufficient woven and ready within the prescribed timeline. The trouser/skirt fabric selected was a 60/40 wool polyester plain weave fabric from Macquarie Worsted. This fabric had a small effect thread of linen that was most attractive when dyed to match some eucalyptus bark Prue had brought back from central Australia. For the Opening Ceremony uniform, Prue designed a series of native fauna, a kookaburra for the men’s shirt and a pleated skirt with a rural scene of kangaroos, hills and plants. This presented an insurmountable printing challenge to the local printing industry as it had an unacceptably large repeat size and the number required (50) was also commercially unacceptable. The solution was a DIY mock up at RMIT and the employment of four student designers. The fabric selected for this garment was a light weight 19 micron, pure wool with a very high twist yarn in alternating S and Z twist, warp and weft. This fabric proved to be the solution to a very difficult problem, finding a wool product which is universally acceptable when worn next to the sin by young athletes competing in the heat of a Los Angeles summer. Modifications to this fabric were developed to exploit its success when facing the same problem in future games. Garment Making- The most exacting garment in the ensemble is the tailored blazer, plus the related trouser/skirt. Unfortunately tailoring athletes that come in various shapes and sizes such as; - Weight lifters develop an enormous chest, arms and neck size. A shirt made to a neck size of 52 would produce a shirt with cuffs extending well beyond the wearer’s hands. - Basketball players are up to 7 feet tall and garments relying ona chest measurement grading would produce a shirt with cuffs extending only to elbow length. - Swimmers develop enormous shoulders and slim hips, cyclists by contrast develop thighs I liken to tree trunks and a uniform featuring tight trousers must be avoided at all cost. Suffice to say many ensembles require specialist ‘one off’ treatment for many athletes. Meanwhile there is a comfortable in between group who can accept regular sizes so you can cater for these by having back up stock with plenty of built in contingencies. Athletes may be domiciled anywhere in Australia, this creates a fundamental problem of taking their measurements. The Fletcher Jones organisation was key to answering this problem due to their presence in every capital city, as well as many provincial towns around Australia. Each athlete on being selected for the Olympic Team was simultaneously requested to visit their nearest Fletcher Jones shop. The standardised measurement data collected was shared with the other manufacturers, e.g. Pelaco Shirts, Holeproof Socks and Knitwear, Maddison Belts, and even Hush Puppy Shoes. As the time for the Games approached the AOC made arrangements for combining meeting of all. Selected available athletes at the Australian Institute of Sport, Canberra, where, among other things, they were fitted and supplied with their uniform. The method evolved as follows.Men’s cream coloured button up, collared shirt. Images of a kookaburra have been printed onto the shirt, a single kookaburra on the left breast and a pair of kookaburras on the reverse of the shirt. The kookaburras are printed in a brown tone to complement the cream colour of the fabric.On tag - FMaustralian wool corporation, 1984 los angeles olympics, olympic uniforms, men's uniforms, sport, athletes

At the time of sale, the last of the Hirst family to work in the mill located in Geelong gave Donald (donor Bruce's father) Doherty a set of scales that had been used by several generations of Hirsts and adapted by them over time for specific use in their mill. These Scales were saved from waste and being thrown away at the time of sale to remain in use in the industry in the hands of someone who knew how to use them. The scales were used in calculating the weight of cloth and simultaneously calculating the amount of yarn required to weave it following the instructions printed within the box. The box bears the signatures of two Hirst family members, one being Lewis Hirst dated at 1898. The original brass pole has been replaced with a replica metal somewhere throughout the years after the brass pole broke through use. Hirst was brought by McKendrick in the 1960s and these scales sat for 12 months as part of the 12 month "cooling off" period. The scales were then handed to Donald rather than being disposed of.Scales used for weighing and calculating weight and thread count of textile samples. Originated from Godfrey Hirst Mills in Geelong. Writing describes how to utilise scales. Scales are made from brass, pole for holding scales once brass now replaced with metal pole. Scales held inside wooden box with black text in ink depicting use of scales on paper located inside and outside of box.Outside of box. Wording: APPARTUS for TESTING the WEIGHT per YARD of CLOTHS & COUNT of YARN from a small SAMPLE. -------------------------------------------------------------------------------------------------------------------------------------------------- Indispensable to Manufactures, Merchants & handling Woollen, Worsted, Cotton, Linen, Jute, Hemp, Flannel, Felt, Army, Navy, Police, Railway, Sail & other Cloths -------------------------------------------------------------------------------------------------------------------------------------------------- USED IN GOVERNMENT DEPARTMENTS -------------------------------------------------------------------------------------------------------------------------------------------------- The apparatus consists of Scales, Weights, 1, 2 & 4 sq. inch Cutting Templates & Book of Tables --------------------------------------------------------------------------------------------------------------------------------------------------By weighing a small Sample the accurate Weight in Ounces of a yard of Cloth any width from 18 to 64 inches, the Weight per Square Metre in Grams, the Counts* of Warp and Weft, and the approximate length of full & short ends of pieces of fabrics, [without unrolling and measuring for stocktaking & other purposes] can be ascertained without any Calculation --------------------------------------------------------------------------------------------------------------------------------------------------Price in United Kingdom, 25s., Carriage Paid. Price to Canada & U.S.A. $6.75 do. H. Lord. 10, And Place, Bradford, England. --------------------------------------------------------------------------------------------------------------------------------------------------*When ordering, state on what system you base your YARN COUNTS. Inside of box. Wording: DIRECTIONS FOR USE --------------------------------------------------------------------------------------------------------------------------------------------------TESTING WEIGHT OF CLOTHS. Place sample to be tested on a piece of cardboard, put a Cutting Template on it, cut card and cloth round template with scissors and weigh it according to instructions given in Book of Tables. TESTING FOR YARN COUNTS. Cut out 1 square inch of cloth, draw out wrap or weft threads, according to which is being tested, and the number of inches so drawn, that balance respective weight is the approximate Count. The same rule holds good when number of inches are drawn from a bobbin. In testing from the cloth, allowance has to be made for loss or gain in the process of manufacture. Weight marked C is for Cotton Counts " " W " " Worsted " " " WS " " Woollen Skeins " " L " " Linen Counts. The weights for testing samples of cloth are 20, 10, 10, 5, 3, 2, 1, grains in brass & '5, '3, '2, '1 [tenths of a grain] in aluminium. Inside of box. Signtures, handwritten: Bottom right: Lewis Hirst !898 Top Left (Smudge ?) W Hirst !935godfrey hirst, hirst family, textile design, textile creation

The Joly meldometer was created to determine the melting point of minerals. W.E. Wilson, an astronomer and author, stated in 1900 that the Joly meldometer consisted of a ‘a strip of platinum on which minute fragments of any mineral can be placed, while any alteration in its length can be determined by means of a micrometer screw which touches a lever connected with one end of the strip. The strip can be heated by an electric current, and is calibrated by observing the micrometer readings corresponding to the temperatures at which some substances of known melting-points melt’i . One reason why the Joly meldometer was seen as a successful addition to science was the small amount of any substance that it required for testing. Only a minute sample was needed for the instrument to work and so a tiny part could be taken from a delicate item without destroying itii . The instrument was originally manufactured by the Irish company Yeates & Son of Dublin. The Yeates family business was established in the early 1790’s and is thought to have operated until approximately 1922iii . Their business slogan was recorded as ‘Instrument makers to the University’, a slogan which proudly exhibited their relationship with Trinity College, Dublin. The company was located directly opposite Trinity College, the place where the Joly meldometer was created. Working in such close proximity must have assisted this business relationship. The inventor of this meldometer was Irishman John Joly. Joly was born in 1857 at the Church of Ireland Rectory, Hollywood House. His education led him to Trinity College Dublin where, by 1891, he had obtained a Bachelor of Engineering degree as well as a Doctorate of Science. The entirety of his working life appears to have taken place at Trinity College although he is known to have travelled in order to consult with other scientists such as the world renowned Sir Ernest Rutherford. The Joly meldometer was used for a variety of different purposes, with scientists often adapting the instrument to suit their own needs. For instance, the previously mentioned astronomer W.E. Wilson adapted the meldometer to assist him in measuring the radiation of the suniv . Joly used his device in an attempt to ascertain the age of the earth. In 1913, along with Sir Rutherford, Joly came to the conclusion that the earth was approximately 400 million years old. They did this by analysing the decay of radioactivity in minerals. According to our present knowledge of the earth this was a much more accurate date than the dates Joly had previously derived. He had first thought that the earth was 97 million years old due to the volume of sodium in the oceans. Joly’s second analysis of the topic had resulted in the age of 80 million years. This figure was based on the accumulation of sediment. Apart from designing his meldometer, Joly is also remembered for his work with colour photography. In 1894 Joly discovered a method for creating colour photographs from a single platev . He also studied the use of radiation as a treatment for cancer and persuaded the Royal Dublin Society to establish the Radium Institute to assist hospitals. In 1933 Joly passed away at the age of seventy-six.

The chair has been used since antiquity, although for many centuries it was a symbolic article of state and dignity rather than an article for ordinary use. "The chair" is still used as the emblem of authority in the House of Commons in the United Kingdom and Canada, and in many other settings. In keeping with this historical connotation of the "chair" as the symbol of authority, committees, boards of directors, and academic departments all have a 'chairman' or 'chair'. Endowed professorships are referred to as chairs. It was not until the 16th century that chairs became common. Until then, people sat on chests, benches, and stools, which were the ordinary seats of everyday life. The number of chairs which have survived from an earlier date is exceedingly limited; most examples are of ecclesiastical, seigneurial or feudal origin. Chairs were in existence since at least the Early Dynastic Period of Egypt (c. 3100 BC). They were covered with cloth or leather, were made of carved wood, and were much lower than today's chairs – chair seats were sometimes only 10 inches (25 cm) high. In ancient Egypt, chairs appear to have been of great richness and splendour. Fashioned of ebony and ivory, or of carved and gilded wood, they were covered with costly materials, magnificent patterns and supported upon representations of the legs of beasts or the figures of captives. Generally speaking, the higher ranked an individual was, the taller and more sumptuous was the chair he sat on and the greater the honour. On state occasions, the pharaoh sat on a throne, often with a little footstool in front of it.[ The average Egyptian family seldom had chairs, and if they did, it was usually only the master of the household who sat on a chair. Among the better off, the chairs might be painted to look like the ornate inlaid and carved chairs of the rich, but the craftsmanship was usually poor. The earliest images of chairs in China are from 6th-century Buddhist murals and stele, but the practice of sitting in chairs at that time was rare. It was not until the 12th century that chairs became widespread in China. Scholars disagree on the reasons for the adoption of the chair. The most common theories are that the chair was an outgrowth of indigenous Chinese furniture, that it evolved from a camp stool imported from Central Asia, that it was introduced to China by Christian missionaries in the 7th century, and that the chair came to China from India as a form of Buddhist monastic furniture. In modern China, unlike Korea or Japan, it is no longer common to sit at floor level. In Europe, it was owing in great measure to the Renaissance that the chair ceased to be a privilege of state and became a standard item of furniture for anyone who could afford to buy it. Once the idea of privilege faded the chair speedily came into general use. Almost at once the chair began to change every few years to reflect the fashions of the day. Thomas Edward Bowdich visited the main Palace of the Ashanti Empire in 1819, and observed chairs engrossed with gold in the empire. In the 1880s, chairs became more common in American households and usually there was a chair provided for every family member to sit down to dinner. By the 1830s, factory-manufactured “fancy chairs” like those by Sears, Roebuck, and Co. allowed families to purchase machined sets. With the Industrial Revolution, chairs became much more available. The 20th century saw an increasing use of technology in chair construction with such things as all-metal folding chairs, metal-legged chairs, the Slumber Chair,[ moulded plastic chairs and ergonomic chairs. The recliner became a popular form, at least in part due to radio and television. The modern movement of the 1960s produced new forms of chairs: the butterfly chair (originally called the Hardoy chair), bean bags, and the egg-shaped pod chair that turns. It also introduced the first mass-produced plastic chairs such as the Bofinger chair in 1966. Technological advances led to moulded plywood and wood laminate chairs, as well as chairs made of leather or polymers. Mechanical technology incorporated into the chair enabled adjustable chairs, especially for office use. Motors embedded in the chair resulted in massage chairs. https://en.wikipedia.org/wiki/ChairThe chair is one of the most commonly used items providing comfort.Chair wooden varnished dark brown. Spokes for back support, front legs and spokes joining legs are patterned turned wood. Back rest has a floral emblem with a kangaroo in the centre.Back rest has a floral emblem with a kangaroo in the centre.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chair, dining, carpentry

The chair has been used since antiquity, although for many centuries it was a symbolic article of state and dignity rather than an article for ordinary use. "The chair" is still used as the emblem of authority in the House of Commons in the United Kingdom and Canada, and in many other settings. In keeping with this historical connotation of the "chair" as the symbol of authority, committees, boards of directors, and academic departments all have a 'chairman' or 'chair'. Endowed professorships are referred to as chairs. It was not until the 16th century that chairs became common. Until then, people sat on chests, benches, and stools, which were the ordinary seats of everyday life. The number of chairs which have survived from an earlier date is exceedingly limited; most examples are of ecclesiastical, seigneurial or feudal origin. Chairs were in existence since at least the Early Dynastic Period of Egypt (c. 3100 BC). They were covered with cloth or leather, were made of carved wood, and were much lower than today's chairs – chair seats were sometimes only 10 inches (25 cm) high. In ancient Egypt, chairs appear to have been of great richness and splendour. Fashioned of ebony and ivory, or of carved and gilded wood, they were covered with costly materials, magnificent patterns and supported upon representations of the legs of beasts or the figures of captives. Generally speaking, the higher ranked an individual was, the taller and more sumptuous was the chair he sat on and the greater the honour. On state occasions, the pharaoh sat on a throne, often with a little footstool in front of it.[ The average Egyptian family seldom had chairs, and if they did, it was usually only the master of the household who sat on a chair. Among the better off, the chairs might be painted to look like the ornate inlaid and carved chairs of the rich, but the craftsmanship was usually poor. The earliest images of chairs in China are from 6th-century Buddhist murals and stele, but the practice of sitting in chairs at that time was rare. It was not until the 12th century that chairs became widespread in China. Scholars disagree on the reasons for the adoption of the chair. The most common theories are that the chair was an outgrowth of indigenous Chinese furniture, that it evolved from a camp stool imported from Central Asia, that it was introduced to China by Christian missionaries in the 7th century, and that the chair came to China from India as a form of Buddhist monastic furniture. In modern China, unlike Korea or Japan, it is no longer common to sit at floor level. In Europe, it was owing in great measure to the Renaissance that the chair ceased to be a privilege of state and became a standard item of furniture for anyone who could afford to buy it. Once the idea of privilege faded the chair speedily came into general use. Almost at once the chair began to change every few years to reflect the fashions of the day. Thomas Edward Bowdich visited the main Palace of the Ashanti Empire in 1819, and observed chairs engrossed with gold in the empire. In the 1880s, chairs became more common in American households and usually there was a chair provided for every family member to sit down to dinner. By the 1830s, factory-manufactured “fancy chairs” like those by Sears, Roebuck, and Co. allowed families to purchase machined sets. With the Industrial Revolution, chairs became much more available. The 20th century saw an increasing use of technology in chair construction with such things as all-metal folding chairs, metal-legged chairs, the Slumber Chair,[ moulded plastic chairs and ergonomic chairs. The recliner became a popular form, at least in part due to radio and television. The modern movement of the 1960s produced new forms of chairs: the butterfly chair (originally called the Hardoy chair), bean bags, and the egg-shaped pod chair that turns. It also introduced the first mass-produced plastic chairs such as the Bofinger chair in 1966. Technological advances led to moulded plywood and wood laminate chairs, as well as chairs made of leather or polymers. Mechanical technology incorporated into the chair enabled adjustable chairs, especially for office use. Motors embedded in the chair resulted in massage chairs. https://en.wikipedia.org/wiki/ChairThe chair is one of the most commonly used items providing comfort.Chair wooden varnished dark brown. Spokes for back support, front legs and spokes joining legs are patterned turned' wood. Backrest has a floral emblem with a kangaroo in the centre.Back rest has a floral emblem with a kangaroo in the centre.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chair, dining, carpentry

The chair has been used since antiquity, although for many centuries it was a symbolic article of state and dignity rather than an article for ordinary use. "The chair" is still used as the emblem of authority in the House of Commons in the United Kingdom and Canada, and in many other settings. In keeping with this historical connotation of the "chair" as the symbol of authority, committees, boards of directors, and academic departments all have a 'chairman' or 'chair'. Endowed professorships are referred to as chairs. It was not until the 16th century that chairs became common. Until then, people sat on chests, benches, and stools, which were the ordinary seats of everyday life. The number of chairs which have survived from an earlier date is exceedingly limited; most examples are of ecclesiastical, seigneurial or feudal origin. Chairs were in existence since at least the Early Dynastic Period of Egypt (c. 3100 BC). They were covered with cloth or leather, were made of carved wood, and were much lower than today's chairs – chair seats were sometimes only 10 inches (25 cm) high. In ancient Egypt, chairs appear to have been of great richness and splendour. Fashioned of ebony and ivory, or of carved and gilded wood, they were covered with costly materials, magnificent patterns and supported upon representations of the legs of beasts or the figures of captives. Generally speaking, the higher ranked an individual was, the taller and more sumptuous was the chair he sat on and the greater the honour. On state occasions, the pharaoh sat on a throne, often with a little footstool in front of it.[ The average Egyptian family seldom had chairs, and if they did, it was usually only the master of the household who sat on a chair. Among the better off, the chairs might be painted to look like the ornate inlaid and carved chairs of the rich, but the craftsmanship was usually poor. The earliest images of chairs in China are from 6th-century Buddhist murals and stele, but the practice of sitting in chairs at that time was rare. It was not until the 12th century that chairs became widespread in China. Scholars disagree on the reasons for the adoption of the chair. The most common theories are that the chair was an outgrowth of indigenous Chinese furniture, that it evolved from a camp stool imported from Central Asia, that it was introduced to China by Christian missionaries in the 7th century, and that the chair came to China from India as a form of Buddhist monastic furniture. In modern China, unlike Korea or Japan, it is no longer common to sit at floor level. In Europe, it was owing in great measure to the Renaissance that the chair ceased to be a privilege of state and became a standard item of furniture for anyone who could afford to buy it. Once the idea of privilege faded the chair speedily came into general use. Almost at once the chair began to change every few years to reflect the fashions of the day. Thomas Edward Bowdich visited the main Palace of the Ashanti Empire in 1819, and observed chairs engrossed with gold in the empire. In the 1880s, chairs became more common in American households and usually there was a chair provided for every family member to sit down to dinner. By the 1830s, factory-manufactured “fancy chairs” like those by Sears, Roebuck, and Co. allowed families to purchase machined sets. With the Industrial Revolution, chairs became much more available. The 20th century saw an increasing use of technology in chair construction with such things as all-metal folding chairs, metal-legged chairs, the Slumber Chair,[ moulded plastic chairs and ergonomic chairs. The recliner became a popular form, at least in part due to radio and television. The modern movement of the 1960s produced new forms of chairs: the butterfly chair (originally called the Hardoy chair), bean bags, and the egg-shaped pod chair that turns. It also introduced the first mass-produced plastic chairs such as the Bofinger chair in 1966. Technological advances led to moulded plywood and wood laminate chairs, as well as chairs made of leather or polymers. Mechanical technology incorporated into the chair enabled adjustable chairs, especially for office use. Motors embedded in the chair resulted in massage chairs. https://en.wikipedia.org/wiki/ChairThe chair is one of the most commonly used items providing comfort.Chair varnished dark brown. Spokes for back support, front legs and spokes joining legs are patterned turned wood. Back rest has a floral emblem with a kangaroo in the centre.Back rest has a floral emblem with a kangaroo in the centre.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, chair, dining, carpentry

The barometer was either made or sold by T. Gaunt & Co. of Melbourne, a manufacturer, importer and retailer of a wide variety of goods including jewellery, clocks and watches, navigational and measuring instruments, dinnerware, glassware and ornaments. Thomas Gaunt photograph was included in an album of security identity portraits of members of the Victorian Court, Centennial International Exhibition, Melbourne, 1888. (See below for further details.) Admiral Fitzroy Pattern Barometer History: The stick mercury barometer was named after Admiral Robert Fitzroy of the Royal Navy (1805-1865) for his detailed instructions on how to interpret the weather, which were included with the instrument. Fitzroy was the captain of the HMS Beagle, also a weather forecaster to Charles Darwin and the second Governor of New Zealand. He developed many different types of barometers and was the first person to introduce the science of weather forecasting to the British Isles. A local manufacturer of scientific instruments, Thomas Gaunt, produced the barometer that was adapted for the southern hemisphere by Robert Ellery, the State Astronomer based at the Melbourne Observatory. In the original sale catalogue for Gaunt's, the item is described as "Gaunt's Fitzroy Barometers" and it was priced from 25/- to ₤9.9s. History of Thomas Gaunt: Thomas Gaunt established Melbourne's leading watchmaking, optical and jewellery business during the second half of the 19th century. Gaunt arrived in Melbourne in 1852, and by 1858 had established his own business at 14 Little Bourke Street. Around 1869 he moved to new premises in Bourke Street on the corner of Royal Arcade. Gaunt's shop quickly became a Melbourne institution. Gaunt proudly advertised that he was 'The only watch manufacturer in the Australian colonies'. While many watches and clocks may have had Gaunt's name on the dial, few would have been made locally. Gaunt did make some watches for exhibitions, and perhaps a few expensive watches for wealthy individuals. Gaunt's received a telegraph signal from Melbourne Observatory each day to correct his main clock and used this signal to rate and repair ship's chronometers and good quality watches. His main horological manufacturing was directed at turret clocks for town halls, churches and post offices. These tended to be specific commissions requiring individualised design and construction. He made the clock for the Melbourne Post Office lobby, to a design by Government Astronomer Robert Ellery, and won an award at the 1880-81 Melbourne International Exhibition for his turret clock for the Emerald Hill Town Hall. He became well known for his installation of a chronograph at Flemington Racecourse in 1876, which showed the time for the race, accurate to a quarter of a second. The firm also installed the clockwork and figures for Gog and Magog in the Royal Arcade. Thomas Gaunt also developed a department that focused on scientific instrumentation, making thermometers and barometers (from imported glass tubes), telescopes, surveying instruments and microscopes. Another department specialised in electroplating for trophies, awards and silverware, and the firm manufactured large amounts of ecclesiastical gold ware and silverware, for the church including St Patrick's Cathedral. There are no records that disclose the number of employees in the firm, but it was large enough for Gaunt to hold an annual picnic for the watchmakers and apprentices at Mordialloc from 1876; two years previously they had successfully lobbied Gaunt to win the eight hour day. Gaunt's workforce was reportedly very stable, with many workers remaining in the business for 15 to 30 years. Gaunt's wife Jane died on September 1894, aged 64. They had one son and six daughters, but only three daughters survived to adulthood. Two became nuns at the Abbotsford Convent and one daughter, Cecelia Mary Gaunt (died 28 July 1941), married William Stanislaus Spillane on 22 September 1886 and had a large family. Gaunt died at his home in Coburg, Victoria, leaving an estate valued at ₤41,453. The business continued as T. Gaunt & Co. after his death. The barometer is historically significant as an example of the work of Melbourne’s leading scientific instrument maker, Thomas Gaunt. The barometer has social significance as an example of the type of scientific equipment that Thomas Gaunt expanded his horology business into producing. Further social significance lies in the fact that Robert Ellery, the Government Astronomer who designed the local version of the barometer, had a direct connection with the Melbourne Athenaeum founded in 1839 as the Melbourne Mechanics' Institution. Its purpose was "the diffusion of literary, scientific and other useful information". There are also records of a T Gaunt as a subscription and committee member of this the Athenaeum organisation during the 1870s and 1880s which may be Thomas Gaunt, unfortunately still unverified.Stick mercury barometer known as the Admiral Fitzroy Barometer. It comprises an oblong wooden case with glass front panel, ornate pediment, barometer with bulb cistern (empty of fluid), cleaning brush with printed instructions for interpreting information given by the gauge affixed to left and right face of instrument. Includes a thermometer. The barometer appears to be intact. Adapted to the Southern Hemisphere. Special remarks by Admiral Fitzroy. Made by Thomas Gaunt, Melbourne. Manufacturer's details are on back of wooden casing. Rear has upper and lower brass screw plates for securing to vertical surface."Manufactured by Thomas Gaunt, 14 Little Bourke Street, Melbourne. "flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, barometer, admiral fitzroy, thomas gaunt, thomas gaunt of melbourne, clockmaker, admiral fitzroy barometer, barometer instructions, gaunt’s fitzroy barometer, gaunt’s of melbourne, gog and magog designer, horological manufacturer, meteorological instrument, melbourne athenaeum, melbourne mechanics' institution, melbourne observatory time signal, robert ellery government astronomer, scientific instrument, stick mercury barometer, thermometer, weather forecast, t gaunt & co

This building is the earliest building remaining on site today. It was built in 1875 and was the second school building replacing the original 1856 building of stone walls with wooden shingles on the roof. That building needed to be replaced after the stone walls collapsed outwards. In August 1912 the school issued a requisition for remodelling of the school concerned with replacement of the existing windows with larger and wider windows to allow additional light into the school rooms and the erection of a wooden partition in the centre of the room. An extension to the building at rear and skylights in the roof were added in 1921. Only two low wooden stairs were originally provided to enter the porch. These were rebuilt by 1928. A steel mud grate was introduced 1930s/1940s and an infant shelter shed circa 1945. Covered under Heritage Overlay, Nillumbik Planning Scheme. Published: Nillumbik Now and Then /​ Marguerite Marshall 2008; photographs Alan King with Marguerite Marshall.; p49 Eltham Primary School at Dalton Street, bustling with hundreds of students, has changed dramatically since it began in July 1855.1 A reminder of its early days is the building in local sandstone with a slate roof. First head teacher was David G Clark who was officially in charge from June 1856 until 1889.2 This school was not the settlement’s first. That was the Church of England Little Eltham School, west of Diamond Creek in 1853 and closed in 1872. In 1855 David Clark and his sister Catherine, opened what was to become the present school, with eight students. The school operated elsewhere in a temporary slab building, also used for worship by the Wesleyans,3 which allowed the wind and rain easy access. As well as having to endure such Spartan conditions, the students paid one penny a week for the privilege. But in June 1856 the patrons objected to the conditions, and they and the Clarks wrote to the National Schools Board, asking for a suitable school. They asked for a grant to buy land for a school, and to appoint the Clarks. As a result, inspector Mr A B Orlebar visited the school. He found 33 children aged from four to 13 and noted, among other things: ‘There is no attempt at classification, and this is owing chiefly to the want of books, every child bringing with it any spelling or reading book he or she may find at home,4 and partly to the master and mistress having little idea of anything but individual instruction.’ Of Mr Clark, Mr Orlebar said: ‘I cannot pass him as coming up to the full standard of a probationer. He promises however to pursue a course….if the commissioners take him into their service.’ Of Catherine: ‘She makes a promise similar to that of her brother. Pupils were orderly and the school seemed well conducted. I cannot therefore hesitate to recommend them both personally as probationers.’ Later at a public meeting, Mr Orlebar pledged the commissioners would give £150 for a school, if this was matched by local residents. The meeting decided the commissioners would acquire two acres (0.8ha) for the school site. The building, constructed with local sandstone, was completed in December 1857, measuring 40 feet x 16 feet (12mx5m) and 10 feet (3m) high. It was divided into two rooms – one for the school and the other for teacher accommodation. So the Eltham school was born, in an area regarded as ‘one of the poorest in the colony’. Excerpts from inspectors’ reports in the following years, show that in some ways school has not changed that much since then: ‘Discipline only moderate. Too much chattering!’ (1873); ‘Several slates were cleaned with saliva applied by the hand! Damp rags would be much nicer.’(1891).5 In 1863 the Board of Education took over the school giving it its current name and number, Eltham Primary School No 209. Overcrowding has dogged the school over much of its history. In 1875 overcrowding spilled part of the school into the local courthouse. But that year the sandstone building, which is still standing, was built for 100 children, costing £553 and replacing the National School building. Now, this section, even following renovations, still bears part of its original graciousness, with lofty timber ceilings, tall vertical windows and original floors.This collection of almost 130 photos about places and people within the Shire of Nillumbik, an urban and rural municipality in Melbourne's north, contributes to an understanding of the history of the Shire. Published in 2008 immediately prior to the Black Saturday bushfires of February 7, 2009, it documents sites that were impacted, and in some cases destroyed by the fires. It includes photographs taken especially for the publication, creating a unique time capsule representing the Shire in the early 21st century. It remains the most recent comprehenesive publication devoted to the Shire's history connecting local residents to the past. nillumbik now and then (marshall-king) collection, dalton street, eltham primary school, state school no. 209

60lbs rail that was used throughout the Victorian rail network. In 1887 Gibbs, Bright and Co. had a contract with Victorian Railways for railway and canal construction and supply of Krupp Rails. Gibbs, Bright and Co were merchant bankers and shipping agents and merchants who where also Directors of the GWR ( Great Western Railway ) and the Ship The "Great Britain" in England Gibbs, Bright and Company had principally been involved in shipping and trading, mainly in the West Indies, but following the discovery of gold in Victoria they established an office in Melbourne and soon became one of the leading shipping agents and merchants in the Colony. They expanded into passenger shipping and soon established offices in Brisbane, Sydney, Newcastle, Adelaide and Perth as well as launching passenger services between England, Mauritius and New Zealand. Gibbs, Bright also held a number of financial agencies from British mortgage, finance and investment companies as well as representing several British insurance companies in Australia. In addition they conducted a growing import business as well as an export business that included livestock, dairy produce, wool and flour. Also the company played a substantial part in the development of Australia's mineral resources, starting with lead in 1895, and later venturing into tin, gold, copper, cement and super phosphates. In Australia, after WWI, many of the larger companies were managing their own import and export so Gibbs, Bright and Company tended to focus its Agency business on smaller companies while expanding their interest into other markets such as timber, wire netting, zinc, stevedoring, road transport, marine salvage, gold mining as well as mechanical, structural, electrical and marine engineering. The Company's shipping interests continued to grow as well and still formed a major part of its business. In 1948 the parent company in England took the major step from tradition when they changed the business from a partnership into a private limited company. The name was the same, Antony Gibbs and Sons Limited, and in practice the effect of the change was very little. Some of the firm's branches and departments had already become limited companies and the formation of a parent company simplified the structure. The Australian operation was in time changed to Gibbs Bright & Co Pty Ltd in 1963. In 1848 Alfred Krupp becomes the sole proprietor of the company which from 1850 experiences its first major growth surge. In 1849 his equally talented brother Hermann (1814 - 1879) takes over the hardware factory Metallwarenfabrik in Berndorf near Vienna, which Krupp had established together with Alexander Schöller six years earlier. The factory manufactures cutlery in a rolling process developed by the brothers. Krupp's main products are machinery and machine components made of high-quality cast steel, especially equipment for the railroads, most notably the seamless wheel tire, and from 1859 to an increased extent artillery. To secure raw materials and feedstock for his production, Krupp acquires ore deposits, coal mines and iron works. On Alfred Krupp's death in 1887 the company employs 20,200 people. His great business success is based on the quality of the products, systematic measures to secure sales, the use of new cost-effective steel-making techniques, good organization within the company, and the cultivation of a loyal and highly qualified workforce among other things through an extensive company welfare system. From 1878 August Thyssen starts to get involved in processing the products manufactured by Thyssen & Co., including the fabrication of pipes for gas lines. In 1882 he starts rolling sheet at Styrum, for which two years later he sets up a galvanizing shop. The foundation stone for Maschinenfabrik Thyssen & Co. is laid in 1883 with the purchase of a neighboring mechanical engineering company. In 1891 August Thyssen takes the first step toward creating a vertical company at the Gewerkschaft Deutscher Kaiser coal mine in [Duisburg-]Hamborn, which he expands to an integrated iron and steelmaking plant on the River Rhine. Just before the First World War he starts to expand his group internationally (Netherlands, UK, France, Russia, Mediterranean region, Argentina). info from The company thyssenkrupp - History https://www.thyssenkrupp.com/en/company/history/the-founding-families/alfred-krupp.htmlHistoric - Victorian Railways - Track Rail - made by Krupp in 1888Section of VR Krupp 1888 Rail mounted on a piece of varnished wood. Rail made of ironpuffing billy, krupp, rail, victorian railways

The clock was either made or sold by T. Gaunt & Co. of Melbourne, a manufacturer, importer and retailer of a wide variety of goods including jewellery, clocks and watches, navigational and measuring instruments, dinnerware, glassware and ornaments. Thomas Gaunt photograph was included in an album of security identity portraits of members of the Victorian Court, Centennial International Exhibition, Melbourne, 1888. Thomas Gaunt History: Thomas Gaunt established Melbourne's leading watchmaking, optical and jewellery business during the second half of the 19th century. Gaunt arrived in Melbourne in 1852, and by 1858 had established his own business at 14 Little Bourke Street. Around 1869 he moved to new premises in Bourke Street on the corner of Royal Arcade, Gaunt's shop quickly became a Melbourne institution. Gaunt proudly advertised that he was 'The only watch manufacturer in the Australian colonies'. While many watches and clocks may have had Gaunt's name on the dial, few would have been made locally. Gaunt did make some watches for exhibitions, and perhaps a few expensive watches for wealthy individuals. Gaunt's received a telegraph signal from Melbourne Observatory each day to correct his main clock and used this signal to rate and repair ship's chronometers and good quality watches. His main horological manufacturing was directed at turret clocks for town halls, churches and post offices. These tended to be specific commissions requiring individualised design and construction. He made the clock for the Melbourne Post Office lobby, to a design by Government Astronomer Robert Ellery, and won an award at the 1880-81 Melbourne International Exhibition for his turret clock for the Emerald Hill Town Hall. He became well known for his installation of a chronograph at Flemington Racecourse in 1876, which showed the time for the race, accurate to a quarter of a second. The firm also installed the clockwork and figures for Gog and Magog in the Royal Arcade. Thomas Gaunt also developed a department that focused on scientific instrumentation, making thermometers and barometers (from imported glass tubes), telescopes, surveying instruments and microscopes. Another department specialised in electroplating for trophies, awards and silverware, and the firm manufactured large amounts of ecclesiastical gold ware and silverware, for the church including St Patrick's Cathedral. There are no records that disclose the number of employees in the firm, but it was large enough for Gaunt to hold an annual picnic for the watchmakers and apprentices at Mordialloc from 1876; two years previously they had successfully lobbied Gaunt to win the eight hour day. Gaunt's workforce was reportedly very stable, with many workers remaining in the business for 15 to 30 years. Gaunt's wife Jane died on September 1894, aged 64. They had one son and six daughters, but only three daughters survived to adulthood. Two became nuns at the Abbotsford Convent and one daughter, Cecelia Mary Gaunt (died 28 July 1941), married William Stanislaus Spillane on 22 September 1886 and had a large family. Gaunt died at his home in Coburg, Victoria, leaving an estate valued at ₤41,453. The business continued as T. Gaunt & Co. after his death. Post Office and Clock History: Warrnambool’s Post Office has been in existence since 1857, when it was originally situated on the corner of Timor and Gilles Street. In March 1864 the Warrnambool Borough Council purchased this clock from Henry Walsh Jnr. for the sum of £25, “to be put up in front of the Post Office”. Henry Walsh Jnr was the eldest son of Melbourne’s Henry Walsh, maker and retailer of clocks, watches, thermometers and jewellery. In 1854 Henry Walsh Jnr. began business in Warrnambool as a watchmaker and jeweller later becoming a Councillor with now a local street named after him. The Post Office was extensively remodelled in 1875-76. Early photographs of this building show that the clock was installed on the northern outside wall, Timor Street, under the arches and between the 2 centre windows, where it could be seen by passers-by. Although spring loaded clocks date back to the 15th century, and fob and pocket watches evolving from these date to the 17th century, personal pocket watches were only affordable to the very fortunate. Public clocks such as this Post Office clock provided opportunity for all to know the time, and for those in possession of a personal watch to check and set their own timepieces to the correct time. During post office reservations during the 1970s the clock was removed and was eventually donated to the Flagstaff Collection. The Clock’s maker Thomas Gaunt, is historically significant and was an established and well renowned scientific instrument and clock maker in Melbourne during the 1860s. He was at that time the only watchmaker in the Australian colonies. In the 1870’s and 1880’s he won many awards for his clocks and was responsible for sending time signals to other clocks in the city and rural areas, enabling many businesses and organisations to accurate set their clocks each day. Warrnambool Borough Council purchased this clock from Henry Walsh Jnr. for the sum of £25 and the clock used to stand in front of the Warrnambool post office to allow ordinary citizens to set their time pieces as they walked by. The item is not only important because it was made by a significant early colonial clock maker and retailed by a locally known clock maker and jeweler but also that it was installed in the Warrnambool Post Office a significantly historical building in it's own right. Built in 1857 and regarded as one of the oldest postal facilities in Australia, with a listing on the National Heritage Database, (ID 15656). This 1864 hall clock originates from the Warrnambool Post Office. The clock glass is hinged to the top of the clock face and has a catch at the bottom. The metal rim of the glass is painted black. The clock face is metal, painted white, with black Roman numerals and markings for minutes and five minutes. The tip of the small hour hand is shaped like a leaf. "T. GAUNT / MELBOURNE" is printed in black on the clock face. The winding key hole is just below the centre of the clock face. The key winds a fusee chain mechanism, attached to the brass mainspring barrel that powers the pendulum with an 8-day movement. The speed of the clock can be adjusted by changing the position of the weight on the pendulum, lengthening or shortening the swing; raising the pendulum shortens its swing and speeds up the clock. The metal fusee mechanism has an inscription on it. The rectangular wooden casing is with a convex curve at the bottom that has a hinged door with a swivel latch. The original stained surface has been painted over with a matte black. There are two other doors that also allow access to the clock’s workings. The case fits over the pendulum and workings at the rear and attaches to the clock by inserting four wooden pegs into holes in the sides of the case then into the back of the clock. A flat metal plate has been secured by five screws onto the top of the case and a hole has been cut into it for the purpose of hanging up the clock. There is a nail inside the case, possibly used for a place to the key."T. GAUNT MELBOURNE" is printed on the clock face. “6 1 3” embossed on the back of the fusee mechanism behind the clock. warrnambool, shipwrecked coast, flagstaff hill, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, shipwrecked artefact, clock, warrnambool post office, fusee, henry walsh jnr, thomas gaunt, t gaunt & co, post office clock

Mainly Pictorial record of Carlton's GF 1979 win over Collingwood by 5 points 1979 Summary After the early season problems with coaching staff in 1978, the Carlton team seemed to really gel under the stewardship of Alex Jesaulenko after he took over as coach early in the season. In fact, Jesaulenko had won 14 of his 18 games in charge. This late season form certainly carried over into the 1979, Jesaulenko's team winning its first 6 matches, before a narrow 4 point loss to North Melbourne in Round 7. Carlton would be the dominant team of the season, losing only two more games, to Geelong by 6 points in Round 12 and to Collingwood in Round 21 by 19 points. Measures of the Blues dominance include being on top of the ladder in 20 of 22 rounds, finishing 2 games in front of second place on the ladder, winning by at least 50 points eight times and having an average winning margin of over 40 points in the team's 21 victories. It topped 100 points in all but 2 matches (one of which was the Grand Final in muddy conditions)- a feat never achieved by any team before. After finishing clearly the best side of the home and away season, the team had a week break in the first week of finals before taking on North Melbourne in the first Semi Final. After a tense first quarter in which both sides kicked only a goal a piece, Carlton started to exert its dominance in the second quarter, but poor kicking for goal left the Kangaroos still in the match, with the Blues having a 14 point half-time lead. Carlton's seven goals in the thrid quarter killed the game as a contest, and 38 point winning margin probably flatters North considering that the Blues had 36 scoring to 18. This victory would give the team a place in the Grand Final and another week break. Collingwood defeated North Melbourne in the Preliminary Final to setup a Grand Final clash between the two old enemies. After a slow start Carlton would trail by 10 points at quarter-time, but would lead by 1 point going into half-time. A 5 goal third quarter gave the Blues a handy 21 point lead going into the last quarter, but poor kicking would again threaten the chance of victory for the team. Kicking 1.4 for the last quarter Carlton hung on to win by only 5 points and claim our 12th Premiership, equalling both Collingwood and Essendon for the most VFL premierships at the time. Coupled with the Premiership was the Norm Smith Medal to Wayne Harmes. Incredibly, the only Carlton goal for the quarter was the infamous Harmes tap to Sheldon, where Wayne Harmes followed up his terrible kick, knocking the ball with an amazing sliding punch to Ken Sheldon in the goal square who kicked the goal to win the match. To this day the debate about whether the ball Harmes tapped back was out of bounds or not. In the final analysis the Blues would win 11.16 (82) to 11.11 (77) in our first Grand Final appearance since 1973 to end our glorious 1970's era as it started, with a Premiership. Jesaulenko now had the enviable record of 35 wins and a premiership from 42 games as coach in less than two seasons in the position. Unbelievably he wouldn't be the Carlton Coach in the following season. Former Melbourne Lord Mayor Ian Rice issued a challenge to incumbent President George Harris for control of the club. Jesaulenko threw his support behind Harris, who had appointed him Coach the previous season. In a bitter and hard fought election, Rice would win and Jesaulenko would cross to St Kilda as their coach. Jesaulenko would again coach the Blues, being appointed after Robert Walls mid season sacking in 1989 until the end of the 1990 season. You may have noticed that the Round orders in this year appear to be slightly out of order. Please click here to find out why. At the lower levels, Carlton also won the Under 19's Premiership for the 6th time in 1979, following on from the Under 19's Premiership in 1978. The team list has been scanned in and can be viewed here. This was Carlton's last Under 19's Premiership with the competition disappearing after 1991. Overall, Carlton with 6 premierships was behind only Richmond with 11 and the Kangaroos with 7.A mainly pictorial record of 1979 Carlton Triumph over Collingwood. Includes an autograph page of many 1970s Carlton Players.A4 Coverless Scrap Book

This compressor was part of the E.G. Ward Collection. It is connected to the diving suit and boots also in our collection. Siebe Gorman & Company Ltd was a British company that developed diving equipment and breathing equipment and worked on commercial diving and marine salvage projects. The company advertised itself as 'Submarine Engineers'. It was founded by Augustus Siebe, a German-born British engineer chiefly known for his contributions to diving equipment. Siebe Gorman traded as an engineering firm for over 180 years from 1819 to 1999. The early success of the business was due to its founder, the Prussian immigrant Christian 'Augustus' Siebe (1788-1872). For business reasons, he applied for and was granted British citizenship in 1856. He was a gifted engineer who was able to translate theoretical problems into practical, working products. During the industrial Victorian period, the business traded as 'A. Siebe' at 145 High Street Holborn London, but in 1828 new premises were acquired at 5 Denmark Street, Soho. The family firm produced a wide range of manufactured goods including paper-making machinery, measuring machinery, water-pumps, refrigeration equipment and diving apparatus. Augustus Siebe specialised in submarine engineering early on and the company gained a reputation for the manufacture of safe, reliable diving apparatus. Augustus Siebe is best remembered for the development and manufacture of the ‘closed’ Diving Dress based on the ideas of Charles and John Deane, George Edwards and Charles Pasley. Apart from some small modifications to valves and diver communications, the basic 12 bolt ‘closed’ diving dress remained relatively unchanged after the 1870s. Later company successes were also based on innovation, with new products that could be successfully developed and manufactured to high standards. This was largely attributed to the inventive nature, foresight, engineering and entrepreneurial skills of Robert Henry Davis (1870-1965). In 1882, RH Davis joined the company of 'Siebe & Gorman' as a young 11-year-old office boy and he was to remain with the company until he died in 1965. Augustus Siebe retired in 1869 and handed over the company to a new partnership of Henry H. Siebe (1830-1885) and William A. O'Gorman (1834-1904). The new firm traded as 'Siebe & Gorman' (1870-1879) from premises in and around Mason Street, Westminster Bridge Road, Lambeth, London. The two partners soon recognised the potential of R.H. Davis and in 1894, aged 24, he became General Manager of Siebe & Gorman. Davis increasingly ran the company until the surviving partner (W.A. Gorman) died in 1904. The firm was disposed of to the Vickers (armaments) family and a new company 'Siebe Gorman & Co. Ltd.' (1905-1998) was formed. Under the chairmanship of Albert Vickers, R.H. Davis was kept on as Managing Director, and the company forged ahead. However, after WW1, the Great Depression caused manufacturing output and share prices to slump. In 1924 Robert Davis made a deal with the Vickers Board and acquired control of the company through majority shares. Under his leadership, the Siebe Gorman Company flourished and within time, four of his sons also joined the firm. The company gained a worldwide reputation for the manufacture of diving apparatus, decompression and observation chambers, and safety breathing apparatus of all types for use on the land, in the air and under the sea (including mine rescue, tunneling, aircraft, diving, submarine escape and in other hazardous environments). Close research and development links with the MOD (especially the Admiralty), also provided a lucrative outlet for the company products. In 1932, Robert Davis was knighted by King George V, principally for his invention of the ‘Davis Submerged Escape Apparatus’ (D.S.E.A.). Siebe Gorman essentially remained a family firm from the beginning (under A Siebe) until it became a public company for the first time in 1952. However, following WW2, British manufacturing stagnated through stifled investment and post-war austerity, and there was little innovation. Siebe Gorman fortunes began to decline as an ageing Sir Robert Davis failed to invest, or change the company business and management practices. In 1959, Siebe Gorman was acquired by the “Fairy Group” and the ailing Sir Robert was made Life President. Consequently, nothing changed and the slow decline continued until Sir Robert's death in March 1965. Around 1960, Siebe Gorman acquired the diving apparatus manufacturer C E Heinke, and for a brief period, it manufactured some diving equipment under the combined name of Siebe Heinke. Around 1964, Mr. E. 'Barry' Stephens was appointed as the new Managing Director to modernise Siebe Gorman. Changes were made, including a move to a new factory in Wales in 1975. The new company concentrated on fire fighting breathing apparatus and escape equipment, and the move coincided with the loss of many of the older, traditional craft skills. Between 1985 and 1998, Siebe expanded through acquisitions, and several other companies were acquired. The Siebe Gorman (diving apparatus) company has therefore traded as A. Siebe (1819-1870); Siebe & Gorman (1870-1879); Siebe Gorman & Co (1880-1904); Siebe Gorman & Co. Ltd (1905-1998).The compressor is a very significant item as it gives a snapshot into marine history and the development of diving equipment generally especially that used for salvage operations before and during WW2. Siebe & Gorman the company that made the equipment was a leading inventor, developer and innovator of marine equipment with its early helmets and other items eagerly sought after today for collections around the world. The items in the Flagstaff Hill collection give us an insight as to how divers operated and the dangers they faced doing a very necessary and dangerous job during the early days of marine exploration.A single cylinder divers' pump by Siebe Gorman & Co Ltd, London, eccentric hand cranked in brass mounted mahogany case with instructions to the underside of the lid, brass covered pressure gauge and air outlet, brass makers plaque to the front, water inlet and outlet to the rear, green painted lifting rings. Machinery has some blue painted areas on the metal.Plate on the back 'WATER SUPPLY" "WATER OVERFLOW" "WATER DRAIN-IN" Pressure gauge dial "BOURDON'S PRESSURE GAUGE" STEBE GORMAN & CO. LONDON", "LBS PRESSURE" "FEET OF SALT WATER" Plate on the front " PATENT, Siebe Gorman & Co Ltd Submarine Engineers" below emblem (Lion, Crown, Horse)flagstaff hill, warrnambool, flagstaff-hill, maritime-museum, diving compressor, london, siebe gorman & co ltd, marine technology, life saving, deep sea diving, maritime museum, maritime village, manine history

This diving suit with helmet, boots and weight is part of the E.G.Ward collection, along with the diving compressor and a photograph of a diver in this equipment. Siebe Gorman & Company Ltd was a British company that developed diving equipment and breathing equipment and worked on commercial diving and marine salvage projects. The company advertised itself as 'Submarine Engineers'. It was founded by Augustus Siebe, a German-born British engineer chiefly known for his contributions to diving equipment. Siebe Gorman traded as an engineering firm for over 180 years from 1819 to 1999. The early success of the business was due to its founder, the Prussian immigrant Christian 'Augustus' Siebe (1788-1872). For business reasons, he applied for and was granted British citizenship in 1856. He was a gifted engineer who was able to translate theoretical problems into practical, working products. During the industrial Victorian period, the business traded as 'A. Siebe' at 145 High Street Holborn London, but in 1828 new premises were acquired at 5 Denmark Street, Soho. The family firm produced a wide range of manufactured goods including paper-making machinery, measuring machinery, water pumps, refrigeration equipment and diving apparatus. Augustus Siebe specialised in submarine engineering early on and the company gained a reputation for the manufacture of safe, reliable diving apparatus. Augustus Siebe is best remembered for the development and manufacture of the ‘closed’ Diving Dress based on the ideas of Charles and John Deane, George Edwards and Charles Pasley. Apart from some small modifications to valves and diver communications, the basic 12-bolt ‘closed’ diving dress remained relatively unchanged after the 1870s. Later company successes were also based on innovation, with new products that could be successfully developed and manufactured to high standards. This was largely attributed to the inventive nature, foresight, engineering and entrepreneurial skills of Robert Henry Davis (1870-1965). In 1882, RH Davis joined the company of 'Siebe & Gorman' as a young 11-year-old office boy and he was to remain with the company until he died in 1965. Augustus Siebe retired in 1869 and handed over the company to a new partnership of Henry H. Siebe (1830-1885) and William A. O'Gorman (1834-1904). The new firm traded as 'Siebe & Gorman' (1870-1879) from premises in and around Mason Street, Westminster Bridge Road, Lambeth, London. The two partners soon recognised the potential of R.H. Davis and in 1894, aged 24, he became General Manager of Siebe & Gorman. Davis increasingly ran the company until the surviving partner (W.A. Gorman) died in 1904. The firm was disposed of to the Vickers (armaments) family and a new company 'Siebe Gorman & Co. Ltd.' (1905-1998) was formed. Under the chairmanship of Albert Vickers, R.H. Davis was kept on as Managing Director, and the company forged ahead. However, after WW1, the Great Depression caused manufacturing output and share prices to slump. In 1924 Robert Davis made a deal with the Vickers Board and acquired control of the company through majority shares. Under his leadership, the Siebe Gorman Company flourished and within time, four of his sons also joined the firm. The company gained a worldwide reputation for the manufacture of diving apparatus, decompression and observation chambers, and safety breathing apparatus of all types for use on the land, in the air and under the sea (including mine rescue, tunnelling, aircraft, diving, submarine escape and in other hazardous environments). Close research and development links with the MOD (especially the Admiralty), also provided a lucrative outlet for the company products. In 1932, Robert Davis was knighted by King George V, principally for his invention of the ‘Davis Submerged Escape Apparatus’ (D.S.E.A.). Siebe Gorman essentially remained a family firm from the beginning (under A.Siebe) until it became a public company for the first time in 1952. However, following WW2, British manufacturing stagnated through stifled investment and post-war austerity, and there was little innovation. Siebe Gorman fortunes began to decline as an ageing Sir Robert Davis failed to invest, or change the company business and management practices. In 1959, Siebe Gorman was acquired by the “Fairy Group” and the ailing Sir Robert was made Life President. Consequently, nothing changed and the slow decline continued until Sir Robert's death in March 1965. Around 1960, Siebe Gorman acquired the diving apparatus manufacturer C E Heinke, and for a brief period, it manufactured some diving equipment under the combined name of Siebe Heinke. Around 1964, Mr E. 'Barry' Stephens was appointed as the new Managing Director to modernise Siebe Gorman. Changes were made, including a move to a new factory in Wales in 1975. The new company concentrated on fire-fighting breathing apparatus and escape equipment, and the move coincided with the loss of many of the older, traditional craft skills. Between 1985 and 1998, Siebe expanded through acquisitions, and several other companies were acquired. The Siebe Gorman (diving apparatus) company has therefore traded as A. Siebe (1819-1870); Siebe & Gorman (1870-1879); Siebe Gorman & Co (1880-1904); Siebe Gorman & Co. Ltd (1905-1998).The items are very significant as a snapshot into marine history and the development of diving equipment generally especially that used for salvage operations before and during WW2. The company that made the equipment was a leading inventor,developer and innovator of marine equipment with its early helmets and other items eagerly sought after today for collections around the world. The items in the Flagstaff Hill collection give us an insight as to how divers operated and the dangers they faced doing a very necessary and dangerous job.Diving suit including helmet, boots and a weight. Diving suit is made of canvas with knitted cuffs. The helmet is metal. The boots have a thick sole and thick leather upper that is held on with leather straps and buckles. The toe of the boot is heavy metal. The weight is worn next to the trunk of the diver and it has an inscription to mark the front. It is worn with straps and buckles holding it in place. Royal Navy Admiralty Pattern 6 bolt No 3 light Siebe Gorman light diving helmet circa 1960 used by the Royal Navy before and after World War 2"Siebe Gorman & Co Ltd Marine Engineers London. Patent" with "E G Ward" on front and back plate. On weight "FRONT"flagstaff hill, warrnambool, diving suit, siebe gorman and co ltd., siebe gorman and co ltd marine engineers london, marine engineers, diving helmet, diving boots, diving weight, marine diving, maritimemuseum, maritime village, maritime history, marine technology, life saving, deep sea diving

Jackson St Casterton Aug 18. 23 Dear Girls, I was very pleased to receive your nice letters with news of your doings in Eltham. You put Casterton S.A., so your letters were a long time reaching me. As I hope to see you all very soon I shall just send a p.c. of me taken in Mrs Cox’s garden Easter Sunday 12 months ago. The river here has been in flood twice and people who lived along its banks had to move. I believe the Eltham PS is greatly improved. Betty says I shall get lost there now. Casterton is on the Glenelg R. in Vic so you will remember that next time. Best wishes to you all. From E. Hooley Ellen Sweeney was a former student of Eltham State School in the 1880s, She became a teacher at the school from 1891-1898. She returned in 1915 until her marriage to William Hooley of Casterton at St Marys, Eltham, Tuesday, April 24, 1923. Wedding at Eltham. (1923, April 27). Advertiser (Hurstbridge, Vic. : 1922 - 1939), p. 2 (AFTERNOON). Retrieved February 14, 2023, from http://nla.gov.au/nla.news-article56655781 Wedding at Eltham PRESENTATIONS TO MISS SWEENEY. On Tuesday last. Miss Sweeney (a member of an old and respected Eltham family), who recently resigned her position as assistant teacher at the Eltham State School to marry Mr. W. Hooley, of Casterton, was presented with a handsome gold wristlet watch. The headmaster, Mr. Dudtield, in making the presentation on behalf of the school committee, parents, and children paid a high tribute to the excellent work done by Miss Sweeney during her connection with the school, and in asking her acceptance of the present, expressed on behalf of all the fullest measure of happiness to Miss Sweeney in her married life. On Thursday evening, a social evening was tendered to Miss Sweeney, at Mrs. T. Jewell's residence Main street, by the choir and parishioners of St. Mary's Church, Eltham, where Miss Sweeney has for some years acted as choir mistress. Mr. Harold Cox, in handing her a handsome gold and oak silver salad bowl and service, expressed the heartiest good wishes to one who had not only labored so strenuously in organising the choir, but had been always foremost in promoting church and public movements in the community. Congratulatory addresses were also contributed by the Rev. F. Norris and Mr. W. P. McMahon. Miss Sweeney sincerely thanked the donors for their beautiful present, and the speakers for the many kind things said in her regard. She felt very much severing her connection with Eltham. She would carry away many happy-. recollections of her old home, and the kindly people of the town. She hoped after some years to return to Eltham. permanently. (Applause.) On Saturday morning. the marriage ceremony was performed at St. Mary's in the presence of a large number of friends. During the nuptial Mass, celebrated by the Rev. F. Parker. (North Fitzroy), assisted-by the Rev. F. Morris .(Eltham). The choral part of the service including the Wedding March, was very efficiently rendered by the choir. MRS HOOLEY (1940, May 10).Eltham and Whittlesea Shires Advertiser (Vic. : 1940 - 1942), p. 4. Retrieved February 14, 2023, from http://nla.gov.au/nla.news-article57491650 MRS HOOLEY Sincere regret was felt, in Eltham and district at the death of Mrs. W. Hooley (nee Miss Ellen Sweeney) a very dear and capable teacher at State Schools in Eltham and other districts, including the Western District. The deceased was one of Nature's ladies, and was a native of Eltham having been born in the historic home, Culla Hill, one of the first settlements on the Yarra. She passed peacefully away on Anzac Day, April 26. The. funeral was the largest and most impressive ever seen in Eltham, and left St. Mary's Church after a requiem mass conducted by Rev. Father Morrison and Father Hollis. The pall bearers were mostly girlhood friends. Deceased leaves a husband, two brothers, Mr. Tom Sweeney of Kew, and Mr. Frank Sweeney of Western Australia and sisters (Mrs. Lane, of W.A., and Mrs. M. Carringham, of Dalton St, Eltham.) POSTCARD 1905-1940s Like the carte-de-visite, postcards enjoyed a collecting craze by large numbers of people, and were often kept in albums through which the interested visitor could browse. Postcards were posted or exchanged in huge numbers. Postal authorities in Australia only allowed the private printing of postcards from 1898. At this time the back of the card was reserved for the address and postage stamp, and the front was used for the message and a picture. In 1902 British authorities allowed a "divided back", so that the left side could be used for the message, the right side for the address and stamp, and the whole of the front was devoted to the picture. France followed suit in 1904, Germany and Australia in 1905, and the United States in 1907. - Frost, Lenore; Dating Family Photos 1850-1920; Valiant Press Pty. Ltd., Berwick, Victoria 1991marg ball collection, postcard, 1922, 1923, ellen hooley (nee sweeney), ellen sweeney, eltham, mrs cox