Aboriginal mathematics tends to focus on the relationship of numbers rather than quantities. This book shows why numbers were irrelevant to Aborigines and outlines the kind of mathematics that was used.maps, b&w illustrations, b&w photographsnorth east arnhem land, turtle egg mathematics, aboriginal mathematics, aboriginal social life, measuring space, measuring time, flora, fauna

A fob watch is an instrument for measuring time. It is designed to hang from a chain that is attached to a wearer's waistband or waistcoat. The chain keeps the fob watch from being dropped or falling out of a pocket. A person possessing a fob watch or similar instrument in the 18th century would be viewed as someone in a good financial position and often a position of power or respect. It was a social statement as well as a useful object.Silver pocket watch and brass iron winder. Watch has Roman numerals on face and gold flower, floral and diamond shaped motif. Marked "0.800 x/5 115/15 39443" Picture of a bird, flying, griping a painter's pallet and brushes and another separate picture of a bird. There is also a floral pattern on the back of the watch. The winder has a number "6" or "9" on one face and a symbol similar to the "Star of David" on the other.Marked "0.800 x/5 115/15 39443" . The winder has a number "6" or "9" on one face and a symbol similar to the "Star of David" on the other.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, pocket watch, watch, horology, time keeper, fashion accessory

An hourglass or sandglass is an instrument for measuring a defined time and can be used perpetually by simply turning it over immediately the top bulb empties. The clear blown glass is shaped into two equal sized bulbs with a narrow passage in the centre and contains uniform sized sand or glass particles in the lower bulb. The width of the neck regulates the constant flow of the particles. The glass is held in a stand with top and bottom of equal shape and size. Hourglasses can measure an infinite variety of time by gauging the size of the particles, the shape and size of the bulbs and the size of the passage between the bulbs, thus measuring hours or minutes or even seconds. Generally an hourglass sits between discs of wood at the ends, which are joined by long wooden spindles between the ends and tightened by screw caps. The length of time can be adjusted by adding or removing sand particles. The use of the marine sandglass (or hourglass) has been recorded in the 14th century in European shipping. A one minute sandglass was used in conjunction with the ship’s log for ‘dead reckoning’, (see below) that is, for measuring the ship’s speed through the water. They were also used to regulate ringing the ship’s timetable; for example a 4 hour sandglass was used for the length of the sailors’ watch, and a half hour timer for taking of readings for the ship’s log; the ship’s bell would be rung every half hour. It was usually the role of the cabin boy to watch and turn the sandglasses over at the exact time of them emptying their upper chambers and to ring the ship’s bell. Hourglasses have been used historically for many hundreds of years. Some have been used for timing church sermons, in cooking, in industry and at sea. Even today they are used for measuring the cooking time of eggs and timing a player’s turn in games such as Boggle and Pictionary. The sandglasses at sea were gradually replaced in the late 1700’s to early 1800’s by the more accurate chronometers (marine clocks) when they became reliable instruments. DEAD RECKONING (or Deduced Reckoning) Dead reckoning is the term used to describe the method of calculating the ship’s position from its speed and direction, used in early maritime travel, mostly in European waters. Both the (1) speed and the (2) direction of travel were recorded on a Traverse Board at half-hourly intervals during a helmsman’s watch of 4 hours. The navigator would record the readings in his ship’s log, plot them on his navigational chart and give his updated course directions to the next helmsman on watch, along with the cleared Traverse Board. This was a very approximate, but none-the-less helpful, method of navigation. The wooden Traverse Board was a simple pegboard with a diagram of a compass with eight peg holes along the radius to each of the compass points, plus a grid with ascending half hours in the left column and increasing ship’s speed in knots in a row across the column headings, with a peg hole in each of the intersecting cells. A number of wooden pegs were attached to strings on the board. By placing one peg consecutively in the direction’s radius hole, starting from the centre, and the speed holes when the half hourly reading was taken, a picture of speed and direction for the whole 4 hour watch was created. (1) To measure the ship’s speed a one minute hourglass timer was usually used to measure the ship’s speed through the water and help to calculate its longitude. A rope, with knots at regular standard intervals and a weight such as a log at the end, would be thrown overboard at the stern of the ship. At the same time the hourglass would be turned over and a seaman would start counting the number of knots on the rope that passed freely through his hands as the ship travelled. When the timer ran out the counting would be stopped. A timer of one minute (one-sixtieth of an hour), knots spaced one-sixtieth of a nautical mile apart, and simple arithmetic easily gave the speed of the ship in nautical miles per hour ("knots"). This would be recorded every half hour. The speed could however be inaccurate to the travel being affected by ocean currents and wind. (2) To calculate the ship’s direction a compass sighting would be recorded each half hour.Marine hourglasses or sandglasses were used from around the 14th to 19th century during the time of sailing ships. This hourglass is representative of that era, which is during the time of the colonisation of Australia. Hourglass or sandglass; an instrument used to measure time. Two equal sized clear glass bulbs joined with a narrow passage between them, containing equal sized particles of sand grains in lower bulb. Glass sits in a brass collar at each end, in a frame comprising 3 decorative brass columns or posts, each attached top and bottom, using round screw-on feet, to round brass discs. Disc have Roman numerals for the numbers 1 - 12 pressed into their inner surfaces and hieroglyphics on the outer surfaces. Roman numerals on inner surface of discs " I II III IV V VI VII VIII IX X XI XII " Hieroglyphics impressed on outer surface of discsflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, horology, hourglass, hour glass, sandglass, sand glass, timing instrument, dead reckoning, deduced reckoning, finding latitude at sea, sandglass with hieroglyphics and roman numerals, hourglass with hieroglyphics and roman numerals, brass hourglass

Winner of Expressions 2004 Wool Quilt prize. The stitch as a measure of time is explored in this quilt. It is from a series i have been working on about my local environment. Shaped by time and the elements, Bow Wow Gorge us visited by more than 150 bird species.Quilt is a combination of silk, wool, baft, linen, and rayon thread. Two halves of the quilt have been hand sewn together and are a rusty red and grey in colour with small blue patches using plant dyes. Machine stitched, hand sewn, and applique, the quilt has long pockets and panels added to the back.Bow Wow Bowerbird 2004 Pamela Fitzsimonhandicrafts quilting textile, national wool museum, fitzsimons, ms pamela, geelong, victoria, handicrafts, quilting, textile

Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Personal Sampler - Flow Meter/Liquid Calibrator in leatherette covered case with brass corners and clips. Maker is SKC inc., Eighty-four. PA 15330. This is Model 302. Instructions are enclosed. A Gas flow meter featuring a glass tube with attached rubber tubes. A liquid is injected into the gas flow, so you can see the gas flowing. The gas passes through a tube of known volume. A liquid film is added (so you can see the gas) and you measure the time it takes for 1 litre of gas to fill the tube. SKC Model 302 flowerviosh, victorian institute of occupational safety and health, personal sampler, flow meter, liquid calibrator, skc inc

The phosphoroscope was invented by Alexander Edmund Becquerel and used to measure the amount of time that a phosphorescent substance will glow after being irradiated by a brilliant source of light.The phosphoroscope consists of a round metal chamber with a pair of rotating discs inside, arranged so that no light can pass directly through the chamber. The discs have cut-out windows spaced equally at regular angular distances and are turned by the hand crank linked to a gear mechanism. The sample is placed in a specially designed holder into the small opening near the gearing, and it is exposed to the light source through the large rear condensing lens.Engraved on chamber: 'Phosphoroscope de E. Becquerel / J. Duboscq a Parisbecquerel phosphoroscope, phosphoroscope, optical instruments, phosphorescent, alexander edmund becquerel, jules duboscq, france

This chronometer was made around 1936 and has been on display at Flagstaff Hill for over 40 years as part of the exhibit of the ‘Reginald M’, an Australian-built, 19ss, coastal trader vessel. A chronometer is an accurate mechanical instrument used for measuring time. It is constructed carefully to remain stable even under the changing conditions of seafaring life such as temperature, humidity and air pressure. The Master or Navigator of a ship could use the chronometer and the positions of celestial bodies to calculate the ship’s latitude at sea. In 1905 the business Chronometerwerke GmbH was formed in Frankfurt, Germany, to supply the country with high-quality mechanical chronometers and ship clocks for their maritime trade, making the country independent of other international suppliers such as those in England. In 1938 the firm was renamed Wempe Chronometerwerke. The business continues today. Its products now include its well-known chronometers, battery-powered ship clocks, ship’s bell clocks, barometers, barographs, thermometers, hygrometers, comfort meters to measure temperature and humidity, and wristwatches. The company also performs chronometer testing facilities for the State’s Weights and Measures office. The article written by Givi in July 2022 “The Basics of Marine Meteorology – a Guide for Seafarers” refers to the weather’s signs and patterns being repeated over and over, and the recording of these observations helps forecasters predict changes in the weather. The chronometer is an example of a mechanical navigational marine instrument in use in the early to the mid-20th century. The maker is significant as part of a German government initiative to be self-sufficient in the production of good quality marine technology. This chronometer is significant as part of the exhibit, the Australian-built vessel, 1922 coastal trader ‘Reginald M’, listed on the Australian Register of Historic Vessels and on display for over 40 years.Marine chronometer or marine clock, brass case, glass cover, Roman numerals, 24-hour numbers beside them. Two black hands, a keyhole for winding and ventilation holes in the side. The base has a collar with four machined mounting holes. Inscriptions are on the clock’s face."Made in Germany"" and ""WEMPE / CHRONOMETERWERKE / HAMBURG"flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, marine meteorology, horology, chronometer, marine technology, latitude, marine navigation, mechanical instrument, scientific instrument, ship clock, chromometerwerke gmbh, wempe chronometerwerke, marine clock

Yields information about a system of tram passes that were provided to the City of Ballarat Councillors in 1960 and has a strong association with the Councillors himself.Stamped brass badge or pass for free travel on the Ballarat Tramways for the year 1906. Stamped to give the words "Ballarat Electric Trams 1906" on the outer edge of the Badge and then stamped out to give the letters 'B E T" on the inside of the badge. On the top of the badge, a hole has been provided and a steel ring fitted. On the rear of the badge has the letters "CR. D. Hughes" stamped on the top of the badge and on the bottom the manufacturer's name "Stokes" in a reverse stamp. Indicates badge issued to Councillor D. Hughes for the year 1906. A similar badge was sold on ebay for $US 49.95 December 2007 - paperwork on file. Images on file - images i3 and i4. Was issued to Councillor C. R. Brokenshire. E-mail from Alan Bradley, re additional item 29/1/2012 - See Reg Item - The Electric Supply Co issued the passes to councillors of the City of Ballaarat for free tram rides. I don't know whether passes also went to Ballarat East and Sebastopol councillors as well. In Bill Scott's "Last tram at 11" on page 41 is a 1912 poem 'The councillor's farewell to his tramway pass". The ESCo tried a few economy measures at that time. Passes for councillors were withdrawn in 1912, as were free passes for employees "owing to our financial position". Employees were still allowed on free in uniform, but charged one-third of fare when off duty. In 1913 one-man operation came in." For another example see Reg item 5239. Related documents provides some information on the value of the items.tramways, trams, fares, badges, tickets, passes, esco

The Australian Customs Service, Melbourne, donated a set of gauging instruments, and Port Fairy Customs donated another instrument, the Sike’s Hydrometer, to Flagstaff Hill Maritime Village, all of which were no longer required. However these ullaging tools were in use for many years by Customs officials, called Gaugers. Ullaging is a term describing the measurement of the amount of liquid remaining in a container of spirits such as a cask or barrel. It can also measure the free space or head space remaining. The primary role of customs officers in Victoria was to calculate the tariff or excise duty payable on goods imported into Victoria. (Excise duty is a tax on goods produced within a country, and customs duty is imposed on imports.) Customs officers spent a great deal of their time measuring and weighing goods, and then calculating the amount of duty to be paid by the importer. The tariffs for different products varied, and officers consulted published lists. Calculating the duty payable on a barrel of brandy was a detailed task. The gauger had to measure the barrel to determine its volume. Barrels were irregular in shape, and finding the volume required several measurements and checking tables of figures. Alcoholic content was then measured with a hydrometer. The duty paid varied according to the alcoholic strength of the spirits. Uniform national customs and excise duties were operative in Australia from October 1901. These tools were still being used in Australia in the 1950’s. The Federal Government still imposes excise taxes on goods such as cigarettes, petrol, and alcohol. The rates imposed may change in February and August each year in response to changes in the consumer price index. ULLAGING TOOLS (1) Head Rod - this instrument measures the diameter of the heads (top and bottom ends) of a cask or barrel. The shaped brass pieces on the head rod enable the diameter of a barrel to be measured inside the chimes at the head end. The slide rule could then be used to calculate the internal volume of the barrel. On the reverse side is a set of ullaging scales, used like those on any ullaging rule, to calculate the volume of liquid in a partially filled barrel. (2) Bung Rod – this instrument measures the diameter of a cask or barrel when it is lying on its side. It is a rod that fits into the ‘bung’ hole of a cask and is long enough be extended to reach the opposite side of the cask. The brass sliding pointer can be moved to mark the ‘wet’ line. When the rod is removed the bung measurement can be read from the scale on the rod. (3) Long Calipers - this instrument measures the length of the cask between the heads. It has two rules sliding beside each other, each end having another piece of wood fixed firmly at right angles downwards then turned inwards at the ends so as to reach over the heads of the casks without touching the projecting ends. The centre pieces enable it to extend or contract, changing the distance between the two other parallel sides, the distance they are apart being shown by the rule on the sliding pieces. (4) Cross Calipers – this instrument is used to take the bung diameters of casks, or "the Cross " as it is called. This instrument has two rules sliding beside each other, each end having another piece of wood fixed firmly at right angles downwards, together forming a 3 sides of a rectangle with the centre pieces enabling it to extended or contracted, changing the distance between the two other parallel sides, the distance they are apart being shown by a the rule on the sliding pieces. (5) Sike’s Hydrometer – this instrument is used to gauge the strength of different alcoholic spirits when fitted with the different weights in the set. Every set is individually calibrated to ensure that it meets the exact Standard Weight and Measure compliance, then every piece in that set is stamped with the same number by the Calibrator, to ensure that the measurements are taken using the same hydrometer set. [References: A Handbook of Practical Gauging, Janes Boddely Keene of H.M. Customs, 1861, F. Pitman, London; Customs Act, Volume 2, No. 1, April 1999; Old Customs House website ] Head Rod, ullaging gauge. Long wooden rod made of three joined sections, brass hook on end, sliding centre section with hook, measurements marked along each section as on a slide rule. Used for measuring diameter of heads of casks in order for Customs to calculate excise (tax) on the contentsflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, head rod, gauging rod, ullaging rods, measuring instruments, customs tax

The photograph shows three trucks hauling logs of 120 feet, 116 feet and 118 feet long. Said to be the longest logs ever taken from East Gippsland forests, three special vehicles were needed to transport three giants, the longest measuring 120 feet, from the McKenzie River to Traralgon. Mr. J. De Piazza, of Orbost, was in charge of the transport of the logs. This photograph shows the logs passing through Bairnsdale.Orbost has historically been based on the timber industry, but that industry has declined considerably over the last 20 years. The number of locals involved in the timber industry has declined and many of the mills have closed. This item reflects a time when that industry was a significant contributor to the economy of the district.A black / white photograph of three trucks hauling logs of various lengths.on front - "120 ft; 118 ft; 116 ft" on back -" J. De Piazza, 23 Boundary Rd, Orbost, 1942"timber-industry-orbost

HISTORICAL INFORMATION In an article dated 26 March 1963, the Warrnambool Standard reported: “A cannon which has lain on the ocean floor since the barque, Children, was wrecked at Childer’s Cove on January 15, 1839, was raised by three Warrnambool skindivers at the week-end…The cannon, weighing about 750 lb. and 4-ft. 6-in. in length…is in excellent order considering the length of time it has remained under-water”. No conservation measures were taken at that time, other than chipping off the marine growth with hammers and cold chisels. The minutes for the 4 February 1974 meeting of the Flagstaff Hill Planning Board recorded that “a cannon recovered some time ago was lying in the garden of [one of the three original divers] and that it could be picked up at any time”. Peter Ronald, past Manager and Diver for Flagstaff Hill, notes that the CHILDREN cannon would have been recovered by the other divers around 1964. When the cannon came into care of Flagstaff Hill it was given basic conservation relevant to the time. (At the same meeting the Board was advised of the recovery of an anchor from the wreck of the CHILDREN by Flagstaff Hill divers (Peter Ronald, Colin Goodall and Gary Hayden, and Hank Howey and Andrew Coffee), and its interim relocation in the sea at the end of the Warrnambool Breakwater while awaiting conservation). The CHILDREN was owned by the pioneering Henty family of Portland. She was en route from Launceston to Adelaide, when she foundered in rough conditions at Childers Cove on 14 January 1839. The CHILDREN was a small three-masted barque, only 29 metres long and 254 tons weight, with 14 crew members and 24 passengers (including 9 children) on board. The ship was also carrying an awkwardly ballasted cargo of 1500 sheep, 8 bullocks, 7 horses, 5000 London house bricks, 6 whaling boats, and general trade goods. When the CHILDREN was driven into the limestone stack at the entrance to the cove, the seas smashed her into pieces within half an hour, and 16 lives were lost. The CHILDREN was an all-wooden ship, built in 1825 at Liverpool, and her shipwreck in 1839 is one of colonial Victoria’s earliest and most significant maritime disasters. There is little left to mark the tragedy on the seabed now, apart from some of the house bricks intended for the Henty’s Portland Bay settlement. Despite its poor condition, the CHILDREN’s signal cannon remains an important and interpretable record of her demise, (along with her anchor, the bottom half of her ship’s bell, and portions of a brass porthole - artefacts that are also in the Flagstaff Hill collection). In 2015 the CHILDREN cannon will undergo further conservation. (Conservation Management Plan for Victorian Guns and Cannon, South Western Victoria, May 2008, ref W/F/06) The shipwreck of the CHILDREN is of state significance — Victorian Heritage Register No. S116.A 1.3 metre iron 6pdr cannon recovered from the wreck of the CHILDREN. The shape of the cannon tapers from a thick round breech to a flared muzzle, with an 8 centimetre bore, and two side trunnions for pivoting on a wooden gun carriage. It was recovered from the shipwreck site of the CHILDREN by local divers in 1963. This small muzzle-loading signal cannon is in poor and unrestored condition. The cannon’s upper profile of smooth grey metal casing has corroded off, leaving an extensively oxidised rough red surface of crumbling iron. The bottom half of the cannon remains intact although the outer smooth casing also appears to be separating from the iron core of the barrel. Original grey casting is also missing from the breech and muzzle ends of the cannon. Corrosion and spalling of the upper surface layer of the cannon has removed the maker’s marks and specificationsflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, the children, ship’s cannon, signal cannon, childers cove, 1839 shipwreck, conservation of marine artefactsm, shipwreck-coast, flagstaff-hill-maritime-village, cannon, 6pdr small bore cannon, children cannon, defence, children, shipwreck, 1839

The firm Dring and Fage were active from 1790 to 1940 in London and were manufacturers of hydrometers and mathematical instruments they became established in London in 1790 by John Dring, who was a brass worker and hydrometer maker, and William Fage. Dring and Fage manufactured also saccharometers and other instruments used to measure the strength of alcohol. These instruments were primarily used to calculate excises. They traded at various addresses in London and they were at 56 Stamford St. between 1903 and 1938. By 1850 the company was owned by Edward Hall and Edward Jenkin and in 1940 the company became Dring & Fage Ltd, trading till the 1960s. Historically, gauging has meant measuring a volume, these gauging instruments were used by Customs and Excise and manufacturers for determining the volume and contents of liquid containers. For Customs the determination and collection of duty on imported goods which has had a very long history. Chaucer was a Customs Officer as was his father and grandfather, excise was first officially introduced in 1643, with the aim of maintaining military forces raised by the English Parliament at that time. Excise was initially a duty on home produced alcoholic beverages and soap but being easily applied, spread rapidly to a wide range of goods including imports of varying kinds. The government departments of Customs and Excise merged only in 1909 and it is from around this time that our instrument was made and used. The item demonstrates a long social history of the practice of Government's collecting duty on alcoholic beverages and thereby makes this item historically significant as it was used locally at Port Fairy by the ports Customs agents. Gauging rod or bung rod; ullaging gauge. Long brown wooden gauging rod with brass tips and sliding brass marker. Measurements are marked along the length of the rod. Used for measuring volume of liquor in casks in order for Customs to calculate excise (tax) on the contents. Made by Dring & Fage, London.Engraved “Dring & Fage 56 Stamford St London flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, gauging rod, ullaging rods, measuring instruments, customs tax, dring & fage, alcohol measurement

Queen Victoria was born at Kensington Palace, London, on 24 May 1819. She was the only daughter of Edward, Duke of Kent, the fourth son of George III. Her father died shortly after her birth and she became heir to the throne because the three uncles who were ahead of her in the succession - George IV, Frederick Duke of York, and William IV - had no legitimate children who survived. Warmhearted and lively, Victoria had a gift for drawing and painting; educated by a governess at home, she was a natural diarist and kept a regular journal throughout her life. On William IV's death in 1837, she became Queen at the age of 18. Queen Victoria is associated with Britain's great age of industrial expansion, economic progress and, especially, empire. At her death, it was said, Britain had a worldwide empire on which the sun never set. In the early part of her reign, she was influenced by two men: her first Prime Minister, Lord Melbourne, and then her husband, Prince Albert, whom she married in 1840. Both men taught her much about how to be a ruler in a 'constitutional monarchy, in which the monarch had very few powers but could use much influence. Albert took an active interest in the arts, science, trade and industry; the project for which he is best remembered was the Great Exhibition of 1851, the profits from which helped to establish the South Kensington museums complex in London. Her marriage to Prince Albert produced nine children between 1840 and 1857. Most of her children married into other Royal families in Europe. Edward VII (born 1841), married Alexandra, daughter of Christian IX of Denmark. Alfred, Duke of Edinburgh and of Saxe-Coburg and Gotha (born 1844) married Marie of Russia. Arthur, Duke of Connaught (born 1850) married Louise Margaret of Prussia. Leopold, Duke of Albany (born 1853) married Helen of Waldeck-Pyrmont. Victoria, Princess Royal (born 1840) married Friedrich III, German Emperor. Alice (born 1843) married Ludwig IV, Grand Duke of Hesse and by Rhine. Helena (born 1846) married Christian of Schleswig-Holstein. Louise (born 1848) married John Campbell, 9th Duke of Argyll. Beatrice (born 1857) married Henry of Battenberg. Victoria bought Osborne House (later presented to the nation by Edward VII) on the Isle of Wight as a family home in 1845, and Albert bought Balmoral in 1852. Victoria was deeply attached to her husband and she sank into depression after he died, aged 42, in 1861. She had lost a devoted husband and her principal trusted adviser in affairs of state. For the rest of her reign she wore black. Until the late 1860s she rarely appeared in public; although she never neglected her official Correspondence, and continued to give audiences to her ministers and official visitors, she was reluctant to resume a full public life. She was persuaded to open Parliament in person in 1866 and 1867, but she was widely criticised for living in seclusion and quite a strong republican movement developed. Seven attempts were made on Victoria's life, between 1840 and 1882 - her courageous attitude towards these attacks greatly strengthened her popularity. With time, the private urgings of her family and the flattering attention of Benjamin Disraeli, Prime Minister in 1868 and from 1874 to 1880, the Queen gradually resumed her public duties. In foreign policy, the Queen's influence during the middle years of her reign was generally used to support peace and reconciliation. In 1864, Victoria pressed her ministers not to intervene in the Prussia-Denmark war, and her letter to the German Emperor (whose son had married her daughter) in 1875 helped to avert a second Franco-German war. On the Eastern Question in the 1870s - the issue of Britain's policy towards the declining Turkish Empire in Europe - Victoria (unlike Gladstone) believed that Britain, while pressing for necessary reforms, ought to uphold Turkish hegemony as a bulwark of stability against Russia, and maintain bi-partisanship at a time when Britain could be involved in war. Victoria's popularity grew with the increasing imperial sentiment from the 1870s onwards. After the Indian Mutiny of 1857, the government of India was transferred from the East India Company to the Crown, with the position of Governor-General upgraded to Viceroy, and in 1877 Victoria became Empress of India under the Royal Titles Act passed by Disraeli's government. During Victoria's long reign, direct political power moved away from the sovereign. A series of Acts broadened the social and economic base of the electorate. These acts included the Second Reform Act of 1867; the introduction of the secret ballot in 1872, which made it impossible to pressurise voters by bribery or intimidation; and the Representation of the Peoples Act of 1884 - all householders and lodgers in accommodation worth at least £10 a year, and occupiers of land worth £10 a year, were entitled to vote. Despite this decline in the Sovereign's power, Victoria showed that a monarch who had a high level of prestige and who was prepared to master the details of political life could exert an important influence. This was demonstrated by her mediation between the Commons and the Lords, during the acrimonious passing of the Irish Church Disestablishment Act of 1869 and the 1884 Reform Act. It was during Victoria's reign that the modern idea of the constitutional monarch, whose role was to remain above political parties, began to evolve. But Victoria herself was not always non-partisan and she took the opportunity to give her opinions, sometimes very forcefully, in private. After the Second Reform Act of 1867, and the growth of the two-party (Liberal and Conservative) system, the Queen's room for manoeuvre decreased. Her freedom to choose which individual should occupy the premiership was increasingly restricted. In 1880, she tried, unsuccessfully, to stop William Gladstone - whom she disliked as much as she admired Disraeli and whose policies she distrusted - from becoming Prime Minister. She much preferred the Marquess of Hartington, another statesman from the Liberal party which had just won the general election. She did not get her way. She was a very strong supporter of the Empire, which brought her closer both to Disraeli and to the Marquess of Salisbury, her last Prime Minister. Although conservative in some respects - like many at the time she opposed giving women the vote - on social issues, she tended to favour measures to improve the lot of the poor, such as the Royal Commission on housing. She also supported many charities involved in education, hospitals and other areas. Victoria and her family travelled and were seen on an unprecedented scale, thanks to transport improvements and other technical changes such as the spread of newspapers and the invention of photography. Victoria was the first reigning monarch to use trains - she made her first train journey in 1842. In her later years, she became the symbol of the British Empire. Both the Golden (1887) and the Diamond (1897) Jubilees, held to celebrate the 50th and 60th anniversaries of the Queen's accession, were marked with great displays and public ceremonies. On both occasions, Colonial Conferences attended by the Prime Ministers of the self-governing colonies were held. Despite her advanced age, Victoria continued her duties to the end - including an official visit to Dublin in 1900. The Boer War in South Africa overshadowed the end of her reign. As in the Crimean War nearly half a century earlier, Victoria reviewed her troops and visited hospitals; she remained undaunted by British reverses during the campaign: 'We are not interested in the possibilities of defeat; they do not exist.' Victoria died at Osborne House on the Isle of Wight, on 22 January 1901 after a reign which lasted almost 64 years, then the longest in British history. Her son, Edward VII succeeded her. She was buried at Windsor beside Prince Albert, in the Frogmore Royal Mausoleum, which she had built for their final resting place. Above the Mausoleum door are inscribed Victoria's words: "Farewell best beloved, here, at last, I shall rest with thee, with thee in Christ I shall rise again." Source: https://www.royal.uk/queen-victoria This picture captures Queen Victoria in her later years. It may well have been painted to commemorate her Golden Anniversary in 1887, or her Diamond Anniversary in 1897.Picture, print, reproduction of a drawing or photograph of Queen Victoria. She is wearing a dark-coloured dress, white headdress and a diamond necklace and earrings. On her left shoulder is the Royal Order of Victoria and Albert, awarded to female members of the British Royal Family and female courtiers. There are four grades or classes of this Royal Order as well as the Sovereign's Badge, which is exclusive to her. Also across her left shoulder, is a blue riband representing the Order of the Garter. The picture is in a medium-coloured timber frame with a white string across the width at the rear. The label says it was framed by Hoy Art, Warrnambool. The signature of the Queen is on the picture but is not obvious since the picture has been re-framed."HOY ART / PICTURE FRAMING / 48 Kepler St, Warrnambool 3280 / Phone (055) 62 8022" Signature (hidden by new framing) "Victoria H.R.S."flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, picture of queen victoria, queen victoria, the royal order of victoria and albert, the order of the garter, hoy art

An Octant is a doubly reflecting navigation instrument used primarily by sailors to measure the angular distance between two visible objects and was a forerunner of the sextant. The name comes from the Latin octo, or "one-eighth of a circle," for the Octan'ts arc which spans 45°, or one-eighth of a circle. The primary use of an Octant is to measure the angle between an astronomical object and the horizon for celestial navigation. The estimation of this angle, is known as sighting or shooting the object, or taking a sight. The angle, and the time when it was measured, can be used to calculate a position line on a nautical chart (latitude), for example, sighting the Sun at noon or Polaris at night (in the Northern Hemisphere) gives an angle by which the latitude can then be estimated. Sighting the height of a landmark on land can also give a measure of distance. This fine octant once belonged to Captain Farquhar Chisholm and was donated by his granddaughter, Margaret Ruth Greer (nee Chisholm, born 1914). The label inside the Octant's box reads “Thomas L. Ainsley, Instrument Maker … etc”. Farquhar Chisholm was born in 1832 in Inverness, Scotland. He regularly sailed on perilous voyages between Quebec, Canada and the Baltic ports of Europe. In 1854 he migrated to Australia during the Gold Rush, to a place called Fiery Creek (near Beaufort Victoria) where he was fairly successful in his quest for gold. In the years of the Great Gold Rush, it was said that there were over 40,000 diggers in the goldfields of the Beaufort area! In 1857 having made sufficient money, he hired another crew and returned to Clachnacuddin, Inverness shire, Scotland and in that same year, he studied and obtained his Master Mariner Certificate (which would have included the use of an octant for navigation). He was appointed to Mr George (or James) Walker, as commander of his sailing ship, the 3-masted ELIZABETH, built 1859 and known as “The Walker barque”. In 1870 he married, then in 1887 returned to Australia with his wife and children (Kenneth Chisholm (1871), Mary Bremner Chisholm (1873), Margaret Hood Chisholm (1874), Farquhar Chisholm (1878)). They arrived in Port Melbourne, Victoria and sadly, only six weeks after landing, his wife Caroline passed away (in Geelong,1888). In 1900 Capt. Chisholm lived in Camperdown (Victoria) and not long after this his daughter Margaret died of consumption. In his later years, he went to live in the manse of St. Paul’s Presbyterian Church, Wangaratta, with his son, Rev. Farquhar Chisholm. He died there on Sat, 23rd March 1912, 80 years old. He was known as “… quiet, unobtrusive and competent, respected by all with whom he came in contact”. Some other members of Captain Chisholm’s family are; his older son Kenneth Chisholm, who was a contractor in Camperdown; a nephew Donald Macintosh (of 23 Douglas Row, Inverness); a grandson Brian Jones (son of Caroline Belle-Jones nee Chisholm, who lived in Camperdown in the earlier part of her life).The octant, the forerunner of the sextant, was a significant step in providing accuracy of a sailors latitude position at sea & his vessels distance from land when taking sightings of land-based landmarks.Octant, once belonging to Captain Farquhar Chisholm. Wedge shape (the size of an eighth of a circle), made of wood, glass and metal. Used in the 1880s. Maker’s name across centre “L. SIMON - - - SHIELDS”. Three (3) light filtering, coloured glass shades. Two (2) eyepieces. Scale attached for measuring angles. Label inside the fitted, wedge-shaped case "Thomas L. Ainsley, Optician"Label inside case "Thomas L. Ainsley, Optician" Maker’s name across centre “L. SIMON - - - SHIELDS”.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, maritime navigation, navigation instrument, migration, captain chisholm, farquhar chisholm, sailing ship, the elizabeths, thomas l. ainsley, l. simons, shields england, octant, john hadley, chisholm

A sextant is an astronomical instrument used to determine latitude and longitude at sea by measuring angular distances, especially the altitudes of the sun, moon, and stars. It is a doubly reflecting navigation instrument and used mainly by sailors to measure the angular distance between two visible objects. The name comes from the Latin sextans, or “sixth part of a unit,” because the sextant’s arc can be 60° or 120° of a circle depending on the model used. The primary use was to measure the angle between an astronomical object and the horizon for the purposes of celestial navigation. The estimation of this angle is known as sighting or shooting the object, or taking a sight. This angle and the time when it was measured is used in order to determine Greenwich Mean Time and hence longitude. Sighting the height of a landmark on land can also give a measure of distance from that object. History: The development of the sextant was as an improvement over the octant, an instrument designed to measure one's latitude. The octant was first implemented around 1731-present but can only measure angles up to 45°. As larger angles were needed to allow the measurement of lunar objects - moon, stars and the sun - at higher angles, the octant was superseded by the sextant. The sextant is a similar instrument but better made and allows larger angles from 60° to 120°. This improvement allows distances to be accurately calculated thereby giving longitude when used with a chronometer. The sextant was derived from the octant in 1757, eventually making all previous instruments used for navigational positioning obsolete. The sextant had been attributed to by John Hadley (1682–1744) and Thomas Godfrey (1704–1749), but reference to the sextant was also found later in the unpublished writings of Isaac Newton (1643–1727). Earlier links can be found to Bartholomew Gosnold (1571–1607) indicating that the use of a sextant for nautical navigation predates Hadley's implementation. In 1922, the sextant was modified for aeronautical navigation by Portuguese navigator and naval officer Gago Coutinho. It should be noted that the octant and quadrant are in the same family as they were, and all are, regarded as sextants. The sextant is representative of it's type and although not fully complete it demonstrates how 18th,19th and 20th century mariners determined their latitude and longitudinal to determine their position on a chart, allowing them to navigate there way across the world's oceans. It also demonstrates the skill and workmanship of the early instrument makers that operated scientific instrument businesses from London and other areas of England to provide most of the navigational instrumentation used by commercial and military navies of the time.Sextant with square, fitted box of polished wood, "Hezzanith" brand. Box contains many parts for the sextants use. On certificate "Heath & Co, London. Sextant Number Y 822". Catch on lid "DEFIANT LEVER" and "PATENT NUMBER 187.10". Maker's certificate is attached to the inside of the box.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sextant box, sextant, hezzanith, heath & co, navigational instrument, george wilson heath, astronomical instrument, instrument manufacturers, scientific instrument, navigation, celestial navigation, octant, quadrant, lunar navigation

An Octant is a doubly reflecting navigation instrument used primarily by sailors to measure the angular distance between two visible objects and was a forerunner of the sextant. The name comes from the Latin octo, or “one-eighth of a circle,” for the Octant’s arc which spans 45°, or one-eighth of a circle. The primary use of an Octant is to measure the angle between an astronomical object and the horizon for the purposes of celestial navigation. The estimation of this angle is known as sighting or shooting the object, or taking a sight. The angle, and the time when it was measured, can be used to calculate a position line on a nautical chart (latitude), for example, sighting the Sun at noon or Polaris at night (in the Northern Hemisphere) gives an angle by which the latitude can then be estimated. Sighting the height of a landmark on land can also give a measure of distance. History: The principle of the Octant as an instrument to measure ones latitude was first implemented around 1742-present but was superseded by the improvement of the octant to a sextant, a very similar instrument, better made and able to measure bigger angles 120°, allowing the measurement of Luna distances to give longitude when used with an accurate chronometer. The sextant started to appear around 1730 and had been attributed to by John Hadley (1682–1744) and Thomas Godfrey (1704–1749), but reference to the sextant was also found later in the unpublished writings of Isaac Newton (1643–1727). Earlier links can be found to Bartholomew Gosnold (1571–1607) indicating that the use of a Sextant for nautical navigation predates Hadley's implementation. In 1922, the sextant was modified for aeronautical navigation by Portuguese navigator and naval officer Gago Coutinho. Henry Hemsley was a lesser-known instrument maker and optician working in London in the late 17th and early 18th century. However, it should be noted that there were two Henry Hemsley opticians and instrument makers around this period. (Henry Hemsley 1, 1786-89, who had premises at 85 Fleet St London and Henry Hemsley 2, 1828-56), whose workshop was at 135-138 Radcliff Highway London. Therefore, based on the inscribed workshop address Henry Hemsley 2 is responsible for making this example.The octant is representative of its type and although not fully complete it demonstrates how 18th and 19th-century mariners determined their latitude on a chart to navigate their way across the world's oceans in the 18th and 19th century. It also demonstrates the skill and workmanship of the early instrument makers that operated from London at this time and provided most of the navigational instrumentation use by commercial and military navies of the time.Octant, ebony wooden frame and handle. Scale is missing from recess in frame. "H. Hemsley 135-138 Ratliff Highway, London", no box"H. Hemsley 135-138 Ratcliff Highway, London"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, navigation, navigational instrument, instrument used for navigation, sextant, henry hemsley, instrument maker, london, octant

Thomas Walker & Son was internationally renowned in the manufacturing of ships logs. Founding father Thomas Walker (1805–1871), an engineer in Birmingham, patented a mechanical log in 1878 which was a recording instrument that attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial recorded the distance travelled. Thomas Walker first went into business to manufacture stoves at 58 Oxford Street Birmingham. Walker’s self-feeding stove was widely lauded at the Paris Exhibition of 1855, winning a prize medal and kick starting the first of many notable innovations for the Walker family's manufacturing business. However, it wasn’t until working on an earlier ships log model invented by his Uncle that Thomas Walker became interested in the further development of this device, used to ascertain a ship’s speed. Walker continued to improve on the common log for the company of Massey & Sons and these improvements were deemed revolutionary. This log became a firm favourite of the West India Association (British-based organisation promoting ties and trade with the British Caribbean) and the most common log in use for two generations. It took till 1861 for Thomas Walker and his son, Thomas Ferdinand Walker (1831-1921) to patent the first Walker log of many. Together, with the introduction of the A1 Harpoon Log two years later, they established the Walker Log Business as a force to be reckoned with. By the time of his passing in 1871, Thomas Walker Snr had not only founded a family business with considerable staying power but also instilled a tradition of public service. Having sat as a representative on the Birmingham Town Council for 15 years and played an active role in public works, he was soon given the nickname of ‘Blue Brick Walker’. Much like his father, Thomas Ferdinand Walker changed the face of the maritime industry. His patent of 1897, the ‘Cherub’ log, was a notable departure from the past providing a far more accurate reading and replacing the majority of logs of the age. They were the first to produce an electric log and the Walker factory was one of the first to introduce the 48 hour work week for employees. This ship log was invented and made by a significant marine instrument maker and innovator of machinery. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades. Ship Log, three analogue dials calibrated in increments of Miles, the Rocket Log is a nautical instrument for measuring a vessel’s speed and distance traveled. The floating log was drawn behind the ship over a fixed time period in order to measure the distance traveled. The counter could measure enough miles to cover the maximum distance traveled by a ship in one day. The log has two distinct parts; a brass register, made by Walker, showing the distance recorded and the rotator made by Reynolds, that spins in the water driving the counter. both parts are connected by a linked chain. The register has a cylindrical brass body approx 4.5 cm diameter containing registering mechanism with hardened steel bearings. Distance is indicated by the three pointers on enamel plate as follows: graduated every 10 miles from 0-100; every mile from 1-10; every 1/4 mile from 1/4 -1. A brass sling and eye secured to the body enables it to be attached to the taffrail. The original rotator would have had a cylindrical tapered wooden body, approx 4.5 cm in diameter with three metal alloy fins or could be all made from brass. A towing eye is fitted to the tapered end. The two pieces of apparatus are connected by a length of linked chain, length 22.9 cm."Walkers Rocket Ship-Log Birmingham (Patented)" printed on face-plate. "Made by Thomas Walker".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, ship log, rocket log, mechanical ship log, measuring instrument, marine instrument, nautical instrument, speed recording instrument, ship log register, walker ship log, walkers rocket ship-log, thomas walker, thomas walker & son, thomas ferdinand walker, walker log business, reynolds ship log rotor, taffrail log, taff rail log, west india association

The Excelsior IV Log is a nautical instrument for measuring a vessel’s speed and distance travelled. When navigating a ship it is essential to be able to estimate the boat’s speed and distance travelled to determine its position at sea. In times past the only way to measure a ship’s speed was to throw a wood log into the water and observe how fast it moved away from the ship. In the 16th century, the log was fastened to a rope knotted at set intervals. The log was thrown over the stern (back) of the vessel and a crew member counted the number of knots that were paid out in a set time. From this, they could estimate the speed of the vessel through the water. This was known as streaming the log and is also the derivation of the knot as a measurement of nautical speed. The Walker’s Excelsior Mark IV instrument was designed for smaller vessels, such as yachts, launches and fishing vessels. Historical: Thomas Walker & Son was internationally renowned in the manufacturing of ships logs, founding father , Thomas Walker (1805–1871), an engineer in Birmingham, patented a mechanical log in 1878 which was a recording instrument that attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial recorded the distance travelled. Thomas Walker first went into business to manufacture stoves at 58 Oxford Street Birmingham. Walker’s self-feeding stove was widely lauded at the Paris Exhibition of 1855, winning a prize medal and kick starting the first of many notable innovations for the Walker family's manufacturing business. However, it wasn’t until working on an earlier ship’s log model invented by his Uncle that Thomas Walker became interested in the further development of this device, used to ascertain a ship’s speed. Walker continued to improve on the common log for the company of Massey & Sons and these improvements were deemed revolutionary. This log became a firm favourite of the West India Association (British-based organisation promoting ties and trade with the British Caribbean), being the most common log in use for two generations. It took until 1861 for Thomas Walker and his son, Thomas Ferdinand Walker (1831-1921) to patent the first Walker log of many. Together, with the introduction of the A1 Harpoon Log two years later, they established the Walker Log Business as a force to be reckoned with. By the time of his passing in 1871, Thomas Walker Snr had not only founded a family business with considerable staying power but also instilled a tradition of public service. Having sat as a representative on the Birmingham Town Council for 15 years and played an active role in public works, he was soon given the nickname of ‘Blue Brick Walker’. Much like his father, Thomas Ferdinand Walker changed the face of the maritime industry. His patent of 1897, the ‘Cherub’ log, was a notable departure from the past providing a far more accurate reading and replacing the majority of logs of the age. They were the first to produce an electric log and the Walker factory was one of the first to introduce the 48 hour work week for employees. The ship log was invented and made by a significant marine instrument maker and innovator of machinery. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades.Ship's Taff Rail Log, rope attached. Walker's Excelsior IV Log model. Nautical miles dials: units and 10's. "Walker's Excelsior IV Log", "Made in England by Thomas Walker, Birmingham"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, log register, taff rail log, taffrail log, marine navigation, a1 harpoon log, cherub’ log, walker’s excelsior mark iv log, ship’s log instrument, mechanical ship’s log, measure ship’s speed, nautical instrument, navigation instrument, massey & sons, thomas walker, blue brick walker, thomas walker & son, thomas ferdinand walker, 48 hour work week

Breakwater navigation lights are placed at the end of the breakwaters to warn incoming vessels of the end of the structure, as a marine safety measure. The subject item was such a light believed to have been placed at the end of Warrnambool's breakwater around 1915 when it was extended. The light had remained in place for many years until it was probably removed when the structure was undergoing rock armouring repairs to the end of the breakwater in 1975. The light had been placed in a council storage shed probably from the time when the structure was undergoing these repairs in 1975. In 2014 the light was removed from the storage shed and donated to Flagstaff Hill museum. History: Warrnambool breakwater plans were drawn up by 1874 and approval was given for preliminary construction work to start but when the money ran out, the works stopped. With a number of quick changes of government the “Warrnambool” breakwater project was kicked from one Victorian state government to another. Then finally in 1879, the eminent British harbour engineer Sir John Coode was asked to design a breakwater. His first design was for a 1800 feet long structure but that was scaled back to 900 feet and construction finally began in 1884. This structure was attributed in causing major siltation of Lady bay, as a consequence the breakwater was again extended in 1915. In 1975, the rock armouring at the end of the breakwater was added but by 1979 another impact study was calling for the breakwater to be removed altogether. The Heritage Council Victoria, regard the Warrnambool breakwater is of historical significance to the state as one of the most important maritime engineering projects that was undertaken in Victoria during the late nineteenth century. The light is also as part of this structure regarded as a significant item of historical interest.Marker light or navigation light. Round light stand with conical top piece (2 separate pieces). Metal base painted red, clear glass middle section enclosed by metal frame, metal cone shaped top section painted silver. Electrical wiring can be seen inside centre section. Pole that light would have been on to elevate it is missing.Has metal plate screwed onto side of base engraved "23". flagstaff hill, warrnambool, shipreck coast, flagstaff hill maritime museum, maritime museum, great ocean road, warrnambool breakwater, marker light, naviagtion light, breakwater navigation light

History of the Loch Ard: The Loch Ard got its name from ”Loch Ard” a loch which lies to the west of Aberfoyle, and the east of Loch Lomond. It means "high lake" in Scottish Gaelic. The vessel belonged to the famous Loch Line which sailed many vessels from England to Australia. The Loch Ard was built in Glasgow by Barclay, Curdle and Co. in 1873, the vessel was a three-masted square-rigged iron sailing ship that measured 79.87 meters in length, 11.58 m in width, and 7 m in depth with a gross tonnage of 1693 tons with a mainmast that measured a massive 45.7 m in height. Loch Ard made three trips to Australia and one trip to Calcutta before its fateful voyage. Loch Ard left England on March 2, 1878, under the command of 29-year-old Captain Gibbs, who was newly married. The ship was bound for Melbourne with a crew of 37, plus 17 passengers. The general cargo reflected the affluence of Melbourne at the time. Onboard were straw hats, umbrella, perfumes, clay pipes, pianos, clocks, confectionery, linen and candles, as well as a heavier load of railway irons, cement, lead and copper. There were other items included that were intended for display in the Melbourne International Exhibition of 1880. The voyage to Port Phillip was long but uneventful. Then at 3 am on June 1, 1878, Captain Gibbs was expecting to see land. But the Loch Ard was running into a fog which greatly reduced visibility. Captain Gibbs was becoming anxious as there was no sign of land or the Cape Otway lighthouse. At 4 am the fog lifted and a lookout aloft announced that he could see breakers. The sheer cliffs of Victoria's west coast came into view, and Captain Gibbs realised that the ship was much closer to them than expected. He ordered as much sail to be set as time would permit and then attempted to steer the vessel out to sea. On coming head-on into the wind, the ship lost momentum, the sails fell limp and Loch Ard's bow swung back towards land. Gibbs then ordered the anchors to be released in an attempt to hold its position. The anchors sank some 50 fathoms - but did not hold. By this time the ship was among the breakers and the tall cliffs of Mutton Bird Island rose behind. Just half a mile from the coast, the ship's bow was suddenly pulled around by the anchor. The captain tried to tack out to sea, but the ship struck a reef at the base of Mutton Bird Island, near Port Campbell. Waves subsequently broke over the ship and the top deck became loosened from the hull. The masts and rigging came crashing down knocking passengers and crew overboard. When a lifeboat was finally launched, it crashed into the side of Loch Ard and capsized. Tom Pearce, who had launched the boat, managed to cling to its overturned hull and shelter beneath it. He drifted out to sea and then on the flood tide came into what is now known as Loch Ard Gorge. He swam to shore, bruised and dazed, and found a cave in which to shelter. Some of the crew stayed below deck to shelter from the falling rigging but drowned when the ship slipped off the reef into deeper water. Eva Carmichael a passenger had raced onto the deck to find out what was happening only to be confronted by towering cliffs looming above the stricken ship. In all the chaos, Captain Gibbs grabbed Eva and said, "If you are saved Eva, let my dear wife know that I died like a sailor". That was the last Eva Carmichael saw of the captain. She was swept off the ship by a huge wave. Eva saw Tom Pearce on a small rocky beach and yelled to attract his attention. He dived in and swam to the exhausted woman and dragged her to shore. He took her to the cave and broke the open case of brandy which had washed up on the beach. He opened a bottle to revive the unconscious woman. A few hours later Tom scaled a cliff in search of help. He followed hoof prints and came by chance upon two men from nearby Glenample Station three and a half miles away. In a complete state of exhaustion, he told the men of the tragedy. Tom then returned to the gorge while the two men rode back to the station to get help. By the time they reached Loch Ard Gorge, it was cold and dark. The two shipwreck survivors were taken to Glenample Station to recover. Eva stayed at the station for six weeks before returning to Ireland by steamship. In Melbourne, Tom Pearce received a hero's welcome. He was presented with the first gold medal of the Royal Humane Society of Victoria and a £1000 cheque from the Victorian Government. Concerts were performed to honour the young man's bravery and to raise money for those who lost family in the disaster. Of the 54 crew members and passengers on board, only two survived: the apprentice, Tom Pearce and the young woman passenger, Eva Carmichael, who lost her family in the tragedy. Ten days after the Loch Ard tragedy, salvage rights to the wreck were sold at auction for £2,120. Cargo valued at £3,000 was salvaged and placed on the beach, but most washed back into the sea when another storm developed. The wreck of Loch Ard still lies at the base of Mutton Bird Island. Much of the cargo has now been salvaged and some items were washed up into Loch Ard Gorge. Cargo and artefacts have also been illegally salvaged over many years before protective legislation was introduced in March 1982. One of the most unlikely pieces of cargo to have survived the shipwreck was a Minton majolica peacock- one of only nine in the world. The peacock was destined for the Melbourne 1880 International Exhibition in. It had been well packed, which gave it adequate protection during the violent storm. Today the Minton peacock can be seen at the Flagstaff Hill Maritime Museum in Warrnambool. From Australia's most dramatic shipwreck it has now become Australia's most valuable shipwreck artifact and is one of very few 'objects' on the Victorian State Heritage Register.The shipwreck of the Loch Ard is of significance for Victoria and is registered on the Victorian Heritage Register ( S 417). Flagstaff Hill has a varied collection of artefacts from Loch Ard and its collection is significant for being one of the largest accumulation of artefacts from this notable Victorian shipwreck. The collections object is to also give us a snapshot into history so we can interpret the story of this tragic event. The collection is also archaeologically significant as it represents aspects of Victoria's shipping history that allows us to interpret Victoria's social and historical themes of the time. The collections historically significance is that it is associated unfortunately with the worst and best-known shipwreck in Victoria's history. Small copper alloy weight shaped like a domed bell. Recovered from the wreck of the Loch Ardflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, loch line, loch ard, captain gibbs, eva carmichael, tom pearce, glenample station, mutton bird island, loch ard gorge, copper alloy weight, weight, weights and measures, scale weight

This is a set of seven photographs of map grid production using co-ordinatorgraphs at the Army Survey Regiment, Fortuna Bendigo. c1960s to 1970s. The Aristo Co-ordinatorgraph introduced in 1962 was a large heavy steel framed light table with a scribing head that moved in a XY direction using a vernier calibrated measuring scale to 0.001 of an inch. Whilst hand operated it was much quicker and accurate than manual grid and graticule calculation, plotting and scribing. Mapping PNG presented the Regiment with many challenges. WO1 Farrington and CPL John Dean developed computer software for the digitally controlled co-ordinatorgraph, the Calcomp 718 Flatbed Plotter. Much time was saved by automatically plotted cartographic grids and graticules, and automatically draw base compilation sheets complete with aerial triangulated stereo model control. This could be used for a number of maps and was the first step towards map automation. The history of co-ordinatorgraphs is covered in more detail with additional historic photographs, in pages 50 to 51 and page 88 of Valerie Lovejoy’s book 'Mapmakers of Fortuna – A history of the Army Survey Regiment’ ISBN: 0-646-42120-4. SGT Bill Boyd appearing in photo .1P reach the rank of WO1 and for 11 years was the technical warrant officer at the Detachment Army Survey Regiment located at Bonegilla, Victoria. He was awarded the OAM, the Order of Australia Medal for the development of the Flexiflow quality control system. This system comprised a series of job plans and charts linked to a task allocation to resource magnetic planning board. Using critical path analysis and task prioritisation, complex job planning was efficiently scheduled, and re-prioritisations readily made. Reproduction requirements were effectively coordinated by way of weekly courier to the Army Survey Regiment. Supervisors and technicians fully embraced the system as they could understand their role, others around them and the positive production achievements. Bendigo. See page 178 of Valerie Lovejoy’s book for more information on WO1 Boyd’s contribution to RA Svy.This is a set of seven photographs of map grid production using co-ordinatorgraphs at the Army Survey Regiment, Fortuna Bendigo. c1960s to 1970s. The photographs were printed on photographic paper and are part of the Army Survey Regiment’s Collection. The photographs were scanned at 300 dpi. .1) - Photo, black & white, c1960s, L to R: SGT Bill Boyd demonstrating Aristo Co-ordinatorgraph equipment to unidentified technicians (x3) .2) - Photo, black & white, c1960s, Aristo Co-ordinatorgraph equipment. .3) - Photo, black & white, c1960s, unidentified technician operating Aristo Co-ordinatorgraph equipment. .4) - Photo, black & white, c1960s, L to R: PTE Desi Asaris and CPL Kalen Sargent operating Aristo Co-ordinatorgraph equipment. .5) - Photo, black & white, Photo, black & white, c1970s, John Bloor operating Calcomp co-ordinatorgraph equipment. .6) - Photo, black & white, Photo, black & white, c1970s, unidentified technician operating Calcomp co-ordinatorgraph equipment. .7) - Photo, black & white, Photo, black & white, c1970s, L to R: SGT Andy Covington and SGT John Waight operating Calcomp co-ordinatorgraph equipment..7P annotated on back ‘Covington & Waight’.royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, carto, air survey

This is a small medicine measuring glass supplied by the Warrnambool pharmacy of Harry London. Born in England, Harry London, a chemist and dentist, came to Warrnambool in 1891, occupying the Nettleton building at 95 Liebig Street. In 1896 he built new premises at the corner of Liebig and Koroit Streets and in 1905 his was the first shop in Warrnambool to have electric lighting. He was succeeded in the early 1920s by the chemists, Dougall and Easton. This glass is of considerable significance because it came from the pharmacy of Harry London, an important chemist in Warrnambool at the end of the 19th century and the beginning of the 20th century. It also shows the custom of the time of chemists supplying to customers small glasses for measuring out medicine. This is a small thick glass tumbler used for measuring medicine. It is etched with the measurements of teaspoon, dessertspoon and tablespoon and the name of the supplier, H. London, a Warrnambool chemist and dentist. It has the initials of the maker on the base. Etched on side in oval shape: ‘H. London, Chemist and Dentist, Warrnambool’ Etched on side: ……. Tea ……. Dessert ……. Table Etched on base: ‘W.T. Co., A J. U.S.A.’ harry london, warrnambool, dougall and easton, chemists

Photographer: Richards & Co. Portrait Parlours operated from 19 Sturt Street, Ballarat from 1881-1921 but with "Under Royal Patronage" appears to be 1881-1885. 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. 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, phillip shillinglaw (1842-1914), 1881-1885, 1885, richards & co. photographers 19 sturt st ballarat

William Bear, Photographer operated from 145 Smith Street, Fitzroy from 1877 to 1882. Prior to that the address was occupied by F.C. Burman to 1876 and followed by W. Latimer in 1883 (Sands Melbourne Directory) Marg Ball suggested the fellow may possibly be a Kidd. Put side by side with Sarah Ann Shillinglaw (nee Kidd) and he certainly could be a brother. Looking at Sarah and her siblings, 2nd eldest William seems the most/only candidate given the date of the photo. William Bear only operated from 145 Smith St., Fitzroy from 1877 through 1882. The fashion/hair/whiskers suggest it is moving out of the 1870s and into the 1880s so it is fairly reasonable to suggest circa 1880 for the photo. At that time, William would be 27 – looks right. The only other two brothers, Samuel and Matthew had both died as youngsters years earlier. Further, the placement of the photo in the album on the opposite page to the only photo of Sarah suggests there is a close relationship. 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, 1877-1882, 1880, w. bear photographer 145 smith st fitzroy, william kidd (1853-1901)

This is a set of four photographs of Bell 47G-2 helicopters used in Royal Australian Survey Corps Field Operations. c1965. From 1957, helicopter transport of survey parties revolutionised transport in remote areas. The most common helicopter used by the Royal Australian Survey Corps at this time was the civilian Bell 47G-2 and the Sioux, the Australian Army’s’s equivalent. equivalent. From 1964 an Aerodist MRC2 airborne Electronic Distance Measuring (EDM) system was extensively used for topographic surveys over long distances by trilateration to replace traverse requiring survey station intervisibility. In 1965 the command field survey unit personnel attached to the Army Survey Regiment’s Topographic Squadron were used mainly in support roles such as station clearing, tower operations, station monumenting, Aerodist computations, forward base operations, geodetic observations on the north-south traverse and logistic support for Remote teams. .1P is a photo of a civilian Bell 47G-2 helicopter Registration / Serial VH-UTB owned by Helicopter Utilities from Mascot, NSW c1965. In the background of this photograph is three personnel and vehicles at a field survey camp. The left-hand vehicle is a Willys Jeep with trailer and on the right is probably a Truck, 2 1/2 ton, 6x6, General Service GMC. The Bell 47G-2: VH-UTB was destroyed, and its pilot killed in tragic circumstances during a civilian survey operation on Cape York Peninsula in June 1966. .2P is a photo of a a civilian Bell 47G-2 helicopter Registration / Serial VH-IHB taken in Wyndham, WA. As the letters ‘TAA’ appear on the fuselage, the helicopter was charted from Trans Australian Airways. .3P is a photo of a Bell 47G-2: VH-UTC with survey camp in background. .4P is a photo of a Bell 47G-2 equipped with floats and unidentified personnel loading stores, possibly in Darwin. Acknowledgement: Royal Australian Survey Corps – Aerodist Years 1964-1975 Version 2021.0 Authored by Peter Jensen.This is a set of four photographs of civilian Bell 47G-2 helicopters used in Royal Australian Survey Corps Field Operations. c1965. The photographs were printed on photographic paper and are part of the Army Survey Regiment’s Collection. The photographs were scanned at 300 dpi. .1) - Photo, black & white, c1965, Bell 47G-2 helicopter: VH-UTB with survey camp in background. .2) - Photo, black & white, c1965, Bell 47G-2 helicopter: VH-IHB with survey station in foreground. .3) - Photo, black & white, c1965, Bell 47G-2 helicopter: VH-UTC with survey camp in background. .4) - Photo, black & white, c1965, Bell 47G-2 helicopter: Unidentified personnel loading stores possibly in Darwin..2P – annotated on bottom of photo ‘Wyndham Area – Helicopter drops observing party’ The other photographs are not annotated.royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, surveying

John Warren Glover was a significant operator of cyanide re-processing works in the goldfields from around 1900. He lived at 123 Webster Street for many years, and operated quite a substantial three roomed private laboratory on the grounds for assays associated with his operations. This balance was used at that laboratory. The Webster Street property is believed to be the first brick fronted house in Ballarat and the bricks were ballast from a Scottish Ship. The property remained in the Glover Family until it was sold in 1955. John Warren had car or licence registration no 12. A German made beam balance that would have been an extremely sensitive, and top of the line for its time (probably 1910 – 20’s). It has a long beam and a complex system of jewel knife edges and bearings. Plaque on front with C. Staudinger & Co. Machf, Gisssen (Gibben)mining, goldfields, beam balance, german, c. standinger & co., jw glover, john glover, warren glover, john warren glover, john w. glover, weights and measures, c. staudinger and co, carl staudinger, scientific equiment

The beginning of standardised weights and measures began In Victoria when the Melbourne Observatory received sets of standard weights and measures, which had been tested in Britain against the then British Imperial standards. These included the primary standard yard and pound for the Colony of Victoria. Other standards of weights and measure held by shires and the administrative body's within the colony could then be compared to these primary standards. A Weights and Measures Act was passed in Victoria in 1862, establishing local inspectors throughout the colony. By the 1870s each local council and shire in Victoria held a set of standards that were used to test scales, weights and dry measures used by wholesalers, factories and shops. Every ten years the councils’ standards would themselves need to be rechecked against the Victorian Standards. The checking was done by the Victorian Customs Department in the 19th century, but with the transfer of responsibility for customs to the Federal Government in 1901, weights and measures function was retained by the Victorian Government and was shifted to the Melbourne Observatory. In 1904, a new building was erected at the south end of the Great Melbourne Telescope House, where the standard weights and measures and testing equipment was installed. This room had a large whirling apparatus for testing air meters and became known as the Whirling Room. When the Melbourne Observatory closed in 1944, the Weights and Measures Branch was formed to continue and this branch remained at the Observatory site unit until 1995. J & M Ewan History: J&M Ewan was a Melbourne firm that began by selling retail furniture and wholesale ironmongery. They had substantial warehouses situated at the intersection of 81-83 Elizabeth and Little Collins Streets, the business was established by James M Ewan in 1852. Shortly afterwards he went into partnership with William Kerr Thomson and Samuel Renwick. When Ewan died in 1868 his partners carried on and expanded the business under his name J & M Ewan. The business was expanded to provide a retail shop, counting-house and private offices. Wholesale warehouses adjoined these premises at 4, 6 and 10 Little Collins Street, West. This company provided and sold a large and varied amount of imported goods into the colony that consisted of agriculture equipment, building materials, mining items as well as steam engines, tools of all types and marble fireplaces. They also supplied the Bronze measuring containers in the Flagstaff Hill collection and the probability is that these containers were obtained by the local Melbourne authority that monitored weights and measures in the mid to late 19th century. The company grew to employ over 150 people in Melbourne and opened offices at 27 Lombard St London as well as in New Zealand and Fiji. The company also serviced the Mauritius islands and the pacific area with their steamship the Suva and a brig the Shannon, the company ceased trading in 1993. Robert Bate History: Robert Brettell Bate (1782-1847) was born in Stourbridge, England, one of four sons of Overs Bate, a mercer (a dealer in textile fabrics, especially silks, velvet's, and other fine materials)and banker. Bate moved to London, and in 1813 was noticed for his scientific instrument making ability through the authority of the “Clockmakers Company”. Sometime in the year 1813 it was discovered that one Robert Brettell Bate, regarded as a foreigner in London had opened a premises in the Poultry selling area of London. He was a Mathematical Instrument maker selling sundials and other various instruments of the clock making. In 1824, Bate, in preparation for his work on standards and weights, leased larger premises at 20 and 21 Poultry, London, at a rental of four hundred pounds per annum. It was there that Bate produced quality metrological instruments, which afforded him the recognition as one of one of the finest and principal English metrological instrument-makers of the nineteenth century. English standards at this time were generally in a muddle, with local standards varying from shire to shire. On 17 June 1824, an Act of Parliament was passed making a universal range of weights, measures, and lengths for the United Kingdom, and Bate was given the job of crafting many of the metrological artifacts. He was under instruction from the renown physicist Henry Kater F.R.S. (1777-1835) to make standards and to have them deposited in the principal cities throughout the United Kingdom and colonies. Bate experimented with tin-copper alloys to find the best combination for these items and by October 1824, he had provided Kater with prototypes to test troy and avoirdupois pounds, and samples with which to divide the troy into grams. Bate also cast the standard for the bushel, and by February 1825, had provided all the standards required of him by the Exchequer, Guildhalls of Edinburgh, and Dublin. In 1824, he also made a troy pound standard weight for the United States, which was certified for its accuracy by Kater and deposited with the US Mint in 1827. Kater, in his address to the Royal Society of London, acknowledged Bate's outstanding experimentation and craftsmanship in producing standards of weights, measures, and lengths. An example of a dry Bronze measuring container made specifically for J & M Ewan by possibly the most important makers of measurement artefacts that gives us today a snapshot of how imperial weights and measures were used and how a standard of measurement for merchants was developed in the Australian colonies based on the Imperial British measurement system. The container has social significance as an item retailed by J & M Ewan and used in Victoria by the authorities who were given legal responsibility to ensure that wholesalers and retailers of dry goods sold in Victoria were correct. The container was a legal standard measure so was also used to test merchants containers to ensure that their distribution of dry goods to a customer was correct.Maker Possibly Robert Brettell Blake or De Grave, Short & Co Ltd both of LondonContainer bronze round shape for measuring dry quantities has brass handles & is a 'half-bushel' measurement"IMPERIAL STANDARD HALF BUSHEL" engraved around the top of the container. VICTORIA engraved under "J & M Ewan & Co London and Melbourne" engraved around the bottom of the container.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, standard measure, bronze, peck measurement, j & m ewan, victorian standard dry measurement, bronze container, victorian standards, melbourne observatory, robert brettell bate