This pump is an Ajax Type L2 Series A model, made and sold by McPherson’s Pty Ltd of Melbourne circa 1930’s to 1940’s, is a mechanical, hand operated, constant flow pressure pump. It would have been used to pump fluids from one area to another, for example from a dam to a tank or used as a bilge pump on a small vessel, mounted on the vessel’s bulkhead, floor or deck. This type of hand pump is sometimes called a ‘Reciprocating Suction Pump’. It has a mechanical pumping action of the lever moves the piston inside the pump up and down. The water is lifted from below the pump through the inlet pipe and into the pump’s cylinder. This action causes the lower valve to close and the piston’s valve opens and the pressure within the pump forces the water out of the pump through the exit pipe. The limitation of this type of pump is that it can only raise the water a maximum of about 7 metres from beneath the ground and yields 24-26 Litres per minute. This type of pump could be used for many purposes such as pumping water or fuel. McPherson’s 1940’s advertisement proclaims “For all jobs on the land – irrigation, spraying, tank, plumbing, fire-fighting – there’s a suitable “Ajax” pump. Send us the details of you pumping problem. Our Expert’s advice will help you choose the right pump – the one that will give you most years of PROFITABLE PUMPING.” (The Australasian (Melbourne) Sat. 26th October 1940.) McPherson’s Pty Ltd, the manufacturer, advertised a similar pump to this one in The Australasian (Melbourne) in 1936, calling it the Ajax Double Acting Hand Pump. In 1942 another advertisement advised that a representative for a fire-fighting equipment supplier was visiting the western district of Victoria. The company could now supply double-action two-spray Ajax pumps at lower prices than similar pumps the district had recently purchased from Adelaide. McPHERSON’S FOUNDER and COMPANY TIMELINE 1860 – Thomas McPherson, a Scottish immigrant (c. 1853 ), founded McPherson’s in Melbourne, supplying pig iron (lead ingots imported as ballast in ships) to local manufacturers. 1882 – Thomas McPherson established a warehouse in Collins St Melbourne and included tools, steam fittings and machinery in his wares. The business expanded to include steam saw mills and became known as Thomas McPherson and Sons (William Murray and Edward). 1888 – Thomas passed away and his sons inherited the business. In 1896 William Murray became the sole proprietor after his brother Edward’s death. 1900 – The firm expanded, establishing Acme Bolt Company to manufacture nuts and bolts. 1912 – McPhersons Pty Ltd established a machinery warehouse and showroom in 554-556 Collins St Melbourne. McPherson’s went on to establish branches in Sydney (1911), Adelaide (1921) and Perth (1930) 1917 - McPherson’s supplied ‘dog spikes’ for the transcontinental railway, running from Eastern to Western Australia. 1918 – A tool works set up in Kensington, Melbourne, manufacturing Macson lathes and made machine tools that previously had to be imported. 1924 – The Bolt Works was transferred to a new building in Melbourne. McPhersons began making pumps. 1929 – McPherson retired. His son (Sir) William Edward McPherson (known as ‘WE’), was born in Hawthorne, Melbourne, in 1898. After his education he began work in his father’s Melbourne hardware and machinery business He took over as governing director when his father retired. 1929-1932 – McPherson’s supplied thousands of tons of rivets from its Richmond (Melbourne) Bolt Works for the construction of the Sydney Harbour Bridge. 1936 – McPherson’s Pty Ltd is advertising Ajax Pumps in newspapers 1934 – McPhersons purchased the property adjoining the warehouse in Collins Street, and during 1935-1936 built a new office and showrooms on the site of 546-445 Collins St. 1939 - McPherson’s acquired the Tool Equipment Co. Pty. Ltd and Associated Machine Tools Australia Pty Ltd was formed to separate McPherson’s machine-tool manufacturing and merchandising interests. 1939 – Ajax Pump Works, a foundry and pump manufacturing plant, was established in Tottenham, Melbourne, and the Ajax Bolt and Rivet Co Pty Ltd began manufacturing in New Zealand. 1944 - McPherson’s became a public company, McPherson’s Ltd. 1948 - The Ajax Pump Foundry opened at Kyneton, Victoria and in the post war years it grew to became a large manufacturer. 1980’s – Ajax Pumps brochure lists the address as 6 Buckhurst St, South Melbourne, Vic 3205 with the Telephone number 03 669 3588 1988 - Ajax Pumps acquired the Forrers Company, which was established in 1921. Manufacturing in Ipswich, Queensland, specialising in submersible sewage pumps. 1991 – KSB Ajax was formed, bringing together the companies KSB and Ajax Pumps 1993 – Manufacturing was moved to state-of-the-art premises in Tottenham, Victoria 2001 - The Forrers facility was moved to Tottenham. 2007 - Company name KSB Ajax Pumps was changed to KSB Australia Pty Ltd. 2009 - KSB Australia opened a branch in Townsville, Queensland. 2011 - KSB Australia moved to its dedicated Water and Waste Water Competence Centre in Bundamba, Queensland. DISPLAY OF THIS AJAX PUMP This pump was installed at Flagstaff Hill Maritime Village as part of a working display in the village by the Friends of Flagstaff Hill, in acknowledgement of the dedicated involvement of one of its long serving members, Bob Crossman. The display was officially opened 31st March 2018 and incorporates a restored Furphy Tank and Water Pipe Stand. The pump is used to draw water from the lake, through the water stand pipe and into the reconditioned Furphy Tank. This Ajax pump made by McPherson’s Pty Ltd is significant for its association with McPherson’s, a prominent manufacturer of hardware in Victoria. McPherson’s is famous for supplying ‘dog-spikes’ for the transcontinental railway (eastern to western Australia, 1917) and rivets for the Sydney Harbour Bridge (1929-1932). The Ajax pump is also of significance because of its association with McPherson’s Governing Director (Sir) William McPherson, former premier and treasurer in Victoria 1928-1929. The former McPherson’s Pty Ltd building in Collins Street Melbourne is now on the Victorian Heritage Register VHR H0942 This pump is representative of mechanical pumps popular in the early to mid-1900’s and still used today. Hand operated pressure pump, double acting. Cast metal case, painted red, with steel hose attachments and long metal lever. Pump is bolted to wooden plank. Model of pump is AJAX, Type L2, Series A pump. Embossed on lower section of pump "L2 - 10", "L2 - -1", "AJAX" “(?) –2-1” Embossed on lower handle “3-7” “L – 4” Embossed on attached plate “FOR SPARE PARTS / TYPE L2 / SERIES A / PUMP ASSEMBLED BY T R” Manufactured by McPherson’s Pty Ltd of Melbourne circa 1930’s - 1940’s.flagstaff hill, warrnambool, flagstaff hill maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, ajax pump works tottenham melbourne, ajax pump factory kyneton, william edward mcpherson, thomas mcpherson of melbourne, mcpherson’s pty ltd melbourne, acme bolt company, tool equipment co. pty. ltd, associated machine tools australia pty ltd, ajax bolt and rivet co. pty ltd new zealand, forrers company ipswich queensland, ksb ajax pumps, ksb australia pty ltd, macson lathes, tool manufacturer early to mid- 20th century, ajax double acting hand pump, ajax type l2 series a pump, qisjax pumps, water pump 1940’s, fuel pump 1940’s, hand operated constant flow pressure pump, reciprocating suction pump, agricultural hand pump, plumber’s hand pump, portable hand pump

Information from Norman F. Dalton: Ballarat had a reticulated DC supply in the early part of last century and in 1905 had sufficient generating capacity to enable the trams to be changed from horse drawn to DC electricity. The use of electricity increased with the main power station located on Wendouree Parade, near Webster Street, under the ownership of The Electric Supply Company of Victoria. AC generating plant was installed in 1925 and conversion to AC proceeded. In 1934 the company was taken over by the State Electricity Commission Victoria (SECV) and more AC generation was installed and the changeover of customers was accelerated. This is around the time that the Synchronome Frequency Checking Mast Clock was installed at the Wendouree Parade Power Station. The SECV Annual Report of 1921 states: ::Section 11 of the act directed the COmmission to enquire into the question of securing the adoption of such standards of plant and equipment of a system, frequency and pressure for the generation and distribution of electricity as will admit of the efficient interconnection of undertakings throughout the State. In 1934 when the SECV took over the Ballarat operations the question of linking with the State grid had been a planned operation for some years but due to financial considerations had hindered it and in fact would continue to do so for a further 10 years. So while the need for close frequency control for interconnection was hardly an issue, the need to keep electric clocks correct was important, particularly as this item was a frequent sales point to cover the inconvenience and sometimes expense of converting from DC to AC. The clock is a very accurate pendulum clock with provision for varying effective length during operation for precise time regulation. There are two normal time dials and one is controlled by the pendulum and the other is operated by the system frequency. When the clock was in use it was installed by the MEter and Tests Laboratory and the time was checked daily by radio time signals. The two dials were repeated in the operators control panel in the Power Station. A maximum deviation between the two dials was set in the operating instructions (eg 5 seconds) and the operator would correct this when necessary by remote manual alteration of the turbine governor set point. The clock was used to drive and regulate a system of "slave" clocks which were used to display the time in various locations around the power station. A slave clock is a simple clock which is driven by a small electric motor, its accuracy is regulated by the master clock every 30 seconds to ensure that it and all the other slave clocks in the station are on exactly the right time; slave clocks were placed in various locations, from common rooms to workshops. A master clock could potentially run thousands of slave clocks at one plant. The clock also contains a rectifier. A rectifier is a device that is used to convert AC power to more stable DC current.Two clocks in a timber case. Both are electric, one is powered by the main pendulum mechanism, the other is a self contained electric clock. The main mechanism is of the gravity arm and roller type, which sends an impulse to the slave clocks every 30 seconds. The This Synchronome Frequency Checking Master Clock was used at the Ballarat Power Station. Below the main section of the case is a smaller cabinet containing a rectifier to provide consistent DC power for the clock. The rectifier was made by the Victorian company Hilco, which was located in Burwood. There is a high chance this is not the original rectifier from this clock as there appears to be brackets to hold a larger device in the space the rectifier occupies.Front below main clock face on front of case: "Patented Sychronome Brisbane" Lower left-hand clock face: "Frequency time" Lower right-hand clock face: "Standard Seconds" Synchronous electric clock mechanism on door (Frequency time clock): >200/250 V. 50~ >"Synchronomains" Made in England >Direction indicator for clock starting switch >"To start move lever in direction of arrow and release" >"Patent applied for" Mechanism for "standard seconds" clock: >"English Made" >"Patented" >Serial number "321" >0 above right-hand pillar on front-plate Mechanism for "standard seconds" clock: >"English Made" >"Patented" >Serial number "321" >0 above right-hand pillar on front-plate Mechanism for main clock face: >"English Made" >"Patented" >Serial number "8751" >0 above right-hand pillar on front-plate Inside case, back panel, top enamel plate: >Seconds Battery + Pos. > Battery Common or - Neg. >1/2 min dials Inside case, back panel, bottom enamel plate: external seconds dial Inside case, right hand side, electrical knobs: two switches, both "A.C. mains" Pendulum rod, below suspension spring: Serial number (?) 0000005 Rectifier in bottom cabinet: >"Hilco Rectifier" >"A.C. Volts 230/240" >"Model 1060/S" >"A.C. Amperes" >"Serial No. 1060/S >"Phases 1" >"D.C. Volts 6" >"C.P.S. 50" >"D.C. Amperes 1" >"Made in Australia by Hilco Transformers McIntyre St., Burwood, Victoria." Bakelite electrical plug: makers mark Lower cabinet, RH side panel, pressed tin plate: "AC" (upside down) Brass speed adjustment, outer right RH side: "S" and "F" Ivory and wood pendulum beat ruler: >Ruler, with 0 in centre and numbers 1-5 in ascending order from centre on left and right. > "Synchronome Patent." Steel plate, back panel, inside case, right hand side: >N R A" (descending) >"2191" serial number/part number Face of main clock: "Synchronome Electric" synchronome frequency checking master clock, electricity, state electricity commission, wendouree parade power station, secv, clock, time, pendulum, electric supply company of victoria, norman f. dalton, ballarat power station, rectifier, slave clock

Hardcover minute book with charcoal green cover and red spine. Numerous newspaper clipping have been pasted onto the pages, most related to mining. The clippings include: 26 September 1932 - Castlemaine Goldmines - Best Prospects for Years 12 October 1932 - South New Chum Syncline Goldmines NL 30 November 1932 - New Morning Star Co. 19 February 1934 - Berringa Gold Syndicate NL 12 September 1934 - Murchison Goldfield - Triton Gold Mine 1935 - Great Poseidon 1935 1935 - Golden Age Amalgamated 11 February 1935 - Loloma Gold Mines NL 19 May 1936 - Beaconsfield Gold Mine in Tasmania 02 July 1936 - Fletchers Gold Mine 17 August 1936 - Lasseter's Reef. Kalgoorlie 17 November 1836 - Large Scale Operations at Ballarat 16 January 1937 - New Charlton Gold Area 19 January 1937 Golden Jacket Mine 26 January 1937 - Rich Quartz at Avoca April 1934 - Bendigo Mines Limited May 1934 - Church Centenary - St Luke's Campbell Town Interesting History (image) Tasmania 1932 - Evolution of Auto-Car - Cugnot's Steam Trolley (image) 1932 - Evolution of Auto-Car - Push Foot Schemes (image) 1933 - Evolution of Auto-Car - Hancock's Steam Omnibus (image) 1933 - Evolution of Auto-Car - First Petrol Car (image) 1934 - The Gold Standard - How Australia Forsook It August 1934 - Bolwarrah and Gordon's Amalgamated NL 23 August 1934 - Dunolly Gold Mines NL 12 September 1934 - Murchison Goldfield - Triton Gold Mine 08 September, Adelaide Advertiser - Australia's Heritage of Golden Days by Ernestine Hill 28 November 1934 - Chronicles of Early Melbourne by Garyowen 05 May 1936 - Bendigo Mines Director's Policy (image of E.C. Dyason) 30 June 1936 - Lamplough Mine 27 June 1936 - Gold Dredging Company for Newstead 30 May 1935, The Herald - Gordon Battery in Production 19 September 1936 - Wattle Gully reef - Payable Values at 655 Feet 30 June 1936 - Avoca Developments NL 16 July 1934 - Westralia Renown Mines NL Prospectus 07 November 1936 - Ballarat East Gold Field - English Company's Deal (Victoria United, Britania United, First Chance, Last Chance, Llanberris No 1, Llanberris No 2, Sulieman No. 1, Sulieman No. 2, Sulieman No. 4, North Normanby, North Woah Hawp, Woah Hawp Canton, Tinworth's, Prince Regent Consolidated) 07 November 1936 - Large Scale Operations at Ballarat (image of A.E. Llewellyn) * How an Australian Discovered the World's Greatest Goldfield -The Beginning of The Rand. bendigo mines, coolgardie discovery, melbourne - chronicles of early melbourne, ballarat gold field, mining, lasseter's reef, squatter, emperor mine, cassilis gold mining, granite, bendigo mines ltd, campbell town st luke's centenary, car evolution, dartmore, harcourt granite, murchison goldfield, ballarat mines, fanny bay, mail, rand, alex allan, raymond cahalin, mary dyer, robert fordham, a. garsand, augustus f. heseltine, j. owen james, william latham, k palmer, tinworth, theosanous, c. tompkin, castlemaine goldmines, coolgardie

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

The history of the No. 2 Independent Commando Company and 2/2 Commando Squadron during World War II – scarce as a 1st edition dated 1986. Having completed its training at Foster, on Wilson’s Promontory, Victoria, the 2nd Independent Company was raised and travelled north to Katherine, in the Northern Territory. However, following Japan’s entry into the war, as with the other independent companies that were sent to the islands off Australia, the 2nd was sent to Timor, where it joined the 2/40th Battalion and the rest of Sparrow Force. Sparrow Force divided itself between west Timor, part of the Netherlands East Indies, and east Timor, which belonged to Portugal. The 2/40th Battalion defended the capital of west Timor, Koepang, and the airfield at Penfui. Most of the independent company moved to the airfield at Dili, in east Timor, and the nearby mountains. Portugal was opposed to the stationing of a Dutch or Australian garrison in case this provoked the Japanese, but despite this opposition, on 17 December 1941, elements of the 2nd Independent Company and Dutch troops landed near Dili. On 20 February 1942 the Japanese invaded the island, attacking east and west Timor simultaneously. The 2/40th Battalion held out for three days, but were overrun and were killed or captured. Similarly, the 2nd could not hold the airfield and were also driven back. But they were not captured and instead retreated to the mountains where they conducted a very successful and pursued a guerrilla war against the Japanese which lasted for over a year. Following the capture of Timor, the 2nd occupation the company was listed as “missing”, the company’s signallers were able to build a wireless transmitter, nicknamed ‘Winnie the War Winner’, and on 18/19 April were able to contact Darwin. At the end of May RAN vessels began landing supplies for the Australians on the south coast of east Timor. These supply runs were very dangerous but they allowed the Australians on Timor to continue fighting. In September the guerillas were reinforced with the 2/4th Independent Company. However, this could not go on indefinitely. In August the Japanese lunched a major offensive against the guerrillas and Japanese reprisals against the civilian population of east Timor reduced their support for the Australians. The 2nd (now named the 2/2nd Independent Company) and 2/4th were withdrawn in December and January 1943 respectively. Although the 2/2nd Independent Company is best known for its time on Timor, it also saw extensive service in New Guinea and New Britain. The independent company reformed at the army’s training centre at Canungra, Queensland, where it was reinforced and reequipped. The company then moved to the Atherton Tableland, where it briefly became part of the 2/6th Cavalry (Commando) Regiment. Due to this reorganisation, in October, the 2/2nd Independent Company was renamed the 2/2nd Cavalry (Commando) Squadron. This name was later simplified to just commando squadron. When this happened though, the 2/2nd was back in action. In June 1943 the 2/2nd sailed from Townsville for Port Moresby and was subsequently flown to Bena Bena, in the Bismark Range in New Guinea’s highlands. Here they supported the 2/7th Independent Company in patrolling the Ramu River area. In the second week of July the 2/2nd moved into position, with its headquarters at Bena Bena and with its platoons’ occupying neighbouring positions. By the end of the month their patrols were skirmishing with the Japanese. The 2/2nd remained in New Guinea until October 1944. After 90 days leave, the squadron reformed at Strathpine in Queensland before sailing to New Britain in April 1945. The 2/2nd landed at Jacquinot Bay on 17 April. The squadron then moved to Wide Bay, in order to support the 13th Brigade of the 5th Division, and was based at Lamarien. Following Japan’s surrender and the end of the war, the ranks of the squadron thinned quickly as men were discharged or transferred to other units. For those who were left, they returned to Australia and in early 1946 the 2/2nd Commando Squadron was disbanded. Includes Nominal Roll Soft Cover without Dust Jacket – 270 pages

Double Headed Rail from Ravenswood Station Siding which was dismantled circa 1987 the two rails were stored for a time at Maldon before being donated to Puffing Billy Museum Bearing makers marks of Wilson & Cammell - Dronfield- Steel works Wilson & Cammell made Steel rails at their Dronfield Steel Works, in Dronfield, North East Derbyshire, England from 1872 - 1883 Double-headed rail In late 1830s Britain, railway lines had a vast range of different patterns. One of the earliest lines to use double-headed rail was the London and Birmingham Railway, which had offered a prize for the best design. This rail was supported by chairs and the head and foot of the rail had the same profile. The supposed advantage was that, when the head became worn, the rail could be turned over and re-used. In practice, this form of recycling was not very successful as the chair caused dents in the lower surface, and double-headed rail evolved into bullhead rail in which the head was more substantial than the foot. Info from Wikipedia - Rail Profile https://en.wikipedia.org/wiki/Rail_profile The first records of double headed rail being used In Victoria by Victorian Railways was in 1859, the rails, chairs, oak and trenails were imported from UK. After the 1870’s the Victorian Railways went over to using flat bottom rails, but they still needed replacement double headed rail for lines already laid and this continued up to at least 1883 Wilson & Cammell - Dronfield- Steel works Wilson & Cammell made Steel rails at their Dronfield Steel Works, in Dronfield England from 1872 - 1883 Mount Alexander & Murray River Railway The Melbourne, Mount Alexander & Murray River Railway Company received parliamentary assent in February 1853 to build Victoria's first inland railway from Melbourne to Williamstown, and Melbourne to Bendigo and Echuca. Construction commenced in January 1854 with work on a pier at Williamstown but lack of funds slowed progress, eventually prompting the company to sell out to the government. The 100-mile (162 km) section to Bendigo opened in October 1862. Its cost of £35,000 per mile made it the most expensive railway ever built in Australia. In 1864, the line was extended to Echuca, tapping into the booming Murray-Darling paddlesteamer trade. info from Museums Victoria - Victorian Railways https://museumsvictoria.com.au/railways/theme.aspx?lvl=3&IRN=450&gall=456 1863 Ravenswood Station open on the 1st Feb 1863 Victorian Railways - purchased and imported the Rail and Chairs from Raleigh, Dalgleish, White and Co. London Importation of railway plant : abstract of a return to an order of the Legislative Assembly dated 27th June 1860 for - Copies of the advertisements calling for tenders, the names of the tenderers and the accounts and correspondence with Mr Brunel relating thereto GP V 1859/60 no. C 15 http://www.parliament.vic.gov.au/papers/govpub/VPARL1859-60NoC15.pdf Report from the Select Committee upon the Importation of Railway Plant : together with proceedings of the Committee, minutes of evidence and appendix GP V 1859/60 no. D 38 (2.9 MB) http://www.parliament.vic.gov.au/papers/govpub/VPARL1859-60NoD38.pdf Ravenswood Siding When the Victorian Railways were established in 1856 they adopted one of the popular British permanent way standards - heavy 80lb (36.3kg) double-headed rail held up right in cast iron chairs attached to transverse timber sleepers by wooden pegs called trenails. The Ravenswood Railway siding was constructed in 1862 with 12 feet wrought iron double-head rail held in cast iron chairs with Ransom and May patent compressed keys. Trenails held the chairs to the sleepers and the joints were secured in joint chairs. Joints were subsequently joined using fish plates. It formed part of the Melbourne to Echuca rail line, initially known as the Melbourne, Mt Alexander and Murray River Railway. George Christian Derbyshire, the first Engineer-in-Chair of the Victorian Railways was responsible for the design and construction of the works. No new lines were built in Victoria using double-headed rail after 1870. The siding was disconnected from the main line in 1988. The Ravenswood Railway Siding demonstrates the original 1856 philosophy of the Victorian Railways to adopt British permanent way technology. The siding demonstrates significant aspects in the development of permanent way technology in England and Victoria over the period from the 1830's to the 1880's. The chairs in the Ravenswood siding are physical evidence of early railway technology rendered obsolete 120 years ago, namely joint chairs at rail joints and trenails to secure the chairs to the sleepers. The double-headed rail demonstrates an important stage in the evolution of British rail technology in the 1830s. The old fish plates, square headed bolts and square nuts demonstrate the success of fishing the rail joins. The Ravenswood siding demonstrates the earliest form of rail joint technology developed in England, and existing in Australia, the joint chair. In part of the siding the sequence of joint and intermediate chairs is consistent with the 1856 specifications, that sequence is rare with the joints secured in joint chairs. The survival of chairs in this sequence is rare and almost certainly demonstrates that they remained in continuous use at the same location from 1862 to 1988. This remnant of the Ravenswood siding has survived 126 years. The siding has proved to be the most significant of extant remnant double-headed sidings in Victoria, containing a rare combination of early permanent way technologies. Construction dates 1862, Info from Ravenswood Railway Siding Victorian Heritage Database Report http://vhd.heritagecouncil.vic.gov.au/places/4693/download-report The remaining section of this siding is significant at the State and National levels in that it demonstrates the use of chaired rail by the Victorian Railways Department for the Trunk Lines and, more particularly, the following stages in the evolution of this long obsolete method of permanent way construction: a) The use of joint chairs and intermediate chairs at regular intervals inferring that the original wrought iron rail lengths were 12 feet, as is known through documentary sources to have been the case. The survival of chairs in this sequence is unique and almost certainly demonstrates that they have remained in continuous use at the same location and in the same sequence from 1862 to 1988 . b) The use of joint chairs and intermediate chairs designed for use with trenails. c) The use of later intermediate chairs designed for use with steel pins and the use of fished joints with steel double head chaired rail, representing a second method of constructing the permanent way using chaired rail technology. info from Ravenswood Siding - Melbourne/Echuca Railway Line - Victorian Heritage Database Report http://vhd.heritagecouncil.vic.gov.au/places/70103/download-report Addition to Citation for Melbourne to EchucaRailway Line 1/10/1990 Double Head Rail The surviving lengths of double head rail with chairs on this railway compare with one surviving similar remnant on the Geelong to Ballarat railway and are representative of permanent way construction techniques applied exclusively to the two trunk railways of the 1860's. In this respect they are rare survivors and may be unique at the national level and of technical importance at the international level to the extent that they enhance contemporary understanding of early railway building technology. Surviving lengths of chaired double head rail survive at Kyneton, Ravenswood and Bendigo on this railway and include a number of different types of cast iron intermediate and joint chairs with hardwood keys and metal pins. The Ravenswood siding is of special significance for the diversity of chair types and for the sequence of chairs recalling rail lengths known to be associated with construction of the line in 1862. Construction of the Railway Tenders closed on 24 March 1858 with no less than 133 tenders being received. A contract was let to Cornish and Bruce for £3,356,937 to commence work on 1 June 1858 and complete the line by 31 July 1861. Cornish and Bruce made quick early progress with the Melbourne to Sunbury section being officially opened on 13 January 1859. The line was officially opened to Bendigo (Sandhurst) on 20 October 1862 by the Governor of Victoria, Sir Henry Barkly. A great banquet was held for 800 guests and this was followed by a grand ball. The extension of the line to Echuca was a relatively simple matter as that part of the line was across plain country without any significant engineering challenges. Tenders were called for the work in 1863 and the work was completed in 1864 by contractors Collier and Barry Apart from the line contractors, other firms directly involved were J Shire law and Co (sleepers), R Fulton, Langlands Brothers and Co, William Crossley (water supply), B Moreland, Langlands Brothers and Co (platelayers lorries), E Chambers (iron pins, traversers), Miller and McQuinstan (luggage vans and steam engines) and various contractors for building works. Info from Engineers Australia Engineering Heritage Victoria Nomination for Recognition under the Engineering Heritage Australia Heritage Recognition Program for the Goldfields Railways - Melbourne , Bendigo & Echuca Railway Page 25 - .2.9.2 Statement from National Trust of Australia (Victoria) Listing number B5323 for Mt Alexander/Murray Valley Rail Line: Page 69 - Theme 3 https://www.engineersaustralia.org.au/portal/system/files/engineering-heritage-australia/nomination-title/Melbourne_%20Bendigo_Echuca%20Railway%20Nomination.pdf The Melbourne, Mount Alexander and Murray River Railway Company was a railway company in Victoria, Australia. It was established on 8 February 1853 to build a railway from Melbourne to Echuca on the Victorian-NSW border and a branch railway to Williamstown. The company struggled to make any progress and on 23 May 1856, the colonial Government took over the Company and it became part of the newly established Department of Railways, part of the Board of Land and Works. The Department of Railways became Victorian Railways in 1859. Construction of the Bendigo line commenced in 1858, but this private consortium also met with financial difficulties when it was unable to raise sufficient funds, and was bought out by the Victorian colonial government. The design work was then taken over by Captain Andrew Clarke, R. E., Surveyor-General of Victoria, with bridge designs completed by Bryson and O'Hara The contract for the first stage of the line from Footscray to Sandhurst (now Bendigo), was let to Cornish and Bruce for £3,356,937.2s.2d ($6.714 million) with work commencing on 1 June 1858. Completion of the permanent way was to be by 31 July 1861 https://en.wikipedia.org/wiki/Melbourne,_Mount_Alexander_and_Murray_River_Railway_Company Victorian Railways - purchased and imported the Rail and Chairs from Raleigh, Dalgleish, White and Co. London Importation of railway plant : abstract of a return to an order of the Legislative Assembly dated 27th June 1860 for - Copies of the advertisements calling for tenders, the names of the tenderers and the accounts and correspondence with Mr Brunel relating thereto GP V 1859/60 no. C 15 http://www.parliament.vic.gov.au/papers/govpub/VPARL1859-60NoC15.pdf Report from the Select Committee upon the Importation of Railway Plant : together with proceedings of the Committee, minutes of evidence and appendix GP V 1859/60 no. D 38 (2.9 MB) http://www.parliament.vic.gov.au/papers/govpub/VPARL1859-60NoD38.pdf Victorian Railways : report of the Board of Land and Works November 1862 GP V 1862/63 no. 21 (2.8 MB) https://www.parliament.vic.gov.au/papers/govpub/VPARL1862-63No21.pdfHistoric - Victorian Railways - Double Headed rail Ravenswood Railway Station and Siding Victorian Heritage Database Reports Victorian Heritage Register VHR H1100 Victorian Heritage Register VHR H1786 National Trust VHR H1100 Mount Alexander and Murray River Rail way Line National Trust2 rail lengths of Double Headed Rail made of Iron makers marks : Wilson & Cammell - Dronfield - Steel and 20 joint chairs with metal rail pins Makers mark Wilson & Cammell - Dronfield - Steel (possible date 187? very hard to read ) puffing billy, double headed rail, wilson & cammell - dronfield - steel works, ravenswood station siding, melbourne to echuca rail line, initially known as the melbourne, mt alexander and murray river railway.

This photograph dates to 1899, towards the end of the gold rush in the Mopoke Gully area. A large opening to a mine can be seen behind the men in the photograph, with a wheeled cart on a track leading to the men's position, where the soil and rocks have been hauled away. This photograph interestingly contains dogs alongside the miners. While dogs have been recorded as deterrents to thieves in the Victorian goldfields, these dogs appear as companions to these men. Mopoke Gully mines came under the 'Fryer's Creek' division of the Castlemaine District during the Gold Rush. After the Gold Rush began in Victoria with the discovery of gold at Ballarat in 1851, Gold was found in Castlemaine by December of that year. 20,000 diggers were spread across the Castlemaine region, and the area was yielding about 23,000 ounces of gold per week. Mopoke Gully was the site of the Mopoke Gully Water Wheel, operating under the Bendigo and Fryers Goldmining Company from 1887 until 1900. This Water Wheel was used in the gold mining technique of 'sluicing'. Hydraulic sluicing uses high pressure water jets to blast away the earth, which runs through a sluice box, catching the gold with all remaining slurry washing away. This Water Wheel was built the same year as the more famous 'Chewton Water Wheel', but was smaller in diameter (60ft as opposed to Chewton's 72ft). The Mopoke Water Wheel ruins are quite intact today, and are a registered archaeological site. The search for gold is ingrained into the history of Victoria and therefore, images like this one can reveal important information for society and technology for the date when the photograph was taken. This image is of important historical significance for its ability to convey information about sluicing and the methods used to find gold in 1899. This photograph reveals important information on the use of dogs on Victorian goldfields in 1899. Dogs were used both as companions, such as this photograph depicts, as well as deterrents to thieves. Sepia coloured rectangular photograph printed on gloss photographic paper mounted on card. Obverse: Williams/ Good/ Luck Reverse: A02498/ 1997. 2498/ Good Luck/ Mine/ 1899/ Mopoke. beechworth, burke museum, gold, gold mining, 1899, castlemaine, mopoke gully, good luck mine, fryer's creek, gold rush, victorian gold rush, water wheel, sluicing, chewton

This photograph dates to 1899, towards the end of the gold rush in the Mopoke Gully area. A slurry of rocks after they have been broken up is depicted, and this is part of the hydraulic sluicing mining process. Four men are relaxing under a wooden structure, with a fifth bearded man standing near a stone wall. This photograph interestingly contains dogs alongside the miners. While dogs have been recorded as deterrents to thieves in the Victorian goldfields, these dogs appear as companions to these men. Mopoke Gully mines came under the 'Fryer's Creek' division of the Castlemaine District during the Gold Rush. After the Gold Rush began in Victoria with the discovery of gold at Ballarat in 1851, Gold was found in Castlemaine by December of that year. 20,000 diggers were spread across the Castlemaine region, and the area was yielding about 23,000 ounces of gold per week. Mopoke Gully was the site of the Mopoke Gully Water Wheel, operating under the Bendigo and Fryers Goldmining Company from 1887 until 1900. This Water Wheel was used in the gold mining technique of 'sluicing'. Hydraulic sluicing uses high pressure water jets to blast away the earth, which runs through a sluice box, catching the gold with all remaining slurry washing away. Hydraulicking is the process of breaking up the rocks and suspending it in a slurry. This Water Wheel was built the same year as the more famous 'Chewton Water Wheel', but was smaller in diameter (60ft as opposed to Chewton's 72ft). The Mopoke Water Wheel ruins are quite intact today, and are a registered archaeological site.The search for gold is ingrained into the history of Victoria and therefore, images like this one which portray a sluicing site can reveal important information for society and technology for the date when the photograph was taken. This image is of important historical significance for its ability to convey information about sluicing and the methods used to find gold in 1899. It also shows a location where sluicing was undertook which provides insight into the impact of sluicing on the environment at a time when it was done. This photograph reveals important information on the use of dogs on Victorian goldfields in 1899. Dogs were used both as companions, such as this photograph depicts, as well as deterrents to thieves. Sepia coloured rectangular photograph printed on gloss photographic paper mounted on card.Obverse: Reverse: A02497/ 1997.2497/ 'Good/ Luck/ Mine'/ Morepork/ Gully/ Mrs Joyce/ Bright/ Tunnel/ 800 ft/ 1899. beechworth, burke museum, gold, gold mining, 1899, castlemaine, mopoke gully, good luck mine, fryer's creek, gold rush, victorian gold rush, water wheel, sluicing, chewton, slurry

The photograph appears to depict the of the entrance to the Rocky Mountain Tunnel. The Rocky Mountain Tunnel runs from opening of the tunnel, underneath the Beechworth town, to the Gorge. This tunnel drained the excess water from the upper Spring Creek Goldfield to allow for mining access in the area. The Rocky Mountain Co. blasted through the granite rock to create the original 400ft-long tunnel in 1859, but between 1867 and 1871, the Rocky Mountain Gold Sluicing Co. widened and extended it. At its completion, it measured 14ft deep, 6ft wide, and almost half a mile long. The mining surveyor at Beechworth called it 'without doubt, the greatest undertaking of the kind in the colony'. When the company became the Rocky Mountain Extended Gold Sluicing Co. in the mid-1870s, they continued the tunnelling work. The work was reportedly vital to mining being able to continue at Beechworth and may have established world records in tunnelling through hard rock. The entrance at the Gorge side of the tunnel can be seen from the Beechworth Gorge Walk. The tunnel continues to be an outfall drain for the lake and the town.The search for gold is ingrained into the history of Victoria and therefore, images like this one which portray an open cut sluicing site can reveal important information for society and technology for the date when the photograph was taken. This image is of important historical significance for its ability to convey information about sluicing and the methods used to find gold in the late 1800s and early 1900s. It also shows a location where sluicing was undertook which provides insight into the impact of sluicing on the environment at a time when it was done. The Burke Museum is home to a substantial collection of Australian mining photographs which can be used to gain a deeper understanding into life on the gold fields, technology used in mining, the miners themselves and the impact of the gold digging on the environment.A black and white rectangular reproduced photograph printed on matte photographic paper.7814beechworth, beechworth museum, burke museum, australian museum, mining, rocky mountain mining co., rocky mountain mining company, mine, mining company, rocky mountain mine, mine entrance, rocky mountain, gold, gold mining

In 1875, the Rocky Mountain Extended Gold Sluicing Company Ltd was created, utilising the previous Rocky Mountain claim for the area near Lake Sambell. The company employed A.L Martin to survey an area for a tunnel underneath Beechworth and Johnson Stephens to dig it. The tunnel was built at a rate of 40 feet a month and eventually measured 800 metres. The tunnel was a true accomplishment both in the present and during the 19th century. It was considered to be a marvelous engineering feat. Beechworth is renowned for its hydraulic sluice method of mining. This involved soil being exposed to torrents of water from high-pressure hoses. From 1876 until its closure in 1921, the mine produced an astounding 47,926 ozs of gold. Companies like this were the source of income for many Chinese gold-diggers who sought to make their fortune on the goldfields of Beechworth. During the height of the rush, the town had around 7,000 Chinese inhabitants living on the outskirts of town as they were not permitted to live within Beechworth itself.The search for gold is ingrained into the history of Victoria and therefore, images like this one which portrays an open-cut sluicing site can reveal important information for society and technology for the date when the photograph was taken. This image is of important historical significance for its ability to convey information about sluicing and the methods used to find gold in 1910. It also shows a location where sluicing was undertaken which provides insight into the impact of sluicing on the environment at a time when it was done. This image of the Rocky Mountain mine is historically significant as the mining complex is now non-existent, with the only remains being the tunnel built in 1880 by the company, which was considered one of the greatest engineering feats of the time. The image also provides a first-hand look into the social and cultural networks at play during the 19th century with racial segregation of the Chinese at the 'Chinese Camp', as well as an insight into Beechworth's origins during the Gold Rush.A sepia rectangular photograph printed on matte photographic paper as a postcardReverse: Historic Beechworth / 7792.1 / ROCKY MOUNTAIN MINE / Viewed from the “Chinese Camp”, shown partly in the foreground, we see the central plant of the famous Rocky Mountain Mining Company. This extensive complex, of which nothing remains, was situated between Silver Creek and the present Lake Sambell area. The company was responsible for a tunnel cut through solid bedrock underneath the town of Beechworth and surfacing near the keystone bridge on the Wangaratta side. Completed in 1880 it was declared to be one of the greatest engineering feats in Australia. The tunnel is still basically intact today. / Series by Wooragee Graphics: Historic Beechworth. / COPYRIGHT BURKE MUSEUM / No.72 beechworth, rocky mountain mine, sluicing, gold rush, mining, gold

A postcard taken of Reid's Creek in Beechworth, taken in the early 1900s. This image is a representation of early automboile usage in the Beechworth area, with the car crossing the Reid's Creek bridge. Taken in Sepia tone it also has a detailed look of the foundations of the early bridge.Sepia rectangular photograph printed on matte photograph paperObverse The Rose Series P.10534 / Copyright Reid's Creek, Beechworth, Vic Reverse Left Side of Reverse: Published by the Rose Stereograph / Armadale, Victoria Top of Reverse: Post Card /Printed drawing of a rose The “Rose” Series / De Luxe A Real Photograph / Produced in Australia 1997.2607 Tanley Lower Right of Reverse: 2906 automobile, bridge, reid's creek, beechworth, postcard

Galena Chalcopyrite is the earth's primary ore of lead and is mined from a large number of deposits in many countries. It is also an important source of silver. Galena Chalcopyrite is one of the most abundant and widely distributed sulfide minerals across the world. The mineral is found in igneous and metamorphic rocks in medium- to low-temperature hydrothermal veins. This specific specimen was recovered from the mines in Broken Hill, New South Wales. The mines in Broken Hill were first established after Charles Rasp discovered a large amount of silver-lead-zinc ore-body in the area in 1883. BHP (Broken Hill Proprietary) mining company was then established in 1885 and quickly became the lead in Australia's mining industry after they began excavating and exporting the country's largest amount of lead, silver, and zinc. This feat generated over $100 billion in wealth for the company.Galena Chalcopyrite is signifiant as it represents the catalyst for the rise of Australia's most influential mining companies - BHP. The mineral was one of the first to be mined in the country and after being made into lead, was used for a variety of things such as paint, batteries, ammunition, and plumbing materials before it was known to be harmful to humans. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A grey, solid hand-sized lead sulfide mineral with a silver metallic luster.burke museum, beechworth, geological, geological specimen, galena, galena chalcopyrite, chalcopyrite, broken hill, bhp, bhp mining, broken hill mine, mine, australia mine, lead, lead mine

Feldspathic arenites are sandstones that contain less than 90% quartz, and more feldspar than unstable lithic fragments, and minor accessory minerals.Feldspathic sandstones are commonly immature or sub-mature.These sandstones occur in association with cratonic or stable shelf settings. Feldspathic sandstones are derived from granitic-type, primary crystalline, rocks. If the sandstone is dominantly plagioclase, then it is igneous in origin Sandstone features prominently in public buildings throughout Victoria. Most of the sandstone used as dimension stone in the State came from three sources: the Heatherlie quarry in the Grampians (Silurian), the Bacchus Marsh area (Permian), and the Barrabool Hills near Geelong (Cretaceous).Sandstone features prominently in public buildings throughout Victoria, making this specimen special as it shows the materials used by Victorian building companies. Sandstone can also be crushed, crushed stone is used in the construction of roadways and road structures such as bridges, and in buildings, both commercial and residential. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A feldspar-rich sandstone, a sandstone intermediate in composition between an arkosic sandstone and a quartz sandstone, containing 10% to 25% feldspar and less than 20% matrix material of clay, sericite, and chlorite. Feldspathic arenite containing less than 90 percent of the composition of quartz. Feldspar is the main composition. Feldspathic arenite may contain fragments of unstable rock, and a little amount of other minerals such as mica and heavy minerals. Some feldspathic arenite have pink or red color because of the presence of potassium feldspar or iron oxide. There are also colored light gray to white. These sandstones are usually medium to coarse grained and can contain a high percentage of granules with angular until subangular roundness. The content of the matrix can appear as the rest up to more than 15 percent, and sorting of grains can present as moderate to poorly sorted. Feldspathic sandstones are generally immature in textural maturity. Feldspathic arenite can not be judged from the structure of the sediment. Bedding can emerge from the laminate parallel to the crossbed. Fossils may appear in the layer deposited on the sea. Feldspathic arenites usually appear on the craton or the continental shelf, which can be associated with conglomerate, quartz lithic arenite, carbonate rock, or evaporites. This sandstone may also appear on the succession of sedimentary basins deposited on an unstable or deep sea, and moving arc setting. According to Pettijohn (1963) Arkose make up about 15 percent of all sandstones. Some Arkose formed in situ when the granite and related rocks disintegrate and generate granular sediments. Most of the material feldspathic sandstones derived from primary crystalline granitic rocks, such as granite or metasomatic rocks containing abundant potassium feldspar. Mineral contained in sandstones is mostly a form of plagioclase feldspar derived from quartz diorite or volcanic rock. Feldspar contained on this sandstone comes from arid to cool climates when the chemical weathering process is reduced.sandstone, natural stone, feldspathic sandstone, burke museum, geology, geological, geological specimen

This particular specimen was recovered from the Lal Lal Coal and Iron Mine in Victoria, 19km from Ballarat. Brown Coal was discovered here in 1857, just alongside the Geelong to Ballarat Railway line. This discovery of lignite (brown coal) was the first in Victoria, which would bring important benefits to the region and state, both of which had previously been reliant on coal imports. In the 1860s, iron ore was found just 5km from Lal Lal, and the area was converted into an Iron Ore Mine. The Lal Lal Iron Mining Company took over operations in 1874, who then peaked iron production in 1884. This mine continued operations until June 1884, when the blast furnace was extinguished and never recommenced. The blast furnace at Lal Lal is considered one of the most important and highly significant sites ion early industrial history in Australia, as it is the only remaining best furnace from the nineteenth century in the Southern Hemisphere. The furnace ruins are 17 metres high, and are clearly visible today on Iron Mine Road, Lal Lal, near the Bungal Dam. This specimen of Lignite (brown coal) is significant, as it was mined from the area where brown coal was first discovered in Victoria, leading to an important and controversial future of the mining and use of brown coal in this State. The Victorian Heritage Database has listed the Lal Lal Coal Mine with local significance, with their Statement of Significance stating: "The Lal Lal coal mine is historically significant as the site of the first discovery of lignite (brown coal) in Victoria, and one that promised important benefits to regional and state industries that were reliant on coal imports at the time. The significance of the stie is reduced by the poor state of preservation of the coal mining and processing fabric". This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A hand-sized light-weight, soft and combustable sedimentary rock specimen, that is dark brown in colour. The specimen has jagged edges, as though parts of the rock have crumbled away. Brown coal, or Lignite, is formed naturally from compressed peat, and is typically found in natural basins. The stages to the formation of coal ('coalification') begin with plant material and wood, which will decay if it is not subjected to deep burial or heating, and turn into Peat. Peat, when sufficiently compressed naturally, will turn into Brown Coal (Lignite), and finally into Black Coal (sub-bituminous, bituminous and anthracite). Each successive stage has a higher energy content and lower water content. It is brownish-black in colour. Brown Coal has a high moisture content, between 50 and 75 percent, and a low carbon content. Some Brown Coals may be stratified, with layers of plant matter, which means little coalification has occurred beyond the peat natural processing stage. When Brown Coal is submerged in dilute nitric acid or boiling potassium hydroxide solution, it reacts to produce a reddish solution, of which higher-ranked coals do not. When brown coal is pulverised and burned in boilers, the steam is used to drive turbines, which generates electricity. It is the lowest rank of coal, as when burned, it creates a relatively low heat content, which in turn does not create a great output of steam. burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, brown coal, brown coal specimen, lignite, lal lal, lal lal coal mine, lal lal iron mine, ballarat, blast furnace

This particular specimen was found in the Moorabool Slate quarries in Victoria. The Moorabool Slate quarries was established in the 1860’s by a company of Welshmen with a crew of six who purchased land by the riverside to mine for slate. Under the promise of adding to existing recourses the crew mined the slate which was used for paving and roofing. Slate is a fine-grained, low-grade metamorphic rock that is formed by the transformation of mudstone, shale or sometimes volcanic ash under low pressure and temperatures. It dark colour is due to carbonaceous material or to finely divided iron sulphide. It is believed that Evan Rowlands and Theophilus Williams of Ballarat were the first to discover the slate veins. Slate is a one of the most common natural stones in general use. Being used as paving, flooring, roofing and more. However, its history of being mined in Australia is not common as it is considered that the best places to mine slate is Spain and parts of the United Kingdom. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A somewhat rectangular foliated metamorphic rock composed of quartz, sericite and minerals from the chlorite group that make up the compounds of slate. The rock is dark grey almost black.Geological survey / R S / Loc Moorabool /Slate quarries / 1/4 sheet | 78 | Roofing Slate /burke museum, beechworth, geological, slate, metamorphic, slate (metamorphic), geological specimen, slate specimen, indigo shire

This particular geological specimen was found in Mount Franklin or Lalgambook in Djadjawurrung, located between Daylesford and Newstead, approximately ninety minutes drive from Melbourne. The mountain is an example of a breached scoria cone (a steep conical hill of loose pyroclastic fragments) which was created by a volcanic eruption about 470,000 years ago, a date which may indicate the age of this geological specimen. The volcanic eruptions of Mount Franklin were most likely witnessed by members of the Dja Dja Wurrung Aboriginal tribe, who referred to this country as the 'smoking grounds'. Mount Franklin and the surrounding area appears to have been a place of considerable religious significance to Aboriginal people, there is evidence which indicates that frequent large ceremonial gatherings took place in the area. Basalt is the most common rock on Earth’s surface, more than 90% of all volcanic rock on Earth is basalt. Basalt is an aphanitic extrusive igneous rock formed from the rapid cooling of low-viscosity lava exposed at or very near the surface of a rocky planet or moon. Specimens are black in colour and weather to dark green or brown. Basalt is rich in iron and magnesium and is mainly composed of olivine, pyroxene, and plagioclase. Olivine is the name of a group of rock-forming silicate minerals with compositions ranging between Mg2SiO4 and Fe2SiO4. Unlike other minerals, Olivine has a very high crystallisation temperature which makes it the first of the minerals to crystallise from magma. As magma cools, the crystals begin to form and settle on the bottom of the lava and form basalts that are abnormally enriched in olivine in the lower part of lava flows. According to H. M. King (on geology.com) "Olivine is thought to be an important mineral in Earth's mantle. Its presence as a mantle mineral has been inferred by a change in the behaviour of seismic waves as they cross the boundary between Earth's crust and mantle". Lava from Mount Franklin and other volcanoes in the area filled valleys and buried the gold bearing streams that became the renowned ‘deep leads’ of the gold mining era. In 1852, as part of the Victorian gold rush, gold was discovered in the immediate area, this gold was created by lava flows during the Newer Volcanic period, which were mined intensively during the nineteenth century. Around 1865 the presence of a deep lead in Mount Franklin was established. Deep lead mining was initially unsuccessful, and it was not until the late 1870s that the Franklinford Gold Mining Company mined at Mount Franklin on a significant scale. A few years later the Mount Franklin Estate Gold Mining Company also struck gold, followed by the Shakespeare and Great Western companies in the mid-1880s. By the late 1880s, however, deep lead mining had ceased in the area. Soon after gold was discovered in 1851, Victoria’s Governor La Trobe wrote to the Colonial Office in London, urging ‘the propriety of selecting and appointing as Mineral Surveyor for this Colony a gentleman possessed of the requisite qualifications and acquaintance with geological science and phenomena’. Alfred Selwyn was appointed geological surveyor in Australia in 1852 which began the Geological Survey of Victoria. In 1853-69 the Geological Survey issued under Selwyn's direction sixty-one geological maps and numerous reports; they were of such high standard that a writer in the Quarterly Journal of the Geological Society of London bracketed the survey with that of the United States of America as the best in the world. During his years spent in Australia, Selwyn collected numerous significant geological specimens, examples of which are held in collections such as the Burke Museum.This geological specimen is an example of basalt and olivine which shows the volcanic lava activity and geographical specific nature of Mt Franklin as a significant volcanic site. According to Agriculture Victoria 'The crater is one of the deepest in the Central Highlands area. It is a major megacryst site with some of the largest known Victorian examples of megacrysts of augite and an orthoclase. The small parasitic mound of Lady Franklin on the western flanks adds to the geological interest of the site'. This specimen also highlights the locality as a significant place for both indigenous activity and Victorian gold rush era mining practices. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.An angular, solid hand-sized piece of grey volcanic Basalt with green/brown Olivine phenocrysts along one flat edge.Olivine in basalt / - label is probably / correct. / C. Willman / 15/4/21burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, basalt, igneous rock, igneous-volcanic, volcanic geology, volcanic, olivine, olivine specimen, basaltoid

Taken in 1960, depicted is an aerial view of Lake Sambell and the surrounding township. Lake Sambell is a beautiful Victorian recreation lake and urban park with a unique history. It was created in the mid-1800s by the Rocky Mountain Mining company during the gold rush era and used as a mining site until the early 1900s, which brought Europeans into the area. It was turned into a reserve for residents in 1920 and is considered an icon of Beechworth as it represents the development of the community, human endeavour, and the spirit of the landscape.This photograph represents what Lake Sambell looked like in 1960.Black and white reproduced rectangular photograph print on paper.lake sambell, #beechworth, beechworth 1960s, lake, victoria, australian landscape, mining, rocky mountain mining company

Taken in 1960, depicted is the construction of Lake Sambell, looking west across the lake. Lake Sambell is a beautiful Victorian recreation lake and urban park with a unique history. It was created in the mid-1800s by the Rocky Mountain Mining company during the gold rush era and used as a mining site until the early 1900s, which brought Europeans into the area. It was turned into a reserve for residents in 1920 and is considered an icon of Beechworth as it represents the development of the community, human endeavour, and the spirit of the landscape.This photograph represents additional construction to Lake Sambell as a recreational reserve.Black and white reproduced rectangular photograph print on paper.beechworth lake, lake, lake sambell, construction, #beechworth, australian landscape, beechworth 1960s, victoria

The photograph depicts two young men standing atop a prominent outcrop at Lake Sambell, with buildings visible on the further shore. The present day park and reserve occupies the site of the former Rocky Mountain Mining Company, an open-cut sluice mine that began operations in the mid-Nineteenth Century and operated until the early 1900s, through the peak of Victoria’s Gold Rush. It was converted into a park and leisure area in the 1920s. Lake Sambell was formally opened to the public on Friday 5th October 1928 and was opened by the Victorian Government’s Minister of Lands, Mr Bailey, as part of initiatives to boost the economies and development of country towns. The lake was named after Mr L.H. Sambell, a shire engineer and secretary of the Forward Beechworth Committee who was involved in promoting the transformation of the mining site and promoting plantation forestry and tourism as alternative industries. £300 to begin the process was provided by Mr J. McConvill, a former resident of Beechworth, who is remembered in a street name adjacent to the lake. An article in the Ovens and Murray Advertiser on Saturday, 5th May, 1917, gives some insight into issues in the Rocky Mountain Mining Company’s final years. The writer details the 1917 annual meeting of the Rocky Mountain Mining Company, stating that locals present appeared ‘well pleased this important local industry is in such a prosperous condition and that future prospects are so encouraging’. The author describes plans to give workers a bonus as evidence of profit-sharing that would ‘bridge the gulf between capital and labour’. The article concludes, however, with the statement that ‘there is a little arithmetical puzzle in the report in connection with the dredging operations I have been unable to solve.' The photograph is significant as it contributes to knowledge about how Beechworth reinvented itself after the Gold rush period, and more broadly how country towns repurpose and redevelop infrastructure and facilities to meet the present needs of their population. Sepia rectangular photograph printed on matte photographic paper. Obverse: nil. Reverse: 3471 / Velox (paper mark)beechworth, beechworth lake, lake sambell, l.h. sambell, mcconvill, rocky mountain mining company, rocky mountain mining co, minister of lands, forward beechworth committee, wallace park-lake sambell development scheme, wallace park lake sambell development scheme, lake, sambell, j. mcconvill, recreation, reserve, park, transformation, repurposed, redeveloped

The photograph depicts a view across the water at Lake Sambell. The image dates from approximately 1960. The present day park and reserve occupies the site of the former Rocky Mountain Mining Company, an open-cut sluice mine that began operations in the mid-Nineteenth Century and operated until the early 1900s, through the peak of Victoria’s Gold Rush. It was converted into a park and leisure area in the 1920s. Lake Sambell was formally opened to the public on Friday 5th October 1928 and was opened by the Victorian Government’s Minister of Lands, Mr Bailey, as part of initiatives to boost the economies and development of country towns. The lake was named after Mr L.H. Sambell, a shire engineer and secretary of the Forward Beechworth Committee who was involved in promoting the transformation of the mining site and promoting plantation forestry and tourism as alternative industries. £300 to begin the process was provided by Mr J. McConvill, a former resident of Beechworth, who is remembered in a street name adjacent to the lake. Residents of Beechworth have worked to raise funds to improve the Lake Sambell reserve several times, such as efforts in the 1930s and 1940s to raise the banks several feet to deepen the water for swimming purposes. Fundraising campaigns include the ‘Ugly Man’ competition conducted on behalf of the Wallace Park-Lake Sambell Development Scheme. The latter competition was run by the Fire Brigade Bend’s team as part of a larger competition called the ‘Mile of Pennies’; it was won by Mr Len Knight of Beechworth’s Commercial Hotel. The ‘Mile of Pennies’ was conducted at a Carnival held on New Year’s Eve, 1947. It was proposed by the Beechworth and District Progress Association. As well as improving swimming facilities, funds were raised to install a caravan park facility near the lake. Funds were also donated by commercial entities, such as £250 received from Zwar Bros. Pty Ltd. The photograph is significant as it shows the level of development of Beechworth in the early to mid-Twentieth Century. Sepia rectangular photograph printed on matte photographic paperObverse: nil. Reverse: 3470 / Velox (paper mark)beechworth, beechworth lake, lake sambell, lake, beechworth and district progress association, forward beechworth committee, ugly man, mile of pennies, wallace park lake sambell development scheme, wallace park-lake sambell development scheme, zwar bros, zwar, l.h. sambell, j. mcconvill, minister of lands, commercial hotel, len knight, rocky mountain mining company, rocky mountain mining co, gold rush, redevelopment, transformation, community fundraising

Taken in 1920, depicted are four people in a rowing boat on Lake Sambell, Beechworth. From left to right, it is believed that the names of the people are Eric Beard, Mrs Doris Beard, and S/L to Bert Beard. The last two figures are unknown. Lake Sambell is a beautiful Victorian recreation lake and urban park with a unique history. It was created in the mid-1800s by the Rocky Mountain Mining company during the gold rush era and used as a mining site until the early 1900s, which brought Europeans into the area. It was turned into a reserve for residents in 1920 and is considered an icon of Beechworth as it represents the development of the community, human endeavour, and the spirit of the landscape.This photograph represents the community's social use of the lake in 1920.Black and white rectangular photograph print on paper.Reverse: LAKE SAMBELL/ c 1920/ from LTOR/ 1 ERIC? - BERT'S SON/ 2 MRS DORIS BEARD/ 3 S/L TO BERT BEARD/ 4 #beechworth, lake sambell, lake sambell boating, beechworth lake, social, 1920, victoria

The photograph depicts a view across the water at Lake Sambell. The image is thought to date from the 1960s so may show the lake during a period of drought, such as that experienced across South-Eastern Australia in 1967. The present day park and reserve occupies the site of the former Rocky Mountain Mining Company, an open-cut sluice mine that began operations in the mid-Nineteenth Century and operated until the early 1900s, through the peak of Victoria’s Gold Rush. It was converted into a park and leisure area in the 1920s. Lake Sambell was formally opened to the public on Friday 5th October 1928 and was opened by the Victorian Government’s Minister of Lands, Mr Bailey, as part of initiatives to boost the economies and development of country towns. The lake was named after Mr L.H. Sambell, a shire engineer and secretary of the Forward Beechworth Committee who was involved in promoting the transformation of the mining site and promoting plantation forestry and tourism as alternative industries. £300 to begin the process was provided by Mr J. McConvill, a former resident of Beechworth, who is remembered in a street name adjacent to the lake. Residents of Beechworth have worked to raise funds to improve the Lake Sambell reserve several times, such as efforts in the 1930s and 1940s to raise the banks several feet to deepen the water for swimming purposes. Fundraising campaigns include the ‘Ugly Man’ competition conducted on behalf of the Wallace Park-Lake Sambell Development Scheme. The latter competition was run by the Fire Brigade Bend’s team as part of a larger competition called the ‘Mile of Pennies’; it was won by Mr Len Knight of Beechworth’s Commercial Hotel. The ‘Mile of Pennies’ was conducted at a Carnival held on New Year’s Eve, 1947. It was proposed by the Beechworth and District Progress Association. As well as improving swimming facilities, funds were raised to install a caravan park facility near the lake. Funds were also donated by commercial entities, such as £250 received from Zwar Bros. Pty Ltd.The photograph is significant as it shows Lake Sambell at lower water levels, such as may have been experienced during period of drought.Sepia rectangular photograph printed on matte photographic paperObverse: nil Reverse: 3470beechworth, beechworth lake, lake sambell, lake, beechworth and district progress association, forward beechworth committee, ugly man, mile of pennies, wallace park lake sambell development scheme, wallace park-lake sambell development scheme, zwar bros, zwar, l.h. sambell, j. mcconvill, minister of lands, commercial hotel, len knight, rocky mountain mining company, rocky mountain mining co, gold rush, redevelopment, transformation, community fundraising, drought, 1967, 1960s

Aerial view of Lake Sambell, Beechworth with town views. Lake Sambell is a beautiful Victorian recreation lake and urban park with a unique history. It was created in the mid-1800s by the Rocky Mountain Mining company during the gold rush era and used as a mining site until the early 1900s, which brought Europeans into the area. It was turned into a reserve for residents in 1920 and is considered an icon of Beechworth as it represents the development of the community, human endeavour, and the spirit of the landscape.This photograph represents Lake Sambell with town views.Black and white reproduced rectangular photograph print on paper.Reverse: Stampbeechworth lake, lake sambell, aerial photo, construction, australian landscape, #beechworth, victoria

The photographs in this set depict views across the water at Lake Sambell. The images date from approximately 1960. The present day park and reserve occupies the site of the former Rocky Mountain Mining Company, an open-cut sluice mine that began operations in the mid-19th Century and operated until the early 1900s, through the peak of Victoria’s Gold Rush. It was converted into a park and leisure area in the 1920s. Lake Sambell was formally opened to the public on Friday 5th October 1928 and was opened by the Victorian Government’s Minister of Lands, Mr Bailey, as part of initiatives to boost the economies and development of country towns. The lake was named after Mr L.H. Sambell, a shire engineer and secretary of the Forward Beechworth Committee who was involved in promoting the transformation of the mining site and promoting plantation forestry and tourism as alternative industries. £300 to begin the process was provided by Mr J. McConvill, a former resident of Beechworth, who is remembered in a street name adjacent to the lake. Residents of Beechworth have worked to raise funds to improve the Lake Sambell reserve several times, such as efforts in the 1930s and 1940s to raise the banks several feet to deepen the water for swimming purposes. Fundraising campaigns include the ‘Ugly Man’ competition conducted on behalf of the Wallace Park-Lake Sambell Development Scheme. The latter competition was run by the Fire Brigade Bend’s team as part of a larger competition called the ‘Mile of Pennies’; it was won by Mr Len Knight of Beechworth’s Commercial Hotel. The ‘Mile of Pennies’ was conducted at a Carnival held on New Year’s Eve, 1947. It was proposed by the Beechworth and District Progress Association. As well as improving swimming facilities, funds were raised to install a caravan park facility near the lake. Funds were also donated by commercial entities, such as £250 received from Zwar Bros. Pty Ltd.The photographs are significant as they show the level of development in Beechworth in the middle of the Twentieth Century. Four sepia and black and white rectangular photographs printed on matte photographic paper. 3469.1: Obverse: nil Reverse: 3469-1 3469.2: Obverse: nil Reverse: 3469-2 3469.3: Obverse: nil Reverse: 3469-3 3469.4: Obverse: nil Reverse: 3469-4beechworth, beechworth lake, lake sambell, lake, beechworth and district progress association, forward beechworth committee, ugly man, mile of pennies, wallace park lake sambell development scheme, wallace park-lake sambell development scheme, zwar bros, zwar, l.h. sambell, j. mcconvill, minister of lands, commercial hotel, len knight, rocky mountain mining company, rocky mountain mining co, gold rush, redevelopment, transformation, community fundraising

Taken in the 1960s, depicted are approximately twenty-nine male and female spectators at a school swimming carnival on Lake Sambell near the caravan park. Lake Sambell is a beautiful Victorian recreation lake and urban park with a unique history. It was created in the mid-1800s by the Rocky Mountain Mining company during the gold rush era and used as a mining site until the early 1900s, which brought Europeans into the area. It was turned into a reserve for residents in 1920 and is considered an icon of Beechworth as it represents the development of the community, human endeavour, and the spirit of the landscape. This photograph represents the post-gold rush era use of Lake Sambell as a recreational reserve. Swimming carnivals were held at the lake and considered a social event for the Beechworth community.Black and white reproduced rectangular photograph print on paper.Reverse: Community/ Swimming pool 1960s/ near the caravan park/ Lakes?lake swimming pool, lake swimming, beechworth carnival processions, carnival, #beechworth, beechworth 1960s, victoria

This particular specimen is found in Wolgan Valley, New South Wales. It could be linked to the abandoned oil shale mining sites in Wolgan Valley such as Newnes. Newnes was an industrial complex operational in the early 20th century is now partly surrounded by Wollemi National Park. It produced motor spirit, kerosene, and gas oil. Newnes's Torbanite oil shale rock contained around 350 litres of oil shale per tonne. The Torbanite was mined by the Commonwealth Oil Corporation Ltd. Oil shale is a sedimentary rock and also a form of fossil fuel. It is often formed millions of years ago and usually contain fossilised remains of plants and/or animals. Oil shale is rich in kerogen that releases hydrocarbon when heated. These hydrocarbon can be used as an alternative petroleum or natural gas. The oil-shale rock was converted into oil by "destructive distillation"; the rock being heated until it broke down to form an oily vapour and an ash residue. Oil bearing shale is one of Australia's national assets. There are many oil companies established in Australia. It reflects Australia's rich natural resources as well as connection to the Australia's engineering and oil industry. The booming oil shale extraction businesses can be traced as far back as 1920s. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.Piece of dark gray oil bearing shale with shades of light brown and fossilised leavesExisting label: OIL BEARING SHALE with / FOSSILISED LEAVES / Locality: Wongan Valley, NSW / Donor: Miss M. Cambell geological specimen, geology, geology collection, burke museum, beechworth, oil shale, shale, fossil fuels, alfred selwyn, wolgen valley, 1868 geological survey of victoria, rocks, sedimentary rocks, newnes, torbanite, commonwealth oil corporation ltd

Bituminous coal is the most common type of coal, abundantly found in ancient coal deposits which can be dated back millions of years. Often referred to as soft or black coal, this specimen exhibits a high carbon content, ranging from 76-86%. It also holds a relatively high energy density (27 MJ/kg) meaning that it releases significant amounts of energy when burned. Bituminous coal is most commonly used for electricity generation, as well as in the production of steel. This particular piece of coal was collected as part of the Geological Survey of Victoria in the nineteenth century. It originates from Cape Paterson, a seaside village located in South Gippsland, Victoria (located on Bunurong Country). The discovery of bituminous coal in this locality was first made in 1826 by explorer William Hovell. More discoveries were gradually made over the following decades and in 1859 the Victorian Coal Company commenced the first active coal mining operations in the state by sinking a number of shafts and bores near the area of Cape Paterson. Evidence of this coal-focused past can be found today at the State Coal Mine Museum in the nearby town of Wonthaggi. This specimen is significant as it was collected from the locality of Cape Paterson in Victoria, an area that has since become historically instrumental in the mining of coal and other substances in the state of Victoria. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study. A solid hand-sized piece of bituminous coal with a shiny black-grey surface and jagged edges.Existing Label: BITUMINOUS COAL / Locality: Cape / Patterson, VIC. burke museum, beechworth, geological, geological specimen, state coal mine museum, wonthaggi coal mine, victorian coal company, bituminous coal, coal victoria, coal energy generation, william hovell, cape paterson, coal specimen

Isabella Park Taylor, nee Dawson (1842-1929), friend of Western Victorian First Nations people, and student of their languages and customs. Isabella grew up at "Kangatong" (1844-1866) in the company of First Nations people and became fluent in their languages. With her father, James Dawson, she wrote the book "Australian Aborigines" (1881). She married William Andrew Taylor in 1877 and they built a fine homestead on their property at "Renny Hill'' near Camperdown, Victoria. Together they had two children, Effie, born 1878 and Katherine in 1880.Studio portrait of Isabella Taylor (nee Dawson) sitting at an occasional table.cdhs, cdhsfirstnations, djargurd wurrung, djargurdwurrung

Isabella Park Taylor, nee Dawson (1842-1929), friend of Western Victorian First Nations people, and student of their languages and customs. Isabella grew up at "Kangatong" (1844-1866) in the company of First Nations people and became fluent in their languages. With her father, James Dawson, she wrote the book "Australian Aborigines" (1881). She married William Andrew Taylor in 1877 and they built a fine homestead on their property at "Renny Hill'' near Camperdown, Victoria. Together they had two children, Effie, born 1878 and Katherine in 1880. She is pictured with her grandchildren, Jack and Katherine Thornton, Effie's children.Isabella Taylor (nee Dawson) seated with her two young grandchildren Jack and Katherine Thornton.cdhs, cdhsfirstnations, djargurd wurrung, djargurdwurrung

Isabella Park Taylor, nee Dawson (1842-1929), friend of Western Victorian First Nations people, and student of their languages and customs. Isabella grew up at "Kangatong" (1844-1866) in the company of First Nations people and became fluent in their languages. With her father, James Dawson, she wrote the book "Australian Aborigines" (1881). She married William Andrew Taylor in 1877 and they built a fine homestead on their property at "Renny Hill'' near Camperdown, Victoria. Together they had two children, Effie, born 1878 and Katherine in 1880. William Taylor (1849-1927) was a farmer, Councillor and civic leader. In 1883 he gifted the world's oldest statue of Robert Burns to the people of Camperdown. William and Isabella Taylor (nee Dawson) seated together in the garden at "Renny Hill".cdhs, cdhsfirstnations, djargurd wurrung, djargurdwurrung