This is a book of 428 pages. The cover has brown composite material with a leather spine and corners. The spine has gold lettering and gold ridged lines. The corners are somewhat tattered. The title page and some other pages are torn. The pages contain printed text, black and white diagrams and sketches and colour illustrations.non-fictionEncyclopedia of Technical Education.Two volumes with technical information on a wide range of subjects. technical education, technical school text book, warrnambool

In 1883 the Ballarat School of Mines made some changes in order to make better use of the services of the teachers and to extend "as far as practicable the special educational advantages already afforded" by the School. One of the changes was the introduction of a three years course of training under the professors to qualify students for the following three professions: Analyst and Metallurgist, Electrician, and Geologist and Mining Surveyor. The Council was to confer the distinction of Associate. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p77) Students who took single subjects or pursued such courses as those for certificate of either mine manager or assayer were not required to pass an entrance examination. Students who wished to qualify for an associateship in once of the courses were expected to have a general education of matriculation standard and to have attended all the prescribed courses of instruction unless they were able to produce to the satisfaction of the School's Board of Examiners evidence of having attained elsewhere the degree of proficiency which was required in any particular subject or subjects. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p177) Ballarat School of Mines Associateships have been conferred since 1894 on candidates who had passed the prescribed examinations in one or other of the following three courses: Geology, Metallurgy and Mining engineering. Each of these three courses had an additional, but optional, fourth year of study. The prescribed subjects of study for an Associateship were set out in 'The Calendar of the Ballarat School of Mines' in each year. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p177)A number of timber boards with gold lettering. The list names in date order of when they became an Associates of the Ballarat School of Mines.ballarat school of mines, ballarat school of mines associate, associate of the ballarat school of mines, lonie, jennifer drummond, jill blee, jilian norton, zig plavina, associate boards

Predominantly brown covered paperback of 460 pages featuring an image of Arch Hoadley in Antarctica on the cover.non-fictionballarat school of mines, antarctica, footscray technical school, baden powell, scouts, douglas mawson, arch hoadley

This photo is thought to have been taken at the time of Alfred Mica Smith's retirement from the Ballarat School of Mines. It is most probably also the unveiling of the Max Meldrum portrait of Smith. Alfred Mica Smith retired from the Ballarat School of Mines in 1922 after an association of 41 years and aged 78 years. At the August meeting of the Ballarat School of Mines Council in 1881 it was resolved that 'Alfred Mica Smith Esq., B.Sc., be appointed Professor in Chemistry and Metallurgy and be Superintendent of the Laboratories, for the period of twelve months at a stipend of five hundred pounds per annum, and to commence duty as soon as possible'. (signed: James Oddie, Vice-President) Smith played a major role in the years of 1887-1893 when SMB was affiliated with Melbourne University. In 1912 he became Professor of Metallurgy and received an annual salary of 250 pounds. Alfred Mica Smith presented many scholarly papers, gave evidence at government enquiries into the safety of mines and became an authority on mine safety and ventilation. He was on the Mines Ventilation Board. Professor Smith was the public analyst for the City of Ballarat and Town of Ballarat East, as well as to a number of other boroughs and shires. He was also Chief juror to the Adelaide International Exhibition, chemical section. He provided information to the Royal Commission on gold mining (1889, 1891), and was President to the chemistry section of Australian Association for the Advancement of Science, Associate of American and Australasian Institute of Mining Engineering, Member of the Science Faculty Melbourne University, and Hon. Life Member of the Miner Managers' Association of Australia. He also was involved in many educational and community affairs such as President of the SMB Students' Association, President of the Ballarat Science Society, first President of the Ballarat Camera Club, Vice President of the Field Naturalists' Club, and he presented Ballaarat Fine Art Gallery with his collection of paintings and porcelain ware. His legacies include the mutual regard between him and his students, the many tributes by former students, the Mica Smith scholarship (established in 1923) and now known as the Corbould-Mica Smith Travelling Scholarship, his portrait in oils by noted artist Max Meldrum, and the marble bust of Smith sculptured by Paul Montford. Money for a scholarship in sanitary science at the University of Manchester in the name of his uncle R. A. Smith was left being set up in 1928. Smith died of cancer on 14 May 1926 and his remains, cremated at Springvale, were interred in the Ballaarat New Cemetery. See http://guerin.ballarat.edu.au/curator/honour-roll/honourroll_Smith,%20Alfred%20Mica.shtml Black and white mounted photograph showing a number of men sitting around two dining tables at Craig's Royal Hotel in Ballarat. Professor Alfred Mica Smith of the Ballarat School of Mines is standing 15 from the left, and is the subject of the painting on an easel to the left. The painting was presented to the Ballarat Fine Art GalleryLower right of mount 'Victa Studios Ballarat' Verso (typed and glued on): Presentation to professor Mica Smith, Craig's Hotelballarat school of mines, craig's hotel, craig's royal hotel, alfred mica smith, art gallery of ballarat, ballarat fine art gallery, portrait, frederick martell, daniel walker

This water standpipe is believed to be the only one of its kind in working order. It was originally located in Warrnambool, on the hillside at the corner of Mickle Crescent and Banyan Street, providing water for the Chinese Market Gardens below, on the flats. It was removed from this location on May 2nd, 1979, with the intention to relocate it at the new Flagstaff Hill Maritime Museum & Village. The standpipe lay in storage for years until the Warrnambool Company, Chemblast, offered to restore it for use as a working display. The display was officially opened on March 31, 2014. The water from the adjacent lake is drawn out with a hand operated water pump, and goes up into the standpipe, where flows through the canvas hose and into the top of the Furphy Farm Water Cart. The display is a visual acknowledgement of the years served by Flagstaff Hill volunteer and Friends of Flagstaff Hill Chairperson, Bob Crossman. Warrnambool’s early settlers had no water supply prior to the mid-1850s. They relied on rain water tanks, domestic wells and springs. The town experienced a huge, destructive fire in William Bateman Jnr. & Co.’s large produce store in November 1856, which highlighted the need for both a fire brigade and a good supply of water. In 1863 a volunteer fire brigade was established. In August 1880 the town celebrated the installation of its first water standpipe on the corner of Liebig and Timor streets. The water was pumped from springs at Cannon Hill through the connected pipeline to the standpipe, then distributed to households via horse and cart. Each of the licenced cart drivers were compelled by Council regulations to keep their carts full from sunset to sunrise, ready to cart water to outbreaks of fire. They received a fee for this service. In 1893 the town installed a water supply, sourced from the Merri River, stored in a reservoir basin and tower in north Liebig Street, and distributed throughout the town in a system of pipes. By late 1939 a reticulated supply was installed, with the water piped in under the Otway Scheme. Standpipes are still used in modern times in rural and remote areas for homes, farms, stock, agriculture and firefighting. Many commercial or government owned standpipes are metered, charging a fee for the quantities of water supplied. This water standpipe was made by Langlands Foundry Co. Limited, Melbourne, which was establish in 1842. It was Melbourne’s first foundry and iron shipbuilder, and one of the largest employers in Victoria at the time. Langlands was known for its high quality workmanship and wide range of goods for mining, engineering, marine, railway and other industrial uses. The company made the first cast bell, the first lamp posts in the colony, and the boiler for the first Australian train. In the 1860s it produced cast iron pipes for the Board of Works, which laid the pipes for Melbourne’s first reticulated water supply. The firm was bought by Austral Otis Co. in 1897.This water standpipe is significant historically as it is believed to be the only one of its type in working condition. The standpipe is significant for being manufactured by early colonial firm Langlands Foundry of Melbourne, which was known for high quality, cast iron products. The firm made the boiler for the first Australian train, assembled the first Australian paddle steamer and made the first Australian cast bell and lamp posts. Langlands was one of the largest employers in Victoria at the time. The standpipe is significant historically as it represents the evolution of water supply services in Australia. Standpipe; vertical cast iron water pipe, painted crimson, fixed in position, tapering inward from the round base to the rectangular joint near the finial on top. A hexagonal pipe extends at right angles from the joint, with an outlet fitting and flow-controlling wheel on the end. A length of canvas hose hangs from the outlet fitting. Inscriptions are on one face of the joint. The standpipe was made by Langlands Foundry Company of Melbourne. Embossed “LANGLANDS FOUNDRY CO. / LIMITED / ENGINEERS / MELBOURNE”warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, flagstaff hill, standpipe, stand-pipe, water standpipe, fire standpipe, firefighting equipment, water supply equipment, chinese market gardens, banyan street, liebig street, water tower, bateman’s fire, working display, water supply, town water, rural water, reticulated water, cannon hill spring, merri river, otway water, water carters, horse and cart water supply, volunteer fire brigade, langlands foundry, early melbourne, iron works, bob crossman, late 19th century water supply

The Chinese Imperial Commissioner, Hwang How Cheng, visited Australia at the request of the Chinese Emperor for the purpose of establishing Chinese consulates in the Commonwealth. He visited Ballarat at the request of Ballarat’s Chinese community. The newspaper reported that it was hoped the Commissioner would visit the Ballarat School of Mines “where the knowledge he would get would probably be of the utmost usefulness in the development of the great resources of China.” The Commissioner was accompanied by interpreter Ah Ket (Melbourne barrister and solicitor), and met by members of Ballarat’s Chinese community, including Dr Wong Chock Son. Apparently the Chinese Commissioner wanted to visit SMB because of its international fame relating to education in mining. From the SMB Letter book (Cat. No. 436) comes the following which suggests the Commissioner was based in Adelaide) '17th November 1906 His Excellency, Hwang How Cheng Chinese Commission Adelaide May it please your Excellency By this post I have the pleasure in forwarding for your Excellency's kind acceptance (and one for Mr. When) copies of the photograph taken of your recent visit to the School of Mines. I trust they will serve a pleasing memento of what, I hope, was a pleasant visit to our Golden City. Yours Faithfully Fredk Martell Director' The visit was reported in the Ballarat Star in 14 November 1906:- The Chinese Imperial Commissioner, Hwang Hon Cheng, who recently arrived in Victoria on behalf of the Chinese Government, paid a visit to Ballarat last evening, and was entertained by his fellow countrymen at a dinner at the Bow Leong rooms, Main street. The commissioner, who came up by the express, was accompanied by his secretary and Mr Ah Ket, the well-known Chinese barrister, of Melbourne; but some disappointment was expressed by the fact that he did not wear his official robes, being attired in the more sombre European dress. Mr W. D. M’Kee presided at the dinner, on the invitation of the Bow Leong Society, and in addition to representative Chinese residents, three were also present the mayor of the city (Cr. J. J. Brokenshire), Crs. R. Pearse, G. Crocker (City), J. R. Elsworth, A. Mackenzie, J. A. M’Neil, A. Levy, G. Bunting, F. Penhalluriack (Town), Col. Williams, Mr. J. Gent, Messrs. F. J. Martell (director of the School of Mines), A. W. Hager (president of the Orphan Asylum), A. Kenny (superintendent), R. G. Fitzgerald (clerk of courts at Ballarat East), J. Trethowan, A. A. Buley, Serg Dalton, and others. Apologies were received from the mayor of the town Revs. J. West Lau, Dr Cairns, Hon. J. Y. M’Donald, L. Lederman, C. C. Shoppee and others. The gathering was a very cordial one, and the hospitality of the Chinese was greatly appreciated. After the loyal toasts, “The King” and “The Emperor of China,” had been honoured, the chairman extended a hearty welcome on behalf of the society and others to the commissioner. Mr M’Kee said he was privileged to speak in behalf of the Chinese. There was a warm feeling of friendship between them and himself, and his services were always at their command. If he were in China he would desire that a similar compliment would be extended to him. They were all pleased the Emperor of China had sent the commissioner to establish consulates in Australia with a view of the empire understanding the feelings of Australasia better than they did at present. He hoped the commissioner would have opportunity of visiting some of their industries, as they desired him to gain all the scientific and practical knowledge of those industries that he could. The toast of “The Commissioner” was proposed by Col. Williams who expressed pleasure at the visit of a gentleman of education and attainments to look into the condition of the scions of China in Australia. He hoped the commissioner would carry away a correct impression. In Australia they had nothing to conceal; they hoped to be understood. (Applause.) No intelligent man had the temerity to condescend to patronise China, one of the richest countries in the world, with a civilisation dating back thousands of years. In the matter of population alone it was equal to one-third of the world. They heard a lot about the “awakening of China.” They hoped it would be humane, just, and considerate if it had power. He hoped the commissioner would be satisfied with what he saw. The law of filial relation to the children was strictly observed in China, and he did not know whether it would not be a good thing if they had a little more of that religion here. It would be a fair thing to tell the commissioner that while he might inquire into the labour laws, the basis of these laws was not a desire to oppress but to enable every man to obtain the same conditions they expected from their own people. If he gained that impression he felt they would be fairly treated. (Applause.) Mayor Brokenshire supported the toast. They had, he said, in the Chinese a most law-abiding people. Their behaviour was an example to the British citizens. They were quiet, inoffensive men, and they toiled hard, even on Sundays. (Laughter.) Mr Ah Ket; That is what the government does with the railway employees. (Laughter.) The Commissioner replied through Mr Ah Ket, who in a graceful speech acknowledged the toast. The commissioner had, he said been delighted with what he had seen of the country – he believed it to be one of the finest in the world – and he greatly appreciated the hospitality extended to him. (Applause.) The Chairman proposed the toast of “The health of Mr Ah Ket,” and paid a tribute to his ability. It was satisfactory to see that he had risen to such a position, and it might be that in the future he would be asked to occupy a position on the bench. (Applause.) Mr Ah Ket, in response, said he had not come prepared to make a speech. He had come to Ballarat to have a quiet evening with his friends, and as soon as he arrived he had been whirled away in a motor car to a place where he found an aggregation of East and West. He was pleased to see them commingled at the festive board. That suggested the idea that East and West could meet together without friction. Misunderstandings arose only because men were superficial. If they threw off outer garments they would know each other better. He looked forward to the time when nations would understand each other. It was by an interchange of visits that such things could be accomplished, and nations would then live at peace with each other. (Applause.) Other toasts were also honored. Twelve men pose for a photograph on the stairs of a building at the Ballarat School of Mines. Back row left to right: A.D. Gilchrist (Prof. of Engineering), B. Whittington (Mathematics, Physics), Thomas S. Hart (Prof. of Geology and Mining), J.M. Sutherland (Electrical Engineering) Front row left to right: Dr Wong Chock Son (Ballarat), Fred. J. Martell, Alfred Mica Smith, Ah Ket esq (Melbourne Barrister), His Excellency Hwang How Cheng (Chinese Commissioner), Wen Esq (Secretary), Alderman Grase (mayor of Brisbane), Grase Esq (Ballarat).ballarat school of mines, alfred mica smith, fred martell, j m sutherland, a d gilchrist, b whittington, thomas hart, wong chock son, ah ket, hwang how cheng, chinese, chinese commissioner, international, new classrooms, administration building, a building

Document. 3 page typed document titled 'Resources of Bendigo Goldfields'. An address to the citizens of Bendigo Goldfield. Mentions gold figures from the period 1898 - 1908. Document mentions the engine drivers strike and Mr. A. J. Moore, consulting mining engineer who had a paper on the Bendigo Goldfield appear in the Chemical Engineering and Mining Review. Mentions number of companies on the dividend list from 1870 - 1920. Also mentions in March 1891, 19 companies were over 2000 feet. Lansell's 180 was 2640 feet. Also large brown envelope, McColl, Rankin & Stanistreet with notes re - Romance of Goldfields, Premier Companies, Sebastian Mining Leases, Resources of Bgo Goldfield, and Sheepshead Line of Reef.cottage, miners, resources of bendigo goldfield

John COLLIER (1937- 2012) John Collier was born at Ballarat in 1937. He received a Diploma of Mining and a Diploma of Civil Engineering at the Ballarat School of Mines (SMB), later graduating from the University of Melbourne with a Bachelor of Engineering (Mining). Early in his career he received a Diploma of Accountancy from the Australian Society of Accountants. Collier believes his experience at SMB had a profound influence on his life, especially what he learnt in Geology, Engineering, Chemistry, etc., all of which he found beneficial to his later working life and he is proud of that association. Through his experience in the world-wide mining industry John Collier has made a major impact on the mining industry. He has been exploration leader for a large number of worldwide discoveries and farm-ins both major and minor. He has experience in every facet of the mining industry, and his record in identifying diamond opportunities include Australian (Argyle), Canada (Diabik), Zimbabwe, and the Brazil Pipe (Collier Falls). His success in diamond exploration may be unparalleled. John Collier also has significant success with lead-zinc, iron ore, coal, copper, gold-silver, petroleum, heavy minerals, nickel, uranium, industrial minerals, rare earths, and tin. In 2006 John Collier was made a Legend in Mining by the Australian Mining Industry. Over his last 10 years, he had become a passionate painter, holding several successful solo exhibitions. His naive style featured beautiful and unexpected colour combinations. Many of his most lauded paintings depicted mining scenes, harking back to his Ballarat days. This item is part of the Federation University Art Collection. The Art Collection features over 2000 works and was listed as a 'Ballarat Treasure' in 2007.Two artworks by John Collier inspired by his alma mater, the Ballarat School of Mines. art, artwork, john collier, ballarat school of mines, alumni

John COLLIER (1937- 2012) John Collier was born at Ballarat in 1937. He received a Diploma of Mining and a Diploma of Civil Engineering at the Ballarat School of Mines (SMB), later graduating from the University of Melbourne with a Bachelor of Engineering (Mining). Early in his career he received a Diploma of Accountancy from the Australian Society of Accountants. Collier believes his experience at SMB had a profound influence on his life, especially what he learnt in Geology, Engineering, Chemistry, etc., all of which he found beneficial to his later working life and he is proud of that association. Through his experience in the world-wide mining industry John Collier has made a major impact on the mining industry. He has been exploration leader for a large number of worldwide discoveries and farm-ins both major and minor. He has experience in every facet of the mining industry, and his record in identifying diamond opportunities include Australian (Argyle), Canada (Diabik), Zimbabwe, and the Brazil Pipe (Collier Falls). His success in diamond exploration may be unparalleled. John Collier also has significant success with lead-zinc, iron ore, coal, copper, gold-silver, petroleum, heavy minerals, nickel, uranium, industrial minerals, rare earths, and tin. In 2006 John Collier was made a Legend in Mining by the Australian Mining Industry. Over his last 10 years, he had become a passionate painter, holding several successful solo exhibitions. His naive style featured beautiful and unexpected colour combinations. Many of his most lauded paintings depicted mining scenes, harking back to his Ballarat days. This work and subject matter was painted for the artist's alma mater, the Ballarat School of Mines (now Federation University Australia). This item is part of the Federation University Art Collection. The Art Collection features over 2000 works and was listed as a 'Ballarat Treasure' in 2007.Colourful acrylic on canvas painting depicting the Port Phillip Gold Mining Company, Clunes.art, artwork, john collier, port phillip cold mine, clunes, clunes, available, alumni, mining

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

Typed PagesTo His Honor Judge Rogers Sir I am glad to see that you are favorable to the establishment of a Mining School for, and in, this Colony and if when established, it should prove to be so valuable an adjunct as [ ? ]institution in Cornwall is to the philosphy of mining generally, the satisfaction uou will derive from teh promonant positino you have taken in the matter will amply repay you its benefactor. The principle of technological teachings is being organised by out great [ ? ] more and more almost daily. A mining school is purely technological in its character and its teachings will tend to make plain many of the obscurities of the presnt systems of mining, and its engineering. I will recollect a very strong hint given by you fro the Bench at Ballarat East over two years since in the cast of Bull v Bunning City which I gave evidence to the effect, "Don't you think that an institution of Engineers would be able to try such a case better than in this court. The question was partly on of technology and would [speak] volumes in its answer if followed into all its [ ? ] and [implications]. I have studued [ ? ] practical perhaps all of the branches which would have to be taught, and studied in a mining school, and shall be most happy in assisting, so far as my limited capacity will allow in this matter. I may add that I hold the first certificate from the committee of Inquiry as established by the Government, for competency as a mining inpector for this Colony, I am Sir your most Obt and humble servant [illegible]ballarat school of mines, merger, amalgamation, establishment, phoenix foundry, letterhead, warrington rogers

Bound copies of the Ballarat School of Mines Students' Magazine, 1898-1901 Vol 1, No. 1, September 1898 * News and Notes (Ballarat School of Mines Museum, J.F. Usher, New British Pharmacopoeia, excursion to Bendigo) * History of the Ballarat School of Mines * Current Topics (Federation, Gladstone, Anglo-American Alliance) * Of Custom * Discovery of Coolgardie * Mining Notes(Clunes, Pitfield, Birthday Mine, Western Australia, Transvaal, Mt Bischoff, Rand Drill Co.) * From the Journals * The Societies - (Student Association, Ballarat Field Club and Science Society, Ballarat Photographic Club) * Original Poetry * Sports * Students' Association Committee Meetings * On the Increase of Temperature of the Earth With Increased Depth Vol 1, No. 2, October 1898 * Notes about some of the Past Students (E.M. Weston, J.A. Porter, H.R. Sleeman, G.E. Sander, B.C.T. Solley, T. Rhys, C. Burbury, D. McDougal, J. Matsen) * Excursion to Daylesford, p.3 * History of the Ballarat School of Mines (continued) * The Soudan * Greater Melbourne * Image of J. Hopkinson, electrical engineer killed ascending the Alps * What is Science * Mining Notes (Pitfield Plains, Victoria United G.M.Co., Lithgow, Avoca, great Cobar, Mt Whycheproof) * Student's Association (women's franchise) * Sports Vol 2, No. 1, March 1899 * News and Notes * History of the Ballarat School of Mines (continued) * Notes of Victorian Geology, 1. Granites, by Thomas S. Hart * Sir William Crookes * Summaries and Notes from the Mining Journals * Students' Association * Sports * The Bush Assayer * Solubility of Gold-Silver Alloys in Potassium Cyanide * Correspondence Vol 2, No. 2, April 1899 * News and Notes (Smythesdale Excursion, New Buildings, A.S. Coyte, R.J. Allan) * History of the Ballarat School of Mines (Continued) * The New Students (J. Owen, A. Clayton Morrisby, A.S. Atkin, J. Alexander Reid, Alfred G. Johnston, L. Lowe, F.H. Dalton, W.M. Robertson, A. Hacke, H.L. Giles, W. Martin, E. Walshe, H.L. Krause, R. Sawyer) * Berringa by Oh'E Jay * Summaries and Notes from the Mining Journals * Mount Magnet to Victoria - A Long Bicycle Trip * 1898 Examination returns * Sports Vol 2, No. 3, May 1899 * Technical Education and the Proposed Affiliation of the Schools of Mines with the Melbourne University. * Laying of the Foundation Stone of the New Classrooms (now Administration Building). Alexander J. Peacock * News and Notes (Past Students - A.S. Lilburn, J.W. Sutherland, J. Richardson, E. Prendergast, J. Wallace, J. Kidd, J. Lake, Mathew Thompson), Coolgardie Exhibition. * Trip to Lal Lal * Students' Association * Summaries and Notes from the Mining Journals * Professor Henry Louis on Mining Education * Corrections Used in Chaining by C.W. Adams * The Black Horse Cyanide Plant * Sports * Completed List of 1898 Examinations Vol 2, No. 4, June 1899 * News and Notes * The Education Problem by D.N. McLean * A Few Hints on Histological Technique by Emil Gutheil * Summaries and Notes from the Mining Journals * Students' Association * A Visit to the Skipton Caves (Mount Widdern, Ormand Hill, volcano, Emu Creek, Mount Kinross, Mount Elephant, Mount Vite Vite, Mount Kinross, Mount Hamiston) * Mount Magnet To Victoria (cont) * The New Engines at the Ballarat Woollen Mills - includes image of the Compound 700 H.P. Engines constructed for the Ballarat Woollen Mills by Austral Otis Company and consulting engineers Monash and Anderson. * Sports * Original Poetry * Correspondence Vol 2, No. 5, July 1899 * News and Notes (E. Byron Moore, Visit to Britannia Gold Mine, J. Bryant, Visit to Last Chance Mine) * A Few Hints on Histological Technique (cont) by Emil Gutheil * Summaries and Notes from the Mining Journals * Professor Alfred Mica Smith (includes image) * Notes on Victorian Geology Part 2 The Trappean Rocks, by Thomas Hart * Origin of Diamonds * Hydraulic Mining by A.E.C. Kerr * Volcanoes by F.G. Bonney * Analytical Chemistry Notes by Daniel Walker * Some Things Out To Do * Sports * Correspondence Vol 2, No. 6, August 1899 *Summaries and notes from the Mining Journals * Some Regulations of the Academy of Mines at Freiberg * A visit to Mt Lyell Smelters * Professor Gilbert J. Dawbarn (includes image) * Air compressor and Transmission of Power by Compressed air by A.E.C. Kerr * Chemistry Notes by Daniel Walker * Mineralogical Notes, Ballarat by Thomas S. Hart * Kalgurli Gold Mines, W.A. * OUr New Lab Vol 2., No 7, September 1899 * Summaries and Notes from the Mining Journals * Some recent Steam Plants at Bendigo by Gilbert Dawbarn * Professor Thomas Stephen Hart (includes image) * Students Association * Notes on Victorian Geology by Thomas Hart * Centrifugal Pumps * A New Chum's Experience by E.M. Weston Vol 2., No 8, October 1899 * The institute of Chemistry Examinations * A New Method of Qualitative Chemical Analysis by Emil Gutheil * Steam Engine Valves and Valve-Gears by Gilbert Dawbarn * Daniel Walker (includes image) * Notes on Victorian Geology by Thomas Hart * Cyaniding Cripple Creek Tellurides (Metallic Extraction Company) * Notes on Two Ballarat Gravel Pumping Plants, G.A. Wilberforce (Eureka Jennings Co and Yarrowee Sluicing Co) * History of the School of Mines (concluded) Vol 3., No 1, March 1900 * A Journey from Natal to Mashomaland with the British Police * A Plea for Research * New Caledonia by C.A.M. Deane * Notes of Victorian Geology - Lower Palaeoroic Rocks by Thomas Hart * Mt Bischoff Mine and Mill * Summaries and Notes from the Mining Journals * Things we Eat and Drink * Farewell to A.S. Coyte Vol 3., No 1, March 1900 * Mining Education * Model Locomotive made by the apprentices of the Phoenix Foundry, p2 * Glimpses of Rhodesian Police Camp Life * New Caledonia (continued) * Summaries from the Mining and Engineering Journals * Boot and Saddle Vol 3., No 3, May 1900 * A Students' Common Room * Geological Excursion to Hardie's Hill * Notes on Victorian Geology by Thomas Hart * The Planet Venus by John Brittain * Summaries and Notes from the Australian Mining Standard * The Assay Ton * Zeehan Smelters * Electrical Notes by Ohe Jay * Trop of the Cricket Club to Stawell * Students' Association * Solid Hydrogen Vol 3., No 4, June 1900 * The Minister of Mines on Mining Education (Minister A.R. Outtrim) * Lal Lal Geology Trip (Thomas Hart) * Rifle Club now defunct, pg 3 * A Contribution to the Mining Geology of Kalgoorlie, W.A. by Ferdinand Krause (includes cross sections) (Wood's Point, Rand, Johannesburg, South Africa, Gaffney's Creek, Walhalla, Shady Creek, Sago Hill at Cardigan, Bunbury) * Summaries and Notes from the Australian Mining Standard (Buninyong Estate Mine) * Monthly Progress Reports of the Geological Survey * Electrical Notes by John M Sutherland (Telagraphone, phonograph, telephone receiver) * Students' Theatre Party (Gordon Todd, Ohe Jaeger, C.S. Wakley) * Opening of the New Buildings - Ministerial Speeches (Outtrim, W.H. Irvine, New Mining Laboratory, Old Chemistry Building, Battery, Model Mine) * Students' Association * Relief of Mafeking * A Critic Criticised * Things We Eat and Drink by Ohe Jay - Oatmeal, Coffee and Cocoa. Vol 3., No 5, July 1900 * Research * Adelaide Varsity Students at Ballarat * The Manchester-Liverpool Mono Railway * Students Association * *A Contribution to the Mining Geology of Kalgoorlie, W.A. by Ferdinand Krause (continued) (includes cross-sections) * Motive Power, address by Charles A. Parsons * Summaries and Notes from the Australian Mining Standard * Sugar Manufacturing by Sugna * Great Creswick Hydraulic Sluicing Plant (THomas Hart, Ballarat School of Mines Mining Class visit) * Reminiscences of a Students Life in Germany * Football - Ballarat School of Mines v Geelong Grammar School (Australian Rules Football) Vol 3., No 6, August 1900 * Cheap Mine Management * Library * Bendigo School of Mines, pg 3 * Notes on Ore Dressing by T, Vincent, Manager The Zeehan (Tas) Silver-Lead Mines Ltd) * Motive Power * Notes on Broken Hill - Its Mines and Minerals by J. Williams * The Concert * Summaries and Notes from the Australian Mining Standard * The Dandy Duke's Dreadful Demise * The Road Race Vol 3., No 7, September 1900 * Michaelmas Excursion (Melbourne University, Prof Kernot, Applied Mechanics) * Injury to School Property * Return of E. Ditchburn (Boer War) * Mt William Gold-Field visit, pg 3 * The Stoping of Wide Lodes by J.V. Lake (includes cross sections) * Summaries of Notes from the Australian Mining Standard * Notes on Broken Hill Part 2- Its Mines and Minerals by W.J. Williams * Motive Power from the Waves * Electrical Notes * Some Account of Italian Mining (Sarinia, Sicily, Peidmont, Lombardia) by Candido Maglione * Students Association * Should Women Have the Vote by Frank Bessemeres * The School Theatre Parly * Past Students * Poetry * Football * Surveying Rules Vol 3., No 8, October 1900 * Ballarat School of Mines Associateship * An Engineering Laboratory * Students' Practical Work * Notes on Broken Hill Part 3 by W.J. Williams * The Lake View Consols by F.S. Earp - Battery Treatment of Sulpo-Telluride Ore * Neglected Mineral Fields - Eurowie and Warrata * A Glimpse Ahead * News and Notes * A.W. G. McPherson, Boer War * Students Association * Ballarat School of Mines Melbourne Excursion to the Government Electric Lighting Station, Austral-Otis Co, Working Mens College * Ballarat School of Mines Concert in Aid of Soldiers Statue Balance Sheet * Football * Cricket Vol 3., No 8b, November 1900 * Position of the Ballarat School of Mines with Regards to Mining Education * Age Limit * Entrance Examination * Presentation t0 Professor Alfred Mica Smith * Image of a Group of Old Ballarat School of Mines Students in Coolgardie and Kalgoorlie. * Students Association Vol 4., No 1, March 1901 * Espirit De Corps * A few Notes on the Testing of Explosives * Round About Inverell, NSW by F. and J. Mawl * On the Choice of Drawing Instruments * Summaries and Notes From the Technical Journals * Annual Examinations 1900 * New Students * Sporting Notes * The Vale of Coolgardie Mine, Bonnievale, W.A. by G. Stephen Hart * News and Notes (Kerr Grant, C.L. Nash, R. Gordon Todd, Vial) * Editorial Notices Vol 4., No 2, Second Term 1901 * The Metallurgical Treatment of Sulpho-Telluride Ores by L.W. Grayson * Some Metallurgical Difficulties of Aluminium * Diehl's Sulphide Process by A.E. C. Kerr * A Californian Gold Mine by A.E. C. Kerr * New Express Locomotives for the Victorian Government (Phoenix Foundry) * An Excursion to Geelong (Electric Light and Traction Company of Australia) * The Linkenback Table for our New Mining Laboratory (Humboldt Company of Colgne) * Death of Thomas Bath * The Late Alfred G. Johnson (Boer War) * An Introduction to Natural Science by Emil Gutheil * The First Annual School Sports Meeting * Concert in Aid of Magazine Funds * The Men That Made the Concert (C.E. Denniston, W.H. Chandler, Mr White, William Litte Jnr, Marriott, Giles McCracken) * Sports * News and Notes Vol 4., No 2, Third Term 1901 * Bagging-Up - A Sketch * Concentration of Difficult Silver-Lead Ores * Estimation of Chlorine, Bromine and Iodine by D. Runting * Summaries of Notes from teh technical Journals * Notes on the Use and Care of Platinum Ware Common Sense * The Machinery at the Tasmania Gold Mine, Beaconsfield, Tasmania * Mining at Walhalla - The Long Tunnel Mine * Past Students * Mapping our of Agricultural Areas, etc, In Dense Vine Lands, North Queensland by R.A. Suter * News and Notes * Concert Balance Sheet e.m. weston, robert brough smyth, mcdougall, bruce, charles burbury, harrie wood, graham j. hopwood, emil gutheil, daniel walker, thomas hart, thomas stephen hart, m. hacker, schnitzler, f.a., ditchfield, l.h, alfred e.c. kerr, charles harvey, campbell, joseph bryant, campbell & ferguson, gilbert j. dawburn, irving, g.b., kerr, a.e.c., john walter sutherland, william robertson, herbert l. krause, alfred mica smith, binh pham, crosbie, d. jack, ditchburn, j., james hiscock, alfred johnston, reid, j.a., kidd, john, james bonwick, james, j.p, overall, d, e.h salmon, gaynor marquand, williams, w.w., williams, william, deane, c.m., vincent, tom, phillips, g.e., hart, d.w., jarnail suingh, rowlands, e., ferdinand m. krause,, easterby, f.l, parsons, r.g., partington, j.r., vial, s.b., meadows, h, atkins, arthur, john braisted burdekin, w.h. corbould, ditchburn, john, hill, john, otto e. jager, mcpherson, g.t, nicholls, c, thom, j.m., crafter, stewart, john brittain, peter lalor, hardy - commissioner, thomas bath, alf johnston, charles campbell, nash, llewellyn, watson, m.a, gardener, eddie, adamson, s.g, alford, l.c, allen, r.j, arthur, d.w.b., burge, a., willia, cairncross, cooper, i, maurice osric copland, maurice copland, dickinson, s., doepel, dunstan, john, loveday dunstan, eeles, terri, flegeltaub, israel, fletcher, a, fyrar, peter, kerr grant, w.kerr, green, gary, betty harris, harris, c.m., hay, a.l., hearn, hill, martin, james, david, johnston, alfred g, kilner, marion, kingston, thomas, lewin, f.c.k., lilburne, arthur m, linahan, colin, macready, w.h, major birlefco, markwald, henry, mccaffrey, mcfarlane, kaye, mciver, s.k, mellins, b, morton, felicity, w. kenneth moss, ken moss, nash, c.w., nash, neville, nickolls, berkeley, osborne, percy, philp, e., playford, william, reid, e, roberts, gordon, ross, f.c., royce, phillip, sawyer, basil, stewart, r.c., todhunter, i, vaisey, a., vincent, john, vinden, sue, wakley, cecil, watt, james, westcott, lewis, charles w. whyte,, vial, s browning, ballarat school of mines students in coolgardie and kalgoorlie, coolgardie, kalgoorlie, claude maitland, a.l. hay, a.s. lilburne, latham watson, arthur kildahl, thomas copeland, f.a. moss, w.a. hearman, cardoc james, alexander fraser, e.o. watt, g.m. roberts, j.j. dunstan, h.v. moss, j.a. hill,, john dunstan, c.m. harris, william h. corbould, j.w. sutherland, ballarat photographic club, ballarat field naturalists club, ballarat field club and science society, photography, geology, excursions, last chance mine, tasmania gold mine, beaconsfield, tasmania, rand, south africa, mount lyell, ballarat school of mines student excursion to mount lyell, h.l. krause, ferdinand krause, krause, hardie's hill, hardie's hill excursion, lal lal, lal lal excursion, lal lal geology excursion, smythesdale, smythesdale excursion, soudan, south african miners, south star mines, wynne and tregurtha battery, ananconda copper mining, arizona copper mining, boiler plates, british guinea, butte copper smelter, daylesford geology camp, daylesford excursion, diehl process, electric power house ballarat, electric pumps, geelong rope factory, gympie, golden horseshoe estate, c johnstone, jack nichol, c. macgennis, alec saunders, alfred g. johnstone, graeme jolly, william purdie, john mann, maxwell l gaunt, sale school of mines, freiberg school of mines, schools of mines, railway locomotive

The first school of Mines in Australia was established at Ballarat in 1870. At the time of its jubilee (1930) the following people were members of the School Council: W.H. Middleton (President), W.T. Humphreys (VP), J.S. Vickery (VP), F. Barrow, Col. W.K. Bolton, William Baragwanath, A.E. Cutter, J.N. Dunn, G. Fitches, W.H. Fleay, F. Herman. W.D. Hill, T. Hurley, K. Kean. J. Kelly, L. Lederman, Mayor of Ballarat, Mayour of Ballarat East, D. Maxwell, M. Martin, R. Maddern, D. Ronaldson, F. Saunders, R. Stephenson, A.O. Stubbs, R.E. Tunbridge. The School Staff in 1920 comprised: Herbert H. Smith, Walter Rowbotham, Reginald L. Cutter, M.C. Young, Hilda Wardle, M. Wiliamson, P.S. Richards, L.H. Archibald, J. Woods, Ken Moss, W. Kenneth, Mrs McIlvena. B. Robinson, S. Rowe, E. Hope-Jones, Miss Abrams, L.St.G.P. Austin, Alfred Mica Smith, J.R. Pound, Herbert R. Murphy, N.H. Junner, Maurice Copland, L.H. Archibald, E.J.A. McConnon, Newton King, D.m. Hull, T.R. Gordon, John M. Sutherland, T.K. Jebb, Dick Richards, C. Tonkin, A.W. Steane, J. Paterson, H.W. Malin, R.V. Maddison, S.M. Mayo, F.A. King, W.H. Steane, T.R. Gordon, T.A. Williams, H. Waldron, G. Black, E.J. McConnon, R.V. Duncan. R. Cutter, E.G. Vawdrey, Hilda WardleWhite stapled booklet - landscape format - 20pp + soft covers with blue writing. Includes an historical sketch of the Ballarat School of Mines. Contains images of the school from around 1920. The history outlined in the booklet follows: 'Ballarat has helped to influence the life and destinies of Australia in many ways, the recital of which would perhaps prove tedious to the citizens of less favoured localities! However, it can be said, without much fear of contradiction, that only less known thought Australia than its fame as a gold field is the reputation won for it by its school of Mines, ... Ballarat was still quite a new place when the School was founded, but a very propserous and popular place all the same, with a go-ahead lot of citizens brim full of the spirit of enterprise which seemsto animate mining populations generally. Money was plentiful, and they launched out into ventures, which later, were to develop and take the place of the gold mines, while what is more to the point, they understood the value of education. the old digging days were passing away. So far as Ballarat itself was concerned the day of the cradle and tin dish had already passed into an antiquity "as dead and distant as the age of the Tubal Caon," said dir redmond Barry on declaring the School open. Mining had become a serious business, and the mining engineer, the metallurgist, and the geologist had become a power in the land. In these circumstances the suggestions to found a School of Mines met with ready acceptance. The late Mr James M. Bickett had the honor of bringing forward the proposition at a meeting of the Ballarat Mining Board in October, 1869. it was agreed to, and the Government, having been approached for assistance, granted a lease of the old Supreme Court buildings at a nominal reantal. A modest sum, including 100 pounds from the Borough Council of Ballarat West, was subscribed by a number of sympathisers, and on the 26th October, 1870, the inaugural address was delivered by Sir Redmond Barry, the first President of the School. Classes were commenced on the 23rd January, 1871. The students at first were mostly adults. They were chiefly men emloyed at the mines, who had the wisdom and energy to devote their spare time to study, and, though their attendance was somewhat irregular, they made very good progress. Old prints which have been preserved show them at work at furnaces, big bearded men of the old-fashioned type of miner. It is interesting to note that among those who gave evidence and encouragement was Sir Roderick Murchison, who many years before had advised Cornish miners to emigrate to Australia to search for gold, and who in 1848 was in possession of gold ore sent from this country. Sir Roderick sent a parcel of books for the library, and gave useful advice as to the curriculum which should be adopted. The Museum, which now contains a most valuable collection of minerals, was one of the first things attended to, and the reports presented to the Council from time to time speak of additions being made from all parts of the world. New equipment was constantly being added to the School, a good deal of assay work was done, and some specimens were sent from the East Indies for examination as far back as 1873. By this time there was a difficulty in providing accomodation for the students who wished to enrol, and the number of instructors had grown from two to four. In 1882 the first building was being erected on what was then part of the gaol reserve. A little more than ten years afterwards a buildnig formerly serving as a Methodist Church was absorbed, while later on, the demand for accomodation increasing, the attack upon the gaol was renewed. The School continued to grow in reputation and size, and became the science centre of the district, and in 1889 a learge new building was opened by Sir Alexander Peacock. Students came from over seas as well as from all the States of Australia, and after going through their courses they took with them the name and fame of the old School to all parts of the globe. School of Mines boys have played a great part in developing the mining fields of Western Australia, South Australia, and africa, while old students who have made a name in their profession are constantly dropping in to see how the old place is getting along. It was not to be expected, however, that the Ballarat School would be left without rivals, its very success inspiring competition. Mining Schools were started in other parts of Australia, and, at the same time, Victoria ceased to hold first place as a mining state. On the other hand there was a great advance in manufacturing, and the demand for technicaly trained men became a great and as insistent as ever it had been for trained mining men. The Council was quick to adapt the school to the new conditions, and the result is seen in the institution, which is one of Ballarat's proudest possession. Instruction is given in all branches of technical work, and the classes are filled with students who are building up for Ballarat a reputation as an industrial centre, which promises to equal that which it formerly held as a mining town. Owing to its bracing climate, its abundant opportunities for recreations, and its accessibilty, Ballarat as a city is an ideal place for educational purposed, and is yearly becoming more and more appreciated throughout the State. The chairman of one of Ballarat's biggests industries claims that the workman can do twice the day's work here that he can do in Melbourne. he was a little enthusiastic over it, perhaps, but it is a well-known fact that the healthy and invigourating Ballarat climate is conducive to both physical and mental activity, and the records of the School provide ample proof of it. One of the most interesting and successful branches of the School of Mines and Industries - if the name be enlarged with the enlargement of its scope - is the Technical Art School. "The City of Statues" has from its earliest days been a stronghold of art. Art schools have flourised here, and in 1905 the Education Department came to the conclusion that the best thing to do with them was to place them under the management of the School of Mines Council. A magnificent new Technical Art School was built at a cost of some 12,000 pounds on the site of the old Supreme Court building, and was formally opened on the 23rd July, 1915. The results have not only been justified but surpassed all anticipations. The most comprehensive list of subjects is taught, and this list is constantly added to. Students have flocked to the art School, which may be said to occupy a unique position in Australia, and its record of success is really astonishing. Its students supply art teachers for the newer schools that are being built, and many occupy leading positinos in important business houses. So well is its reputation known that orders are constantly being received, not only from Victoria, but from other States, for honor boards and challenge shields to be designed and made. The most recent addition to the School of Mines and Industries is the Junior Technical School, for which a new building is now being erected on a portion of the gaol site, transferred to the School of Mines Counci by the Government. At the present moment temporary quarters are being occupied. Some students after passing through the Junior School go straight to employment, continuing perhaps to attend the evening trade classes, while others move on to the senior School. In a review of the work of the School of Mines mention must be made of a series of industrial research carried out under supervision of the Principal. One in particular, regarding the suitability of the local ores for the manufacture of pigments attracted much attention, while the experiemtns on the manufacture of white potery from Victorian clayes were considered of sufficient importance by the Federal Advisory Council of Science and Industry to warrant the appointment of a special investigator. The results of these have been most encouraging, and may have far-reaching consequences. The vocational training of returned soldiers also should not be overlooked. The work was taken in hand from the first, before the Repatriation Department gave assistance, and now with the help of the department of the School has become one of the largest vocational training centres in Victoria outside of Melbourne. The soldiers, trained in a variety of occupations, have made remarkable progress, and already considerable numbers have found employment in local workshops and factories. To sum up, the School is divided into the following departments, each well staffed and equipped: - The School of Mines, science, and Engineering; the Techncial Art School, the Boys' Junior Technical School, the Girl's Preparatory Technical Classes, Trade Classes, and the Commercial School. The school of Mines, science and Engineering, comprises the following branches: - Mining, Metallurgy, Geology, Electrical Engineering, Civil Engineering, Mechanical Engineering, Applied Chemistry, and Pharmacy. Battery treatments, Cyanide Testing, Smelting, Assays, and Clay Testing from a regular part of the School's work. Students gaining qualifications obtain concession in their courses at the university, should they proceed there to continue their studies. The technical Art school curriculum includes training in all branches of pictorial and applied art, an Architectural Diploma Course, a Draughtman's Course, technical Art teachers' Course, Photography,Ticket Writing, Art Metal Work, Woodcarving, Needlework, and Leather work. The Trade Classes give instruction in Telephone Mechanics, telegraphy, Carpentry, Cabinet Making, Plumbing, Blacksmithing, Fitting, Electric Wiring, and Printing. Numerous Scholarships are offered every year, and altogether students will find few places to equal the Ballarat School of Mines and Industries as a training place for their life's work. One of the first in the continent to be established, its Jubilee finds it still in the front rank, keeping pace with the times, and offering to the youths of this country the means of taking advantage of Australia's teeming opportunities. william, battery, smith, herbert, drawing from the antique, ballarat school of mines botanical gardens, ballarat school of mines, redmond barry, alfred mica smith, james bickett, museum, dick richards, ballarat junior technical school, s m b, ballarat school of mines and industries, ballarat technical art school, model mine, james m bickett, j m bickett, roderick murchison, vocational training rooms, wesley church, methodist church, alexander peacock, lathes, repatriation, repatriatin department, war service, school council, baragwanath, gold mining, mining laboratory, plaster cast, r.w. richards, anniversary, jubilee

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

Depicted in the photograph is Newtown Bridge or the Newtown Falls Bridge, in Beechworth, Victoria. Noted for its location, detailed craftsmanship and stonemasonry by Scottish stonemasons the Newtown Bridge was built in the 19th century provincial town of Beechworth (completed in 1875). The bridge was built over Spring Creek, spanning 6.3 meters wide and 24.8 meters tall. Beechworth held a distinct role in the administrative and commercial management of Victoria's north-eastern goldfields, with many objects and structures still well preserved from the towns establishment. The bridge indicates the growth of the town, replacing a previous timber structure as well as its association to the mining activity in the area and the rapid increase in Australia's economy that led to investment and development of roads and railways. The local granite used in the construction of the single arch Newtown Bridge makes the bridge and other buildings made with the granite unique to the area, the honey-toned material distinct to Beechworth. This photograph is historically significant as it provides insight into the industrial development of Beechworth and the surrounding area, contributed to by the goldfields. The photograph further captures the representation of vernacular engineering traditions and Scottish stonemasonry.Two sepia-toned rectangular photographs featuring a bridge in the background printed on matte photographic paper mounted on card.Reverse: 97.2324/ Newtown Bridge/ Beechworthbridge, newtown beechworth, newtown bridge, newtown, beechworth, beechworth falls bridge, beechworth mining district, spring creek,

The photograph is a reproduction of a postcard from the Rocky Mountain Mining Company. 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.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.Black and white rectangular reproduced photograph printed on paperbeechworth, rocky mountain mine, sluicing, gold rush, mining, gold

This photograph was taken in the 1960s at Lake Sambell and is a view across the lake from the east side, the photo was taken during a period of improvements to the lake and surrounding area. Lake Sambell is an artificial lake that was created on the site of the old Rocky Mountain Mining Company workings and was officially opened by Minister for Lands, Mr Baily, on October 5, 1928. The disused and unattractive remains of the mine were converted into a recreational area intended for swimming, boating, and fishing. The lake is named after Mr L.H. Sambell, shire engineer and secretary of the Forward Beechworth Committee, who advocated for the enhancement of Beechworth into a tourist destination and was central to the planning and establishment of the lake. Funding for the project was raised through both competition funds and donations. Since the construction in 1928 several engineering issues have arisen. In 1939 the water levels were low, and the lake was considered both an eyesore and ‘mudhole’, Beechworth Shire Council sort funding to raise the height of the lake six feet to improve the quality of water. Throughout the 1940s the Beechworth Swimming Club sort to address the structural engineering issues and improve swimming facilities at the lake. R.E. Carter, similar to L.H. Sambell, was a shire engineer who advocated the importance of positioning Beechworth as a tourist destination. Carter held the position of shire engineer from 1954-63 and organised many improvements to the Lake Sambell area including the caravan park in 1959, the lake swimming pool in 1961, water skiing and boating facilities, and increased the lake surface area in 1964. These improvements to the lake also reflect an increase in leisure time and access to travel during a period of post-war prosperity in Australia during the 1950s and 60s. This photograph is of historical significance as it documents Lake Sambell in the 1960s after a series of enhancements to the lake area to improve its appearance and usability for both the people of Beechworth and tourists. It is also of social significance in providing an insight into the increase in leisure time and access to travel during a period of post-war prosperity. Black and white rectangle photograph printed on photographic paper and unmounted.Reverse: 3534 C798lake sambell, l.h. sambell, r.e. carter, rocky mountain mining company, forward beechworth committee, beechworth swimming club, wallace park lake sambell development scheme, lake sambell caravan park, beechworth 1960s, lake sambell swimming pool, lake sambell boating, lake sambell fishing, swimming, boating, water skiing, fishing, post-war prosperity, minister of lands, artificial lake, open cut sluice mine, lake

This photo was taken in the 1960s from a northeast position looking down towards Lake Sambell, the caravan park, and the surrounding area. This photo was taken during a period of rejuvenation for the lake area including the opening of the caravan park in 1959 and the swimming pool area in 1961 (this pool is just visible in the centre of the photo). The popularity of caravanning in Australia exploded during this post-war period of the late 1950s and 1960’s. This popularity was driven by multiple factors, including: the stopping of fuel rations, the accessibility of car ownership through the manufacturing of affordable cars, technological developments in caravan design, and the increase in prosperity and leisure time for many Australians. Lake Sambell is an artificial lake that was developed on the previous site of the Rocky Mountain Mining Company workings and was officially opened by Minister for Lands, Mr Baily, on October 5, 1928. The disused and unattractive remains of the mine were converted into a recreational area intended for swimming, boating, and fishing. The lake is named after Mr L.H. Sambell, shire engineer and secretary of the Forward Beechworth Committee, who advocated for the enhancement of Beechworth into a tourist destination and was central to the planning and establishment of the lake. Funding for the project was raised by both competition funds and donations. Since the construction in 1928 several engineering issues have arisen. In 1939 the water levels were low, and the lake was considered both an eyesore and ‘mudhole’, Beechworth Shire Council sort funding to raise the height of the lake six feet to improve the quality of water. Throughout the 1940s the Beechworth Swimming Club tried to raise awareness and funds to address the structural engineering issues and improve swimming facilities at the lake. R.E. Carter, similar to L.H. Sambell, was a shire engineer who advocated the importance of positioning Beechworth as a tourist destination. Carter held the position from 1954-63 and organised many improvements to the Lake Sambell area including the caravan park in 1959, the lake swimming pool in 1961, water skiing and boating facilities, and increased the lake surface are in 1964. These improvements were financed mainly by grants from the Tourist Development Authority. This photograph is of historical significance as it documents Lake Sambell and the surrounding area in the 1960s after a phase of enhancements to improve the appearance and usability for both the people of Beechworth and tourists. It is also of social significance in providing an insight into the increase in leisure time and access to travel during a period of post-war prosperity.Black and white rectangle photograph printed on matte photographic paper and unmounted.Reverse: 1 / [logo KODAK/ VELOX/ PAPER] / C798 / 3535lake sambell, lake sambell caravan park, lake sambell swimming pool, caravan park, caravanning 1960s, rocky mountain mining company, l.h. sambell, r.e. carter, beechworth swimming club, forward beechworth committee, minister of lands, tourist development authority, lake swimming, swimming, boating, fishing, water skiing, beechworth 1960s, lake sambell fishing, lake sambell boating

This image shows the approach to Beechworth from the south-west via the Newtown Bridge. Numerous early buildings line the road as it bifurcates to become Ford and High Streets on the ridge above Spring Creek and Newtown Falls. The sloping, rocky terrain and water course along the gorge show evidence of the intense mining activity that occurred at the site. The Ovens Gold Rush at Beechworth started when gold was found at Spring Creek in February 1852, prompting an influx of miners from around the world. The population grew over 20,000 by 1857. While the earliest mining at Beechworth was similar to that in other Victorian goldfields like Ballarat and Bendigo, Beechworth is notable for its use of hydraulic sluicing as a major method of removing wash-dirt. Hydraulic sluicing employs high pressure jets of water to blast away large areas of earth and wash it down to be run through a sluice box. Gold gets caught in the sluice and the remaining slurry is washed away. This method of mining is extremely effective but causes significant environmental impacts and damage to waterways. Large water quantities were required for large-scale sluicing, and the long water races and deep tailraces that were constructed in the Beechworth area in the nineteenth century are nonetheless considered feats of engineering. The site in the photograph is associated with the Rocky Mountain Mining Company who constructed an eight hundred meter tunnel under the township between 1876-1880 to reduce water levels at Spring Creek, which had been subject to diversions since the earliest days of alluvial mining. Over four million ounces of gold (115 tones) were found at Beechworth between 1852 and 1868, and the wealth from the gold rushes built Beechworth and the nationally significant buildings that remain standing today.This image shows the early development of the Beechworth township above Spring Creek, where gold was discovered in 1852. Evidence of hydraulic sluicing, a uniquely predominant method at Beechworth, and water-works engineering are present in the landscape. By the 1870s, alluvial gold deposits were depleted and increasingly complex engineering was required so deeper shafts could reach bedrock. This image is significant for understanding changes to the landscape and the evolution of mining methods and engineering practices related to the extensive construction, manipulation and management of water networks. The shift from smaller scale alluvial mining to larger company dominance in the mining industry has implications for understanding wider social, economic, political and industrial changes in the region of Beechworth and within the context of the Victorian Gold Rush more broadly. A black and white rectangular reproduction photograph printed on photographic paper. burke museum, beechworth museum, beechworth, gold fields, gold rush, victorian gold rush, hydraulic sluicing, rocky mountain mining company, spring creek, netwown falls, mining tunnels, water races, tailraces, colonial australia, australian gold rushes, mining technology, beechworth historic district, indigo gold trail, migration, indigo shire, gold mining, gold mining history

Depicted in the photograph are ten miners standing at a cliff face using a high pressure hose, in Beechworth, Victoria. The miners are located in the Three Mile Creek division, in the Beechworth Mining District established January 4th 1858 under An Act for Amending the Laws Relating to the Goldfields by the Governor-in-Council. The Ovens Gold Rush began at Beechworth in February 1852 and was followed by Yackandandah and the 'Indigo Goldfield'. The strategies applied to mining in Beechworth were distinct in comparison to other goldfields in Victoria such as Bendigo and Ballarat. The miners in Beechworth utlised 'hydraulic sluicing' to remove washdirt, the long water races and deep tailraces constructed through solid rock with an estimated 900 miles of water races cut through the Beechworth fields by 1880, demonstrating great engineering feats. The photograph taken is significant as it is a visual representation of the mining strategy, 'hydraulic sluicing' that was particularly unique to the Beechworth mines, particularly in Victoria and an engineering feat.Black and white rectangular photograph printed on matte photographic paper, unmounted print.beechworth mining district, mining, three mile creek division, three mile creek

This image taken between 1920-1930 depicts open-cut hydraulic sluicing at the Three Mile Mine, located about five kilometres south of Beechworth. Alluvial, or surface, mining began on this site in the 1850s, but was soon replaced by hydraulic sluicing methods. By the start of 1880 it is estimated that nine hundred miles of water races had been cut though soil and rock in the Beechworth district. Hydraulic sluicing employs high pressure jets of water to blast away large areas of earth and wash it down to be run through a sluice box. Gold gets caught in the sluice and the remaining slurry is washed away. Large water quantities were required for hydraulic sluicing, and the long water races and deep tailraces that were constructed were considered great engineering feats. This method of mining is extremely effective, but causes significant environmental damage and impacts to waterways and agricultural operations. Miners at Beechworth built extensive networks of races and dams to secure reliable supplies of water on a scale far greater than elsewhere in Victoria. By the 1880s Beechworth's water barons continued to hold more than half of all the water right licences on issue and undertook sluicing operations on a massive scale. The manipulation of surface and ground water via race networks was well planned and recorded in detail by local mining surveyors. The maps that were created, combined with modern geo-spatial technologies, provide a vital key in understanding the great lengths to which miners went to capture and control critical water resources. Today, Three Mile mine is called Baarmutha. The Three Mile Mine was unproductive until 1865 when John Pund and three other miners secured a fifteen year license and constructed a water race from Upper Nine Mile Creek to Three Mile Creek. In the early twentieth century Pund & Co. averaged over one thousand ounces of gold per year from the mine. After Pund's death in 1915, GSG Amalgamated Co operated the site, continuing sluicing until 1950. This image of hydraulic sluicing methods shows the extent of water-works engineering in the landscape. This photograph has historic and research potential for understanding changes to the landscape, the evolution of mining methods, and the extensive construction, manipulation and management of water networks in the Beechworth district. Black and white rectangular photograph on matte paperReverse: 7597-1 / Sluice Mining / Copied from original on loan from Webb (Qld) / Donated Nov 2009 / Baarmutha Three Mile Mine c1920-1950 / Managed by the Plain Bros then Parkinsons / Current Location is: Beechworth Animal Shelter / used for Baarmuthaburke museum, beechworth museum, beechworth, gold fields, gold rush, victorian gold rush, hydraulic sluicing, spring creek, netwown falls, mining tunnels, water races, tailraces, gold ming history, colonial australia, australian gold rushes, mining technology, beechworth historic district, indigo gold trail, indigo shire, john pund, water manipulation, water engineering, three mile creek, three mile mine, water race, large-scale mining methods, historical mining construction, alluvial mining, mining environmental impacts, baarmutha, water barons

Taken between circa 1920 - 1950 this photograph depicts a man dressed in dark trousers, a white long sleeved shirt and broad-brimmed workers hat digging around in the Three Mile Mine at Barramutha. The mine was an important gold resource and was typically mined using a method known as hydraulic sluicing whereby high powered water jets are used to dislodge rock or move sediment. The remaining water sediment slurry is directed through sluice boxes to remove the gold. The Beechworth mining district was one of six mining districts established by the governor-in-council on 4th of January 1858 under the provisions of An Act for Amending the Laws Relating to the Goldfields (21 Vic no. 32). This photograph shows historic and research value into the historical methods of hydraulic sluicing in the Beechworth mining disctrict. It also shows the evolution of the mining methods and has potential for understanding future engineering endeavors in the context of victorian mine goldfields. Black and white rectangular photograph printed on matte photographic paper.Reverse: 7597.3/ Copied from original on loan from Webb (QLD)/ Donated Nov 2009/ Barnawatha Three Mile Mine 1920-1950/ Owned by Plain Bros then Parkinsons/ Managed by John Weir, Peter Jenson, Jack Cox/ Slicing. three mile creek, three mile goldfields, three mile beechworth, goldfields, #beechworth, hydraulic mining, hydraulic sluice, burke museum

Taken between circa 1920 - 1930 this photograph depicts a Hydraulic water jet in the foreground and a man dressed in dark trousers, a white long sleeved shirt and broad-brimmed workers hat digging around in the Three Mile Mine at Barramutha. The mine was an important gold resource and was typically mined using a method known as hydraulic sluicing whereby high powered water jets are used to dislodge rock or move sediment. The remaining water sediment slurry is directed through sluice boxes to remove the gold. The Beechworth mining district was one of six mining districts established by the governor-in-council on 4th of January 1858 under the provisions of An Act for Amending the Laws Relating to the Goldfields (21 Vic no. 32).This photograph shows cultural and research value into the historical methods of hydraulic sluicing in the Beechworth mining disctrict. It also shows the evolution of the mining methods and has potential for understanding future engineering endeavors in the context of victorian mine goldfields.Black and White rectangular photograph printed on matte photographic paper. Reverse: Copied from original on loan from Webb (QLD)/ Donated Nov 2009/ Barnawatha Three Mile Mine c1920-1950/ Owned by Plain Bros then Parkinsons/ Managed by John Weir, Peter Jenson, Jack Cox/ Slicing. three mile creek, three mile goldfields, three mile beechworth, goldfields, #beechworth, hydraulic mining, hydraulic sluice, burke museum