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

The Australian designed Microbee computer ran at a clock speed of 2 MHz, with a video clock of 12 MHz (displaying 64x16 characters of 512 x 256 pixels) on a modified television of composite monitor. The standard machines were supplied with 16 rt 32 KB of static RAM, and stored programs on a cassette. It was released in June 1982, and could be purchased for AUS$399 in kit form. The Microbee operating system was micro World BASIC.White computer monitor, keyboard, two instruction books and a MicroBee manual. It was the first computer designed and built in Australia. The Ballarat School of Mines was an early user of the MicroBee and had computer labs set up with MicroBee technology. It includes an eight page MicroBee Word Processor Instruction Manual compiled by Pam Baldock,17 July 1984.microbee, computer, pam baldock

Donated by Helen Burgess former lecturer in Craft at the Ballarat School of Mines and the Ballarat College of Advanced Education. This abacus was purchased while Helen was visiting Asia. http://www.youtube.com/watch?v=CvsnftXXKdw Usage: check wikipediaRectangular abacus, Chinese style rosewood or blackwood with brass fittings on corners and dividing framework,13 rods, 65 lower beads, 26 upper beads. Gift of Helen BurgessManufacturing stamp on lower RHS inside frame: "1963 6" Unidentified Chinese characters on the framework behind the lower beads on both central vertical supports, on the LHS framework and on the centre portion of the lower framework.abacus, abacus chinese, rosewood stained, helen burgess, mathematics

The Ballarat School of Mines was established in 1870, and is a predecessor instution of Federation University Australia.The Chemistry Laboratory at the Ballarat School of Mines, showing gas lighting, chemicals, bunson burners, sinks and other relevant equipment.ballarat school of mines chemistry laboratory, ballarat school of mines, chemistry, laboratory, sinks, gas lighting, chemicals

This image was reproduced in the 1908 Ballarat School of Mines Calendar. During the early 1900s the Ballarat School of Mines had an international reputation for producing quality mining graduates. The graduates had much sought after practical experience. Their studies included 'real' experience in the Ballarat School of Mines Mining Laboratory, Assay Room, Balance Room, etc. This image was reproduced in the 1908 Ballarat School of Mines Annual Report. It is a room in the building now known as the "Old Chemistry Building'.Black and white photograph showing three men working at balances while assaying in the Ballarat School of Mines Balance Room. "Plate 117 Balance Rooms, School of Minesballarat school of mines, scientific equipment, assaying, assay, weigh, weight, scales, assay laboratory, old chemistry building, mining

On 28 June 1907 John Brittain, a well known writer and lecturer on astronomical subjects was appointed lecturer and demonstrator in Astronomy in the Department of Engineering and Surveying at the Ballarat School of Mines. A man in a jacket looks toward a microscope on a table with white tablecloth. The man is John Brittain who lectured at the Ballarat School of Mines. ballarat school of mines, scientific equipment, microscope, john brittain, astronomy, astronomical, scientific objects, observatory

Four months after the discovery of the Roentgen tube the Ballarat School of Mines were conducting pioneer X-ray demonstrations in Ballarat. This photograph is thought to be taken at that time, and is framed along with some of the x-rays taken at that time. Digital copy of two men sit in front of x-ray equipment at the Ballarat School of Mines. The man in the foreground is John McKenzie Sutherland. The copy is from the original framed 1896 X-Rays (Cat. No. 1243)ballarat school of mines, x-ray, xray, scientific instruments, john sutherland, sutherland, photography, foto, roentgen tube, john m. sutherland, john sutherland

X-Rays were first discovered on 08 November 1895. By 18 July 1896 staff members of the Ballarat School of Mines (SMB), were experimenting with the exciting new discovery. The history of x-rays began on 08 November 1895 at the University of Wurzburg in Bavaria. The discovery was officially announced on 25 December 1895. The first radiographs in Ballarat were taken at the School of Mines in July 1896 according to the Ballarat School of Mines (SMB) Annual Report. Frederick J. Martell, the Registrar of SMB arranged for the importation of tubes, while John M. Sutherland, an electrician, conducted most of the experiments giving 6 inch, 12 inch and 16 inch sparks respectively. In a short time brilliantly successful results were obtained, with some SMB Roentgen negatives taken at this time still in existence today. Samuel Ernest Figgis, H. R. W. Murphy, D. McDougall, and Frederick J. Martell carried out experiments at the SMB on Saturday evening 18 July 1896, producing 'perfect' negatives of a hand and wrist. A Roentgen Tube and an induction coil giving a two inch spark, the coil being sparked by the SMB's dynamo, were used to obtain these results. The Courier reported that 'the exposure of five minutes was ample' but concluded that 'the length of the exposure will be shortened as experiments proceed.' The Ballarat Courier reported on 20 July 1896 that: "Thanks to the energy of the staff of The School of Mines, Ballarat, and particularly to Messers F.J. Martell and D. McDougall, the assistance of Rontgen X-rays will soon be available, for the relief of suffering humanity, at this institution." Martell was an ardent amateur photographer, and Duncan McDougall's experience as an electrician has enabled the two gentlemen to carry their experiments on to a perfectly successful issue. At first these gentlemen, together with Professor Purdie and Mr W. Huey Steele, conducted a series of experiments by the aid of a Bonetti glass-plate induction machine which had been constructed by Mr McDougall. The results were very good, the various bones of the hand being distinctly visible. The following people were among those who witnessed the first X-ray experiments to be carried out in Ballarat. Andrew Anderson, President of the School of Mines, a large number of ladies and gentlemen, the medical profession Dr Edward Champion (1867-1929) Dr Gerald Eugene Cussen (1888-1943) Dr William Edward Davies (1868-1928) Dr Charles William Henry hardy (1861-1941) Dr Edward Kenneth Herring(1864-1922) Dr Joseph Lalor (1859-1907) Dr James Thomas Mitchell (1856-1945) Dr Edward Graham Ochiltree (1857-1896) Dr Robert Denham Pinnock (1849-1902) Dr Joseph Francis Usher (c1832-1909) Dr Grace Vale (nk-1933). The staff of SMB Professor Alfred Mica Smith Professor D. J. Dawbarn Mr. F. J. Martell. (http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_X-Ray_pioneers.shtml) "Seven patients of the doctors who were present were treated. In each case the patient was suffering from the effects of an old wound or some other injury to other a hand or foot. One patient, a boy had a finger broken some years earlier and when xray plate of the injury was developed it indicated plainly the fracture on one of the joints of the third finger. In another case a woman had a foot had a foot X-rayed and the photograph revealed the seat of an earlier imjury to it. Likewise an injury to the bones of a hand of an elderly man was revealed by an x-ray photograph. Every X-ray photograph that evening showed the importance of this new development in electrical science and the doctors present agreed the "the results of the experiments on their patients, by showing the exact seat of the injury and its present condittion, would materially assist them iin supporting cures." (Warren Perry, The Ballarat School of Mines and Industries Ballarat, p 146.)A number of photographic xrays as taken by the Ballarat School of Mines in 1896. The xrays include bones, hands, feet, shoes and more. ballarat school of mines, scientific equipment, x-ray, xray, photography, foto, roentgen tube

Henry Sutton taught Electricity and Magnetism at the Ballarat School of Mines. The first reference to this room was in the 1900 Ballarat School of Mines Annual Report: 'The dynamo has been connected by cables to a switchboard in the new lecture-room ... '. Black and white photograph of the interior of a classroom at the Ballarat School of Mines, including a number of desks, and gas light fittings. The room was the Electricity and Magnetism Classroomballarat school of mines, scientific equipment, electricity, electricity classroom, classroom, henry sutton, laboratory, m4351

The depicted Ballarat School of Mines Assaying Furnace probably dates back to the mid 1890s. The photo first appears in the Ballarat School of Mines Calendar for 1900, but references to these facilities were mentioned in 1887. These facilities were updated and expanded on several occasions. Black and white photograph of the assay furnaces at the Ballarat School of Mines. The Assay-room contained 16 smelting furnaces, 16 muffle furnaces fro coke, charcoal, bituminous coal and gas, and featured all the usual tools and appliances. There was an adjoining weighing room.ballarat school of mines, scientific equipment, assaying, laboratory, mining

In 1911 R. Maddern was President of the Ballarat School of Mines. Contents of this booklet are: Asssociateship, Calendar, Certificate Courses, Departmental Regulations, Discipline, Discipline Board, Examination Results, Fees, Full Certificates Issued, General Regulations, Introduction, Junior Technical School, Officer Bearers, Professors and Lecturers, Subjects of Instruction - Department of Chemistry and Metallurgy, Geological Department, Engineering Department, Electrical Engineering Department, Department of Mathematics and Physics, Practical, Plane and Solid Geometry, Photography, Subscriptions and Donations 1910. Plan of Buildings and Grounds Engineers with qualifications from the Ballarat School of Mines were sought by mines throughout the world. Blue soft covered book of 64 pages titled the Ballarat School of Mines Calendar. The book includes images of the Engineering Room, the Maddern Roasting Furnace, Museum, Junior Chemical Laboratory, Plan of Buildings and Ground, Chemical Laboratory, Concentration Floor, Linkenbach Table, Engineering Laboratory, Experimental Steam Engine, Chemical Lecture Room, Physics Instruction Room, Newtonian Telescopy, Ballarat Observatory, Instructor's Laoratory, Wilfrey Table, Chlorination plant, Cyanide House and R. Maddern. ballarat school of mines, scientific equipment, engineering, classroom, desks, gas lighting, calendar, r. maddern, j. m. bickett, w. h. middleton, j. d. woolcott, w. nixon, daniel. walker, fred j. martell, professor a. mica smith, hubert r. murphy, charles a. deane, arthur garrard, professor t. s. hart, professor a. d. gilchrist, a. e. c. kerr, j. brittain, e. j. a. mcconnon, john m. sutherland, bertram whitington, h. j. hall, e. gutheil, charles campbell, t. williams, d. e. mullins, sir redmond barry, judge rogers, r. m. sergeant, thomas bath, andrew anderson, general regulations, discipline, discipline board, associateship and final certificates, mining engineering, metallurgy, geology, electrical engineering, certificate courses, junior technical school, fees, subjects of instruction, chemistry, geological department, engineering department, electrical engineering department, department of mathematics and physics, practical, plane and solid geometry, photography, full certificates issued, supplementary examination results - may 1910, supplementary examination results - april 1908, subscriptions and donations 1910

X-Rays were first discovered on 8 November 1895. By 18 July 1896 staff members of the Ballarat School of Mines (SMB), were experimenting with the exciting new discovery. The history of x-rays began on 8 November 1895 at the University of Wurzburg in Bavaria. The discovery was officially announced on 25 December 1895. The first radiographs in Ballarat were taken at the School of Mines in July 1896 according to the Ballarat School of Mines (SMB) Annual Report. Frederick J. Martell, the Registrar of SMB arranged for the importation of tubes, while John M. Sutherland, an electrician, conducted most of the experiments giving 6 inch, 12 inch and 16 inch sparks respectively. In a short time brilliantly successful results were obtained, with some SMB Roentgen negatives taken at this time still in existence today. Samuel Ernest Figgis, H. R. W. Murphy, D. McDougall, and Frederick J. Martell carried out experiments at the SMB on Saturday evening 18 July 1896, producing 'perfect' negatives of a hand and wrist. A Roentgen Tube and an induction coil giving a two inch spark, the coil being sparked by the SMB's dynamo, were used to obtain these results. The Courier reported that 'the exposure of five minutes was ample' but concluded that 'the length of the exposure will be shortened as experiments proceed.' The Ballarat Courier reported on 20 July 1896 that: "Thanks to the energy of the staff of The School of Mines, Ballarat, and particularly to Messers F.J. Martell and D. McDougall, the assistance of Rontgen X-rays will soon be available, for the relief of suffering humanity, at this institution." Martell was an ardent amateur photographer, and Duncan McDougall's experience as an electrician has enabled the two gentlemen to carry their experiments on to a perfectly successful issue. At first these gentlemen, together with Professor Purdie and Mr W. Huey Steele, conducted a series of experiments by the aid of a Bonetti glass-plate induction machine which had been constructed by Mr McDougall. The results were very good, the various bones of the hand being distinctly visible. The following people were among those who witnessed the first X-ray experiments to be carried out in Ballarat. Andrew Anderson, President of the School of Mines, a large number of ladies and gentlemen, the medical profession Dr Edward Champion (1867-1929) Dr Gerald Eugene Cussen (1888-1943) Dr William Edward Davies (1868-1928) Dr Charles William Henry hardy (1861-1941) Dr Edward Kenneth Herring(1864-1922) Dr Joseph Lalor (1859-1907) Dr James Thomas Mitchell (1856-1945) Dr Edward Graham Ochiltree (1857-1896) Dr Robert Denham Pinnock (1849-1902) Dr Joseph Francis Usher (c1832-1909) Dr Grace Vale (nk-1933). The staff of SMB Professor Alfred Mica Smith Professor D. J. Dawbarn Mr. F. J. Martell. (http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_X-Ray_pioneers.shtml)Two men, one seated, one standing standing in a room with early electrical equipment. They are conducting pioneer X-rays at the Ballarat School of Mines in 1896. Seated on the left is John Waters Sutherland.A bromide of this images states "Experimenting with X-rays, 1896"ballarat school of mines, x-ray, xray, john sutherland, sutherland, electricity, photography, foto, roentgen tube, medical

Dick Richards joined the Ballarat School of Mines in 1914, and soon afterwards was granted leave to join an expedition to Antartica. In 1915 he sailed from Australia with the Antartic Exploraton Expedition, led by Sir Ernest Shackleton. Most Antarctic enthusiasts know of Ernest Shackleton's attempt to cross the continent, only to be thwarted by the sinking of the ship 'Endurance'. Dick Richards was the physicist and sled manager for Shackleton's Ross Sea Party - with the task to meet Shackleton on the other side of the continent. When Shackleton planned his transcontinental crossing he decided to use supply depots as loads of supplies were too heavy to pull. The depots would enable Shackleton's party to carry just enough to reach the Pole, relying on the depots which were to be left by the Aurora's crew every 60 miles, stowed in 2 sledge journeys in 1915 and 1916. Dick Richards spent 3 freezing years in Antarctica between 1914 and 1917. Richards' worst experience was when his ship Aurora, tethered offshore, was blown away in a gale leaving Richards marooned for two years with nine other men on the ice floe. The expedition, consisting of two teams, were attempting to cross Antarctica from opposite sides, linking up somewhere near the middle. "That was with pretty poor equipment by today's standards, and we did not make it." (Dick Richards) The Ross Sea Party arrived in McMurdo Sound aboard the Aurora in January 1915. The men planned to make two sledging trips to leave supply depots every 60 nautical miles to Mount Hope about 400 miles away. The going was tough as the sledges were overloaded. Temperatures were as low as minus 68F. In June 1916 the party crossed on foot to Cape Evans, occupied Scott's Hut (from his Terra Nova Expedition, erected in January 1911) in May 1915, for two months. On 10 January 1917 Richards was hunting for seals when he saw a ship on the horizon. It was 'The Aurora'. Picking up the relieved survivors 'The Aurora' arrived in New Zealand on 9 February 1917 to a hero's welcome. Joyce, Wild, Hayward and Richards later won the Albert Medal for their heroic devotion to duty. Later an inlet on the Antartic continent was named after Richards. Dick Richards wrote the following years after the ordeal "To me no undertaking carried through to conclusion is for nothing. And so I don't think of our struggle as futile. It was something the human spirit accomplished." Prime Minister Bob Hawke wrote in 1984 'Your incredible journey of almost 2000 miles across the Antarctic Wastelands - involving some 9 months in the field with makeshift equipment - and you're adherence to duty in the face of enormous difficulty, suffering from scurvy, and the death of comrades, will; be an inspiration to your countrymen of the future as it is to us today." After returning to Australia Dick Richards resumed his work at SMB as Lecturer in Physics and Mathematics, and developed many pieces of experimental equipment. During World War Two he acted as a scientific adviser in the production of optical apparatus in Australia. In 1946 he was appointed Principal and twelve years later he retired after a total of 44 years service. Dick Richards has been honoured through the naming of a Ballarat School of Mines prize - The R.W. Richards Medal. This medal later became a University of Ballarat prize. It has been awarded annually since 1959 to the Bachelor of Applied Science graduate considered to have achieved the most outstanding academic performance of their course. (See http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_Richards,Dick.shtml )A man and lady inspect a bust of Richard (Dick) Richards by sculptor Victor Greenhalgh. The scultpure is at the Ballarat School of Mines. The man is Dick Richards, and the woman is his sister and wife of sculptor Victor Greenhalgh. Both Dick Richards and Victor Greenhalgh were former students and teachers at the Ballarat School of Mines. The bust of Dick Richards was Victor Greenhalgh's last work and was cast in bronze after his death. The bust was presented to the Ballarat School of Mines by Mrs V.S. Greenhalgh (widow of the sculptor and sister of the subject). At the presentation Victor Greenhagh's son said "the two men had been friends as well as brothers-in-law, were of similar age, both enjoyed red wine, beer and cricket and both were educationalists, one an artist the other a mathematician."dick richards, r.w. richards, richards, richard w. richards, victor greenhalgh, bust, sculpture, ballarat school of mines, antarctica, ross shore

According to Max Clarke this item was used by the surveying classes at the Ballarat School of MinesA boxed (timber) theodolite with crossbars and full-length stadia wires. The theodolite can be mounted on a metal straightedge base. The box also contains a magnetic compass with two bubble levels, a plumbing folk, and 4 brass paper clips designed to suit a plan table. On box in black paint "A 1". Inside box lid is manufacturer's label and Stadia measurement zero reference calibration.ballarat school of mines, surveying equipment, gurley, max clarke, theodolite, stadia measurement, calibration, scientific instrument

An optical device with horizontal axis, mounted on a tripod. The polarimeter is used for determining the polarising properties of solutions. ballarat school of mines, scientific equipment, scientific instruments, scientific objects, polarimeter, polarising liquids

A quadrant mounted telescope with crosshairs and external focussing, with longitudinal bubble level. Mountable on a magnetic compass plate with two bubble levels. Complete with dapered-spigot base plate and slot view attachments, Housed in a polished timber box. Inside the box are two labels -A label on the inside of the box " to the School of Mines and Industries, Ballarat" To (...) Hoadley, Esq, Principal, Footscray Technical school, Footscray WII" "Sluggish Needle, 9/4/3..." "still sluggisg 1966"mining, ballarat school of mines, surveying, archibald hoadley, scientific equipment, circumferential, scientific instruments

It is thought that this item may have been made for use at the Ballarat School of Mines. The use is unknown. At one time it was thought to have something to do with lens-making, but this is no longer thought to be the case. A photograph of this item has the catalogue number 01002.A mechanism made of cast brass mounted onto a second hand timber base board. Two horizontal coaxial shafts, each ending with a hemispherical cup, facing each other. The right hand shaft is fitted with a crank handle. The diameter of the two brass domes is 6 cm. The space between the two brass domes from spindle to spindle is 7 cm. Only one dome turns, the one attached to the handle. Brass plate on second handtimber base board "J. Sturrock, Dundee. Patentee. Wholesale Agents Jeffries & Co. Woolwich and London." ballarat school of mines, scientific equipment, scientific objects, j. sturrock

This photograph was taken at the presentation of a bust of Dick Richards to the Ballarat School of Mines. Dick Richards joined the Ballarat School of Mines (SMB) in 1914, and soon afterwards was granted leave to join an expedition to Antartica. In 1915 he sailed from Australia with the Antartic Exploraton Expedition, led by Sir Ernest Shackleton. Dick Richards was the physicist and sled manager for Shackleton's Ross Sea Party - with the task to meet Shackleton on the other side of the continent. When Shackleton planned his transcontinental crossing he decided to use supply depots as loads of supplies were too heavy to pull. The depots would enable Shackleton's party to carry just enough to reach the Pole, relying on the depots which were to be left by the Aurora's crew every 60 miles, stowed in 2 sledge journeys in 1915 and 1916. Dick Richards spent 3 freezing years in Antarctica between 1914 and 1917. Travelling south with Sir Ernest Shackleton Richards' worst experience was when his ship Aurora, tethered offshore, was blown away in a gale leaving Richards marooned for two years with nine other men on the ice floe. The Ross Sea Party arrived in McMurdo Sound aboard the Aurora in January 1915. The going was tough on the sledging trips as the sledges were overloaded. Temperatures were as low as minus 68F. In June 1916 the party crossed on foot to Cape Evans, occupied Scott's Hut (from his Terra Nova Expedition, erected in January 1911) in May 1915, for two months. On 10 January 1917 Richards was hunting for seals when he saw a ship on the horizon. It was 'The Aurora'. Picking up the relieved survivors 'The Aurora' arrived in New Zealand on 9 February 1917 to a hero's welcome. Joyce, Wild, Hayward and Richards later won the Albert Medal for their heroic devotion to duty. Later an inlet on the Antartic continent was named after Richards. Dick Richards wrote the following years after the ordeal "To me no undertaking carried through to conclusion is for nothing. And so I don't think of our struggle as futile. It was something the human spirit accomplished." After returning to Australia Dick Richards resumed his work at SMB as Lecturer in Physics and Mathematics, and developed many pieces of experimental equipment. During World War Two he acted as a scientific adviser in the production of optical apparatus in Australia. In 1946 he was appointed Principal and twelve years later he retired after a total of 44 years service. Dick Richards has been honoured through the naming of a Ballarat School of Mines prize - The R.W. Richards Medal. This medal later became a University of Ballarat prize. It has been awarded annually since 1959 to the Bachelor of Applied Science graduate considered to have achieved the most outstanding academic performance of their course. The award was was introduced to commemerate the long years of service to tertiary education in Ballarat by Mr Richards. See http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_Richards,Dick.shtmlBlack and white photograph featuring 4 men who had serves as Principal of the Ballarat School of Mines. Left to Right: E.J. (Jack) Barker, Peter Shiells, Richard W. Richards, Graham Beanland.ballarat school of mines, dick richards, antarctica, ernest shackleton

This photograph was taken at the presentation of a bust of Dick Richards to the Ballarat School of Mines. Dick Richards joined the Ballarat School of Mines (SMB) in 1914, and soon afterwards was granted leave to join an expedition to Antarctica. In 1915 he sailed from Australia with the Antartic Exploration Expedition, led by Sir Ernest Shackleton. Dick Richards was the physicist and sled manager for Shackleton's Ross Sea Party - with the task to meet Shackleton on the other side of the continent. When Shackleton planned his transcontinental crossing he decided to use supply depots as loads of supplies were too heavy to pull. The depots would enable Shackleton's party to carry just enough to reach the Pole, relying on the depots which were to be left by the Aurora's crew every 60 miles, stowed in 2 sledge journeys in 1915 and 1916. Dick Richards spent 3 freezing years in Antarctica between 1914 and 1917. Travelling south with Sir Ernest Shackleton Richards' worst experience was when his ship Aurora, tethered offshore, was blown away in a gale leaving Richards marooned for two years with nine other men on the ice floe. The Ross Sea Party arrived in McMurdo Sound aboard the Aurora in January 1915. The going was tough on the sledging trips as the sledges were overloaded. Temperatures were as low as minus 68F. In June 1916 the party crossed on foot to Cape Evans, occupied Scott's Hut (from his Terra Nova Expedition, erected in January 1911) in May 1915, for two months. On 10 January 1917 Richards was hunting for seals when he saw a ship on the horizon. It was 'The Aurora'. Picking up the relieved survivors 'The Aurora' arrived in New Zealand on 9 February 1917 to a hero's welcome. Joyce, Wild, Hayward and Richards later won the Albert Medal for their heroic devotion to duty. Later an inlet on the Antartic continent was named after Richards. Dick Richards wrote the following years after the ordeal "To me no undertaking carried through to conclusion is for nothing. And so I don't think of our struggle as futile. It was something the human spirit accomplished." After returning to Australia Dick Richards resumed his work at SMB as Lecturer in Physics and Mathematics, and developed many pieces of experimental equipment. During World War Two he acted as a scientific adviser in the production of optical apparatus in Australia. In 1946 he was appointed Principal and twelve years later he retired after a total of 44 years service. Dick Richards has been honoured through the naming of a Ballarat School of Mines prize - The R.W. Richards Medal. This medal later became a University of Ballarat prize. It has been awarded annually since 1959 to the Bachelor of Applied Science graduate considered to have achieved the most outstanding academic performance of their course. The award was was introduced to commemerate the long years of service to tertiary education in Ballarat by Mr Richards. See http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_Richards,Dick.shtml Black and photo portrait of Richard W. (Dick) Richards, Principal of the Ballarat School of Mines. dick richards, r.w. richards, ballarat school of mines, antarctic explorer

Around 1900 the Ballarat School of Mines had an international reputation. it is thought that that this photograph was originally taken by the New South Wales Mines Department during a visit to Victoria. This photograph was reproduced in the Ballarat School of Mines Annual Report 1900 This image is now (2012) used as Founders' Room in the Ballarat School of Mines Administration Building. Black and white photograph on green mountboard. It shows three men in a Ballarat School of Mines laboratory surrounded by chemicals and scientific equipment.Written on lower mount "Analytical Lab. S.M.B. Mines Deptmining, ballarat school of mines, chemistry, laboratory, scientific objects, scientific instruments, analytical laboratory, administration building, a building, founders room

Nobel Industries Limited was founded in 1870 by Swedish chemist and industrialist Alfred Nobel for the production of the new explosive dynamite in the United Kingdom. Ardeer, on the coast at Ayrshire, was chosen for the company's first factory. Between 1877 amd 1926 it was known as Nobel’s Explosives Company Limited. The business later diversified into the production of blasting gelatine, gelignite, ballistite, guncotton, and cordite. At its peak, the factory employed nearly 13,000 men and women. In 1926, the firm merged with Brunner, Mond & Company, the United Alkali Company, and the British Dyestuffs Corporation, creating a new group, Imperial Chemical Industries, then one of Britain's largest firms. Nobel Industries continued as the ICI Nobel division of the company. Small black timber box with small screw holding back on, and leather handle on top. A pivoted needle remains vertical as box angle changes. Graded scale behing top end of needle. Two adjusting points at top.No 10070nobel, ballarat school of mines, scientific instruments, galvanometer

The new campus at Mount Helen was part of the Ballarat School of Mines, and was known as Ballarat Institute of Advanced Education. The drawing was prepared in the early stages of the Mount Helen campus development, while Stage I buildings ('E', 'F', 'G') were constructed. the Union Building (now Albert Coates Centre), Library, 'S' Building and student accommodation were in the design stage. The original drawing was photographed by using special equipment in the offices of Department of Crown Lands, treasury Place, Melbourne.Artwork showing an aerial view of a planned academic campus at Mount Helen. .1) Black and white print of a line drawing. 2) Transparency of above imagefederation university, federation university australia, feduni, university of ballarat, ballarat institute of advanced education, harrison, vernon, campus, mount helen

The National School Slate Co. was started in 1847 and was a world importer of slate. They made chalk boards and pencils in Slatington, PennsylvaniaTwo slate boards. The slate, commonly used in schools, is housed in a timber frame and was used for drawing and writing with a special slate pencil. (.1) lines marked on slate. .1) has 'Mary Cook' written on top in pencilschool, education, teaching, slate, black board, mary cook, slate board

The Ballarat School of Mines was the first site of Technical Education in Australia. Initially it opened in 1870 and educated miners. Black and white photograph of the interior of the Ballarat School of Mines Physics Laboratory. Numerous pieces of equipment sit on benches. The image in the 1908 Ballarat School of Mines Calendar was title 'Physics Demonstration Room'.ballarat school of mines, laboratory, physics, scientific instruments, science, classroom, education

The carbon rods were either used by 'Gem Pictures' or in the study of 'Electricity and Magnetism' at the Ballarat School of Mines. In electricity a current is conducted through carbon rod between the electrode holder and the arc in carbon arc lighting or welding. A carbon rod is also used in batteries. A tin full of carbon rodsOn box found with carbon rods: "Siemens-Planiawerke aktiengesellaschaft fur kohlefabrikate berline-Lichtenberg Made in Germany jede kohle trägt unseren vollen firmenstempel Translation: Siemens Planiawerke A corporation limited by shares producing carbon in Berlin-Lichtenberg Each carbon carries our full company stampballarat school of mines, carbon, carbon rod, arc lighting, electricity, henry sutton, theatre, projector, gem pictures

This franking machine was used in the mail room of SMB and also in the mail room at University of Ballarat. Pitney Bowes is a global technical company, known for its postage meters and other mailing equipment and services. It was founded in 1920 when the company of Arthur Pitney, founded in 1902, merged with the company of Walter Bowes, founded in 1908. The name at merger became Pitney Bowes Postage Meter Company. They produced the first commercially available postage meter.White, brown and black Pitney Bowes model 6300 Franking Machine in a black carry case. Includes power lead and blue soft cover. Yellow card with instructions fro Supervisor of Mail Centre Code No. 6331 Serial No. 18412 Yellow sticker for SMBballarat school of mines, university of ballarat, post office, mail, franking machine, postage meter, arthur pitney, walter bowes

Frederick Mitchell was born c1874 at Staffordshire Flat, Redcastle, near Heathcote. His father was an engineer from Cornwall, and had a quartz crushing battery at Staffordshire Flat from 1870 to at least the 1890s. Around 1886 Frederick Mitchell was an 18 year old "Engineer and Instrument Maker". He was awarded an 'Honorary Mention' at the Australian Juvenile Exhibition 1890-1. It was donated to the Ballarat School of Mines Museum in 1892. In the early 1960s the model was transferred to the Heat Engines Laboratory. All Heat Engines laboratory was moved from the Ballarat School of Mines to the Mt Helen Campus on October 1869. The model was accommodated in the thermodynamics laboratory. It was shown working during open days. The Ballarat School of Mines Calendar for 1893, page 66 refers to this item. There is correspondence between Frederick Mitchell's grandson, F.W. Mitchell; E.J. Barker, Director of the Ballarat College of Advanced Education; and Graham Beanland, Ballarat School of Mines.A working model of a vertical oscillating twin cylinder steam engine with fly wheel, mounted on a wood base board and covered in glass. Usually stored under a wood-framed glass cover. steam, model, engine, frederick mitchell, flywheel, ballarat school of mines museum

The Davey Paxman Experimental Steam Engine was purchased as the result of a bequest from Thomas Bath. The 'substantial sum' was used to build an Engineering Laboratory. The Ballarat School of Mines Council minutes of 08 November 1901 record: - Plans for [the] proposed building were submitted ... and ... it was resolved that a temporary building for an Engineering Laboratory be put up.' This laboratory, as an existing building, is first mentioned in the Ballarat School of Mines President's Annual Report of 1901, presented on 28 February 1902, reporting 'the erection of a building 67ft long by 33 ft wide' This report also lists all the equipment that would be accommodated in the Engineering Laboratory, including the experimental steam engine and boiler. The experimental Davey-Paxman steam engine arrived in Ballarat towards the end of 1902. The Engineering Laboratory was opened on 14 August 1903 by His Excellency Sir Sydenham Clarke. This engineering laboratory remained in use till about 1945. By 1944 preparations were under way at the Ballarat School of Mines to expand existing facilities, to be ready for the influx of returned soldiers. A new Heat Engines laboratory was built, this time of brick construction, replacing the previous corrugated-iron shed. In the early stages the steam engine was used to drive an overhead transmission shaft for machinery in the adjacent workshop. Later the steam engine was moved to a space that became the Heat Thermodynamics Laboratory. At the end of 1969 the engine was relocated to the Thermodynamics Laboratory at the then Ballarat Institute of Advanced Education (BIAE) Mt Helen Campus. It was donated to Sovereign Hill in 2006. According to the research of Rohan Lamb in 2001 around five experimental steam engines were made by Davey Paxman, and three of these had similar configuration to the Ballarat School of Mines Steam Engine, however, each of these was also unique with different valve arrangements. The list, which was on a scrap of paper in a folio held in the Essex Archives, confirmed that one was sent to India. The Ballarat steam engine can be dated to late 1901 to early 1902. Zig Plavina was responsible for moving the steam engine to Mount Helen, and worked on it as a technician for many years. He observed the following: * The condenser is driven by the low pressure engine. * The following arrangements are possible: i) the high pressure engine alone, exhausting to atmosphere. Condenser not used, crankshaft flanges not coupled. ii) crankshafts coupled, mains pressure (120 psi) steam supplied to high pressure engine, partially expanded steam delivered to low pressure engine (Tandem operation). Choice available re exhaust steam: either to the condenser or to atmosphere. iii) crankshafts not coupled, reduced pressure steam supplied to low pressure engine. Exhaust steam - either to the condenser or to atmosphere. * Valve arrangement - a choice of Pickering cut-off or throttle governor. On low pressure engine - throttle governor only.Black and white photograph of the Davey Paxman Experimental Steam Engine installed at the Ballarat School of MInes. steam engine, model steam engine, davey paxman, thomas bath, experimental steam engine