Showing 3033 items
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Blacksmith's Cottage and Forge
Iron-flat, Iron, 19th. century
Domestic item, well used. Heated on the stove top and used to iron clothes.Interesting domestic item that shows how ironing was done prior to electricity.Black, heavy, triangular shaped with handle attached. Handle rounded smoothed metal.domestic, iron, cast iron, iron flat -
Glen Eira Historical Society
Article - COANE, JOHN MONTGOMERY
This file contains one item about Coane and his family: 1/A one page extract from The Australian Dictionary of Biography Vol. 8 page 35 on John Montgomery Coane, Surveyor and Consulting Engineer, his partnership with George Hudson and later when his two sons joined the business. It details many of the projects he designed for rural Victoria and New South Wales and his other areas including Consulting to The Pacific Phosphate Co. Ltd of London and to the City of Brighton where he lived.coane john montgomery, blacker’s orchard & cannery co., victorian institute of surveyors, county donegal, ireland, mordialloc, ballyshannon, mines department sludge abatement board, coane henry edward, surveyors, engineers, land surveyors board, coane henry james, j.m. and h.e. coane, coane jane nee montgomery, coane john montgomery junior, victorian education department, australian roads, collas emma anna hunt, books, grant george hudson, coutie b.m., state electricity of victoria, melbourne, epsom racecourse, racecourses, brighton, city of brighton, brighton re-adaptation society, brighton cemetery, cemeteries, southern roger j, australian dictionary of biography vol. 8, early settlers -
Federation University Historical Collection
Equipment - Transmitter
Small rectangle box (cigar box), with wooden roll, covered in copper wire,brass bar, with wooden peg which meets copper wire on roll, 2 metal pegs on outside of box, which could attach to power leads (could be crystal set) or something to do with early morse code transmission. There is a lever that can be disconnected from an electrical force, that could produce a morse code"EARTH" & "ARIEL" hand carved on one end "PHONES" (hard to decifier) on other endballarat, radio, inventions, inventor, ariel, crystal set, electricity, electronics -
Federation University Historical Collection
Electrical Instrument, Potential Terminals: No L - 201136
Cambridge Instrument Co Ltd, England operated from 1924 to 1967. They were makers of measuring instruments (electrical) and scientific instruments.Timber framed electrical instrument with interior metal conductor. Brass knobs that screw are at one end labelled 1.5 volts and 15 amps. Plates each end labelledscientific instrument, cambridge instruments, electricity, scientific objects, scientific instruments -
Federation University Historical Collection
Scientific Instrument, Induction Coil
An induction coil consists of two coils of insulated copper wire wound around a common iron core. One coil, called the primary winding, is made from relatively few (tens or hundreds) turns of coarse wire. The other coil, the secondary winding, typically consists of many (thousands) turns of fine wire. An electric current is passed through the primary, creating a magnetic field. Because of the common core, most of the primary's magnetic field couples with the secondary winding. The primary behaves as an inductor, storing energy in the associated magnetic field. When the primary current is suddenly interrupted, the magnetic field rapidly collapses. This causes a high voltage pulse to be developed across the secondary terminals through electromagnetic induction. Because of the large number of turns in the secondary coil, the secondary voltage pulse is typically many thousands of volts. This voltage is often sufficient to cause an electric spark, to jump across an air gap separating the secondary's output terminals. For this reason, induction coils were called spark coils. The size of induction coils was usually specified by the length of spark it could produce; an '8 inch' (20 cm) induction coil was one that could produce an 8 inch arc. (http://en.wikipedia.org/wiki/Induction_coil)A metal and plastic object on a timber stand. In an induction coil the distance between the plates is often used to measure the voltage of the spark since the air breaks down at 30 000 volts per centimetreballarat college of advanced education, scientific instrument, induction coil, scientific instruments, electricity -
Federation University Historical Collection
Photograph - Photograph - Black and White, X-Ray demonstration at the Ballarat School of Mines, 1896, 1896
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 -
Federation University Historical Collection
Book, Shire of Ballarat, 1963, 1963
White covered book with multiple images.ballarat shire, shire of ballarat, c.e. brown, learmonth sire hall, gold memorial, miners rest reticulated water, australian timken, ballarat airport, joe white maltings, franklin caravans, kirk's reservoir, white swan reservoir, electricity, lucas, unilever australia, ballarat gas company, coronet caravans, lindsay gunn, martin stoneware, w. r. walton, m.b. john, ballarat agricultural and pastoral society, planning scheme, webcona estate, brown's heavy haulage, ballarat mental hospital, alfredton pre-school centre, wendouree recreaton reserve, wendouree pre-school, wendouree youth club, corporation saleyards, arch of victory, lake burrumbeet, perry park, ballarat high school, wendouree west state school, ewing house, ballarat grammar school, ballarat teachers' college, learmonth presbyterian church, st mathew's wendouree, st mary's redemptorist monastery, norm doodt, pre-mixed concrete, wendouree bowls club, ballarat shire councillors, rex hollioake, david baird, thomas ford, william troup, wilfred hirst, charles brown, charles giot, william walton, david powell, john pemberton, hugh patterson, alexander mcdonald, edward edwards, james mitchell -
Federation University Historical Collection
Book, Notes and formulae for mining students, 1897, 1897
J.H. Merivale was a prodfessor of mining in the Durham College of Science, Newcastle-Upon-Tyne. H.F. Bulman was an associate of the Institution of Civil Engineers and a member of the federated Institution of Mining Engineers. Green hard covered book of 188 pages. mining, brook, mining students, mathematics, newcastle coal field, ropes, chains, seams, dykes, dams, timber measure, timber costing, mines act, rules, explosives act, horses, windmills, horse power, boilers explosions, compressed air, wire ropes, steam, water power, electricity, sinking, winding, draining, hauling, chemistry, gases, ventilation, boring, formulae -
Federation University Historical Collection
Document - Invoice, Invoice from Walter Cornell to the Ballarat School of Mines, 1898, 30/04/1898
During the 1890s the Ballarat School of Mines started teaching photography.Handwritten invoice on printed letterhead. The invoice was for chemicals and apparatus for the Ballarat School of Mines, including items for the Chemical Laboratory, Photography Laboratory, Electrical Laboratory and Cyanide.walter cornell, ballarat school of mines, laboratory, chemist, pharmacy, photography electricity, photographic equipment -
Federation University Historical Collection
Book, Ballarat School of Mines Calendar, 1903
Contents include: Associateship and final certificates; Calendar for 1903; Discipline; Fees; Full Certificates issued; general regulations: Honorary Correspondents: Office Bearers; Professor and Lecturers; Results of exams; Statistics; Subscriptions and Donations; Subjects included in Regulation Technical Schools; Subjects on Instruction; Subjects included in Associateship course, Time table. Images include: Andrew Anderson, Lecture Rooms (Administration Building), Senior members of staff, School Buildings and Grounds, Linkenbach Table - Battery Laboratory, Engineering laboratory interior, junior Chemistry Laboratory; Assay Laboratory, Battery Laboratory interior, Maddern FurnaceCharcoal soft covered book at 100 pages. ballarat school of mines, andersnon\bickett, vale, warrington rogers, oddie, dunn, figgis, david ham, herman, lindsay, lonie, maddern, middleton, morrison, nevett, pearce, scott, woolcott, wanliss, r.e. williams, henry cuthbert, thomas hart, charles kent, frederick martell, newman, william bailey, hamilton, bechervaise, george russell, thomas bath, r.m. serjeant, peter matthews, theo williams, alfred mica smithh, daniel walker, hubert murphy, charles deane, arthur garrard, valentine anderson, douglas runtin, john balyney, l. cameron, dawbarn, a.e.c. kerr, john adams, edgar mcconnon, hall, john m. sutherland, usher, charles campbell, metallurgy, geology, certificate as mine manager, certificat as assayer, labratory, museum, land and mine surveying, applied mechanics, machine drawing and dedign, mechanics applied to mining, engineering laboratory, electrical department, state school lectures, excursions, mathematics, physics, geometry, photography, chemistry, organic chemistry, assaying, mining gelogy, mineralogy, petrology, algebra, trigonometry, mensuration, land surveying, mine surveying, steam and gas engines, dynamics and heat, sound and light, magnetism and electricity, electrical tecnology, botany, veterinary science, engineering drawing, electroplating -
Federation University Historical Collection
Photograph, Black and White, Australian Porcelain Insulator Co. Ltd Factory, 1939, 1939
Australian Porcelain Insulator Co. Ltd Factory, 1939 Four black and white photographs relating to the Australian Porcelain Insulator Co. Ltd Factory .1) exterior view .2) view of a 22kv line pin .3) mechanical test m/c pulsating load 0-35,000 .4) electrical test room 120kv - 20kva test transformer test capacity. 2 tables approximately 40 feet to 10 inches per table.australian porcelain insulator company, industrial heritage, insulators, electricity, graham beanland -
Federation University Historical Collection
Letter - Correspondence, Norman F. White, Correspondence on Mount Morgan Gold-mining Company, Limited Letterhead, 1907, 22/03/1907
Typed letter on Mount Morgan Gold-mining Company, Limited Letterhead relating to staffmember W. Gildard who worked in the Electrical Department at Mount Morgan. The letter is signed by Norman F. White..1) I hereby certify the Bearer Mr W. Gildard has been under my supervision this last two years and six months in Electric Light Dept Mount Morgan G.M.Co. Ltd While under me he was quick steady and industrious also possessed good mechanical ideas. He has been switch board and Dynamo attendant worked on outside circuits series are Lighting Mine Lighting under Ground Electric Bells and Telephone work. He has had experience also on our new plant turbo generators Stationary Motors and Electric Locomotives Electric Tramway Work over head wiring and ground return you will also find him most obliging and willing. Leaving of his own accord. Frank McFarlane A.G.E.E. Electric Foreman Mount Morgan G.M. Co. Ltd march 21st 1907ballarat school of mines, mount morgan gold-mining company, mount morgan, norman f. white, electricity, w. gildard, letterhead -
Federation University Historical Collection
Magazine - magazines, ASEA magazine folder, 1952 to 1954
left at Ballarat School of Mines by Principal Graham Beanlandmagazine folder with blue spine and black cloth boardsgraham beanland, ballarat school of mines, electrical engineering, transmission systems, high voltage transmission developments in sweden, underground hydro-electric power stations in sweden, gotland hv dc transmission link, harspranget power station and 380 kv system -
Federation University Historical Collection
Book - Book - Ledger, Ballarat School of Mines Council Minute Book,1883-1888, 1883-1888
Hardcovered book, quarter leather bound containing handwritten minutes of the Ballarat School of Mines Council. 27 July 1887 - proposal for lectureship in Mechanical Photographyballarat school of mines, ballarat school of mines council, ballarat school of mines council minutes, theo williams, samual e. figgis, thomas mann, frederick martell, j.m. bickett, james oddie, alfred mica smith, ferdinand krause, nicholls, e.j. rosemblum, w.r. bechervaise, barbara ramsay, lizzie clarke, mary burrows, matilda latter, fiddian, w.h. nicholls, henry r. caselli, e. rosenblum, thornton, williams, john b. irwin, joan rosenblum, gredrick given, william mcdougall, alexamder reid, william legg, tennis, c.h. ellis, h. bradbury, i.j. jones, j. lonie, agar wynne, fanny trebilcock, wmily h. walker, james lonie, william davies, edwin blomeley, charles walker, charles nicholls, william manners, john scott, george cairns, alfred kerr, h.w. bull, astronomy, g. wilkins, electricity, frederick gray, e.h. coltman, maggie gilchrist, w. sharwood, e.j. rosenblum, surveying, a.f. laplau, r. ghee, a. bragazzi, oscar skoglund, mine manager, r.f. taplin, j.w. sutherland, william cotter, w.j.gronow, e. wilfred robinson, adelaide jubilee exhibition, mechanical photography lectureship, photography, university of melbourne, john warrington rogers, william john clarke, rivett henry blandalfred lynberg, hugh reid resignation, mary ann cameron, mary jane guthrie, maude louisa millett, harry mortimer martell, r.j. vale, mining laboratory -
Federation University Historical Collection
Equipment - Object, Glass insulators
This insulator was used on phone wires. Insulators were originally designed to keep the wires linking telegraphs and telephones insulated from the wooden poles that held them aloft. Prior to 1925, Australia relied solely on insulators imported from other countries. Glass insulators were first manufactured in Australia in c. 1926 by Australian Glass Manufacturers. Their factory was, and still is, located on South Dowling Road in Sydney. Australian Glass Manufacturers (A.G.M.) had developed a toughened type of glass very similar to Pyrex glass. Since the Pyrex name could not be used due to trademark infringements, they called their glass AGEE for Australian Glass. Many fruit jars, insulators, pie dishes and other glass items were manufactured with this AGEE trademark during the 1926 to 1940 period.Glass insulators are rapidly becoming a thing of the past in Australia with open-wire communication lines rarely existing near metropolitan areas. The remaining open wire lines are being abandoned and dismantled everywhere with very few insulators being saved as interest in them in Australia is quite limited. (ref Australian Insulators web-site). This item is an example of a piece of equipment which has been superceded.Purple glass insulator by Ageeinsulator, electricity, agee -
Federation University Historical Collection
Equipment - Objects, Porcelain Insulator
This insulator was used on phone wires. Insulators were originally designed to keep the wires linking telegraphs and telephones insulated from the wooden poles that held them aloft.Glass insulators are rapidly becoming a thing of the past in Australia with open-wire communication lines rarely existing near metropolitan areas. The remaining open wire lines are being abandoned and dismantled everywhere with very few insulators being saved as interest in them in Australia is quite limited. (ref Australian Insulators web-site). This item is an example of a piece of equipment which has been superceded.A porcelain insulator. insulator, electricity -
Federation University Historical Collection
Equipment - Objects, Ceramic Insulators
This insulator was used on phone wires. Insulators were originally designed to keep the wires linking telegraphs and telephones insulated from the wooden poles that held them aloft.Glass insulators are rapidly becoming a thing of the past in Australia with open-wire communication lines rarely existing near metropolitan areas. The remaining open wire lines are being abandoned and dismantled everywhere with very few insulators being saved as interest in them in Australia is quite limited. (ref Australian Insulators web-site). This item is an example of a piece of equipment which has been superceded.Porcelain insultorsinsulators, electricity -
Flagstaff Hill Maritime Museum and Village
Functional object - Lamp, Probably second half of 19th century
OIL LAMPS Oil had been burnt in lamps at least since the Palaeolithic age, and the cheapest light fittings used in Victorian homes had changed little since then, with a simple wick protruding from a small container of whale oil or vegetable oil. However, much brighter and more sophisticated lamps had emerged late in the 18th century, the most important being the Argand oil lamp. This lamp had a broad flat wick held between two metal cylinders to form a circular wick, with air drawn through it and around it. This in itself was a revolutionary idea, but its inventor, Aimé Argand also discovered that by placing a tube or 'chimney' over the flame, the hot gases from the flame rose rapidly creating a draught and drawing air in from below. Fanned by a draught from both inside and outside the circular wick, the poor spluttering flame of early lamps was transformed into a bright, efficient light source (see illustration). The one disadvantage for the Argand oil lamp and its many imitators in the early Victorian period was that the best oil then available, colza, was so thick and viscous that it had to be fed to the wick either by gravity from a reservoir above, or pumped up from below. Most colza oil lamps have a reservoir often shaped like a classical urn to one side which in some fittings obstructed the light. The Sinumbra lamp got around the problem by having a circular reservoir around the base of the glass light shade. One of the most significant improvements of the Victorian period was the introduction of paraffin. Patented in 1850, the price of the new fuel fell dramatically following the discovery of oil in Pennsylvania, USA. As paraffin was much lighter than colza the reservoir could be placed below the flame, enabling many new designs of light fittings. One of the most successful paraffin lamps was the Duplex burner introduced in 1865 which had two wicks side by side and, like the Argand lamp, a clear glass chimney with air drawn from below. Most lamps also had a larger shade around the chimney often of opaque glass to diffuse the light. The shades or diffusers provided an opportunity for decoration, and a variety of shapes, colours and patterns were used. The amount of light which can be produced by a wick is limited by the surface area of the wick and the amount of fuel and air able to reach it. As fuel burns at the tip of the wick only. The gas mantle, on the other hand, provides a much larger three-dimensional surface, and is far more effective as a result. Invented by Carl Aur von Wesbach in 1885, the incandescent mantle was the last major breakthrough in oil and gas lighting of the period, before both succumbed to electric lighting. The mantle consists of a skirt of silk or cotton impregnated with a non-inflammable mixture (thorium and cerium), suspended over a fierce flame. When first ignited, the cotton burns away leaving fine, brittle filaments of non-combustible material in its place which glow white hot or 'incandescent'. The mantle works best with either gas or a fine mist of paraffin produced by a pressurised reservoir which is still widely used in camping lamps today, producing a bright, warm light to rival an electric bulb. https://www.buildingconservation.com/articles/lighting/lighting.htm http://www.artandarchitecture.org.uk/stories/lighting/lighting4.html#:~:text=Oil%20had%20been%20burnt%20in,whale%20oil%20or%20vegetable%20oil.An item of great importance in any home before gas or electricity was available.Kerosene lamp, ceramic, with metal top and wick. Has handle at side and floral hand painting around the body. Glass cover. Metalwork is rusty.Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, oil lamp, heating, lighting, ceramics -
Flagstaff Hill Maritime Museum and Village
Tool - Tilting Saw Bench, W F & John Barnes, 1874 to 1880
he subject item is a pedal-powered rip saw with a tilting table made in the USA by W.F. & John Barnes Co. of Rockford, Illinois, between 1874 and 1890. The saw's blade moves rapidly in a circular motion and is driven by a pedal that spins a heavy flywheel with a leather belt attached to a gear drive that in turn drives the circular saw blade. The operator holds a wood workpiece on the table and moves it forward so the blade cuts it to the desired width and length. Company History: WF & John Barnes Co. was established in 1869, by making a formal partnership between William F. Barnes and John Barnes in 1872, and then incorporating in 1884. This company was an early manufacturer of pedal-powered equipment. By 1881 they were also making powered machinery such as lathes and pedestal drills. Many companies were making lightweight foot-powered equipment, but Barnes and the Seneca Falls Co. were the only ones to also make professional-grade workshop machines. From the beginning of their existence, they focused on pedal-powered machinery and specialised in making scroll saws. By 1937 the company focus had completely shifted to automotive assembly machinery, and custom-built machinery, machine tools, electrical, hydraulic, and mechanical controls and systems, including nuclear hardware. their production of foot-powered machinery had ceased. In the intervening years, they have got out of manufacturing completely. After a series of ownership changes, their equipment parts and stock were purchased in 1998 by LeBlond Ltd. of Amelia, Ohio. An item that although incomplete gives a snapshot into the manufacture and use of early woodworking machinery before the introduction of electricity or electric motors to power machines.A Treadle powered tilting table saw benchWF & J Barnes, Rockford Ill USA flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village -
Federation University Historical Collection
Book, Longman's, Green and Co, Sir Joseph Swan and the Invention of the Incandescent Electric Lamp, 1948, 1946
Joseph Wilson Swan was born in 1882, he made many discoveries and inventions covering a wide range of scientific interest and practical usage. This book was withdrawn from the Ballarat School of Mines LibraryBlue paperback book, 50 pages: Biography Sir Joseph Swan and the invention of the incandescent electric lamp. Includes photographic images of Joseph Swan a carbon filament lamp.sir joseph swan, invention, incandescent electric lamp, history, filament lamp, electricity, ballarat school of mines library -
Federation University Historical Collection
Booklet, The Ballarat School of Mines, Industries and Science, Calendar and Annual Report 1893, 1893
The Ballarat School of Mines Annual Report 1893. Annual Report, Examination Papers, Associateship of The School of Mines, Syllabus for Technical Schools, Crown Grant, Affiliation Statute, Certificates Granted by the Council, Clunes Branch Report, Departmental Expenditure, Fees, Form of Bequest, General Balance Sheet and Liabilities and Assets, Honorary Correspondents, Life Governors, Meteorological Observations, Number of Students attended The School of Mines, Office Bearers, Practical Treatment of Ores, Report of the Professor of Mineralogy and Geology and Curator of the Museum, Report of the Superintendent of Laboratories, Report of the Lecturer on Engineering and Surveying, Report of the Lecturer on Mathematics, Report of the Lecturer in Mechanical Drawing, Machine Construction and Design, Report of the Lecturer on Electrical Engineering and Telegraphy, Report of the Lecturer on Botany, Report of the Lecturer on Biology, Pharmacy, Materia Medica, Report on Mining Laboratory, Examinations Held, Scale of Charges for Assays and Analyses, Statement of Receipts and Expenditure for the year 1892 and Special Trust Funds, Statistics - Students attending Lectures, Subjects and Lecturers, Subjects and Examiners, Subscriptions and Donations from 1st January to 31st December 1892, Syllabus of Lecture Courses6188: The Ballarat School of Mines Industries and Science Calendar and Annual Report, 1893. Red soft cover is browning around the edges, spine is tattered, 156 pages. 6188.2: Red soft covered booklet of 26 pages, Office Copyballarat school of mines, annual report, andrew anderson j.p. - president, f. j. martell - vice president, r. denham pinnock - vice president, rivett henry bland - trustee, the hon. sir w. j. clarke - trustee, the hon. john warrington rogers - trustee, james oddie - trustee, the hon. henry cuthbert - honorary solicitor, r. g. middleton - honorary treasurer, charles kent - auditor, andrew berry - registrar, alf. mica. smith - chemistry, metallurgy, f. m. krause - geology, mineralogy, mining, j. h. horwood - mechanical engineering, machine drawing and design, theoretica and applied mechanics, mathematics, henry j. hall - freehand and model drawing, j. a. dawson - electricity and magnetism, george day - botany, e. gutheil - biology, materia medica, pharmacy, a. e. c. kerr - mechanical drawing, machine construction and design, e. gutheil - biology, pharmacy, materia medica, henry crone - assistant registrar of titles, henry b. loch, elder gray - president, clunes branch, harry e. sando - registrar, clunes branch, w. y. witherden - hon. treasurer, clunes branch -
Federation University Historical Collection
Book, Ballarat School of Mines Journal (of Valuations?), 1885
Large ledger with brown spine.ballarat school of mines, ballarat school of mines library, ballarat school of mines museum, electricity, laboratories, botany, telegraphy, mining laboratory, eletricity and magnetism -
Federation University Historical Collection
Book - Register, Ballarat School of Mines Enrolment Register, 1891-1898, 1891-1898
Large register of enrolments at the Ballarat School of Mines. The register is missing its cover. ballarat school of mines, student enrolments, grenville college, university classes, electricity -
Federation University Historical Collection
Blueprint Plan, Ballarat School of Mines Administration Block - Plan for the Installation of UG Cables and Electric Light and Power, 1899, 03/10/1899
Blueprint of the Ballarat School of Mines Administration Block (A Building).ballarat school of mines, administration building, electricity, architectural plans, building a -
Federation University Historical Collection
Book - Annual Report, Berry, Anderson & Co, Ballarat School of Mines Calendar Year 1901-02 with Annual Report and Balance Sheet for 1900, 1901
Calendar and Annual Report 1901-02, Associateship and Final Certificates, Calendar for 1902, Certificates issued during 1900 in Metallurgy of Gold and Ore Dressing, Discipline, Discipline Board, Fees, Full Certificates Issued, General Regulations, Honorary Correspondents, Meteorological Observations, Office Bearers, Passes Obtained since 1892 in Final Examinations, President's Annual Report, Professors and Lecturers, Results of Examinations Conducted by Education Department 1900, Statement of Receipts and Expenditure for Year 1900, Statistics - Students Attending Lectures, Subscriptions and Donations, Subjects Included in Regulations Technical Schools, Subjects of Instruction - Department of Chemistry and Metallurgy, Geological Department, Engineering Department, Electrical Department, Department of Mathematics and Physics, Practical, Plane and Solid Geometry, Photography, Time Table 1) 05225.1 Ballarat School of Mines Calendar for the Year 1901-02 with Annual Report and Balance Sheet for 1900, Pale grey soft cover, 93 Pages 2) 05225.2 Ballarat School of Mines Calendar for the Year 1901-02 with Annual Report and Balance Sheet for 1900, Pale grey soft cover, 93 Pages Images include: Senior Members of Staff, Interior of Museum, Balance Rooms, Engineering Lecture Room, Part of Cyanide Plant, Senior Chemistry Laboratory, Chemistry Lecture Room, Assay Laboratory, Junior Chemistry Laboratoryannual report 1901-02, andrew anderson - president, r. denham pinnock - vice president, hon. r.t. vale - vice president, the hon. john warrington rogers - trustee, the right reverend samuel thornton bishop of ballarat - trustee, james millhinch bickett - trustee, james oddie - trustee, the hon. henry cuthbert - honorary solicitor, r. g. middleton - honorary treasurer, thomas s. hart - curator of museum, chas. kent - auditor, fred j. martell - director, professor alfred mica smith, daniel walker, hubert r. murphy, charles a. deane, percy r. osborne, arthur garrad, thomas evans, douglas a. runting, ernest trend, thomas s. hart, g. stephen hart, professor g. j. dawbarn, a. e. c. kerr, herbert krause, henry j. hall, john m. sutherland, kerr grant, j. f. usher, chas, e. campbell, charles kent - auditor, chemistry laboratory, assay laboratory, electricity lecture room, charles kent, cyanide plant, judge warrington rogers, john warrington rogers, samuel thornton, james bickett, thomas hart, t.s. hart, henry hall, charles campbell, j.m. sutherland -
Federation University Historical Collection
Booklet, Ballarat School of Mines President's Annual Report, 1905, 1905
In 1905 Andrew Anderson was President of the Ballarat School of Mines. Part of his report states: 'As befitting the parent institution of its kind in the Commonwealth, having been founded in 1870 "to impart instruction in the various branches of science relating to mining" the School upholds its prestige as an institution where the advantages of a thoroughly scientific and practical education can be obtained', and a statement of receipts and expenditure '. Statement of Receipts and Expenditure for the year 1905.10 page booklet relating to the Ballarat School of Mines in the year 1905. ballarat school of mines, andrew anderson, james oddie, chemical department, metallurgical department, engineering department, mining department, electricity and magnetism department, frank tate, professor g. j. dawbarn, kerr grant, richard hosking, a. d. gilchrist, thomas hart -
Federation University Historical Collection
Booklet, Ballarat School of Mines President's Annual Report, 1906, 1906
In 1906 Andrew Anderson was President of the Ballarat School of Mines. Part of his report states: 'The Annual Reunion of the students was held in December last, and was largely attended by students and Members of the Council. Advantage was taken of this opportunity by the students to present Professor A. Mica Smith, who has completed twenty-five years service with the School, with a valuable silver coffee and dinner service and Miss J. Knox Smith with a large portrait of the Professor'. Statement of Receipts and Expenditure for the year 1906.Ten page booklet relating to the Ballarat School of Mines in the year 1906. ballarat school of mines, andrew anderson, james oddie, chemical department, metallurgical department, engineering department, mining department, electricity and magnetism department, professor a. mica smith, thomas hart, moonta visit, moonta, moonta excursion, wallaroo copper mine, wallaroo copper mine excursion, lister and andel, frank tate -
Federation University Historical Collection
Booklet, Berry Anderson & Co, The School of Mines and Industries, Calendar, 1914, 1913
Contents of the Booklet: Associateship, Calendar, Certificate Courses - Science, Certificate Courses - Art, Draughtsman's Courses, Discipline, Discipline Board, Examination Results, Fees, Full Certificates Issued, General Regulations, Introduction, Junior Technical School, Railway Fares, Teaching Staff, Technical Art and Craft School, Subjects of Instruction - Department of Chemistry and Metallurgy, Geological Department, Engineering Department, Electrical and Electrical Engineering Department, Department of Mathematics, Department of Physics, Electrical Wiring, Electrical Engineering for Post Office Mechanics, Turning, Fitting and Blacksmithing, Telegraphy, Art and Applied Art Subjects, Architecture and Building Construction, Engineering Drawing, Carpentry and Manual Training, Dressmaking and Dresscutting, House Decoration and Signwriting, Photography, Plumbing, Sheet Metal Working Blue covered 176 page booklet relating to the School of Mines and Industries in the year 1914. school of mines and industries, william poole, professor a. mica smith, daniel walker, hubert r. murphy, a. e. c. kerr, e. j. a. mcconnon, john m. sutherland, ralph williams, e. gutheil, t. wlliams, herbert h. smith, a. m. lilburne, m. c. young, h. j. hall, d. t. johnson, e. j. cannon, g. clegg, c. e. campbell, w. j. hall, w. h. steane, j. wright, s. h. hodder, w. j. patterson, h. w. malin, r. v. maddison, science department, associate courses, certificate courses, technical art and craft department, associated trade classes, sir redmond barry, judge rogers, r m. serjeant, thomas bath, e. ballhausen, dr stewart, james oddie, associateship and final certificates, mining engineering course, metallurgy course, applied chemistry course, irrigation engineering course, certificate courses, geology course, electrical engineering course, municipal and hydraulic engineering course, chemistry, agricultural chemistry, technical chemistry, engineering chemistry, physical chemistry, metallurgy, assaying, minerology, petrology, engineering and mining department, turning and fitting, mining, electricity, electrical technology, graphical algebra and analytical geometry, physics, mechanics and heat, sound and light, technical, art, craft and trade schools, teachers' certificates, drawing, modelling, ballarat junior technical school, full certificates issued, examination results - 1910, 1911, 1912 -
Federation University Historical Collection
Photograph, Yallourn Power Station
1) Young men work on steam turbines at the Yallourn Power Station .2) View of the Turbine Floor at Yallourn Power Stationyallourn, yallourn power station, turbines, steam turbines, engineers, rubiocon hydro electric scheme, geelong power station -
Federation University Historical Collection
Photograph - Photograph - Black and White, Assembling Steam Turbine After Overhaul, Geelong Power Station
geelong power station, steam turbine, engineers, electricity