Henry Sutton is a talented world-wide accepted inventor with inventions relating to the telephone, photography, wireless, cars, motorcycles, and bicycles as well as many more inventions. Henry was also one of four brothers that ran the Sutton's Music Store after the death of their Father Richard Sutton. Henry Sutton taught Applied Electricity at the Ballarat School of Mines in 1883 to 1886."The Electrician" Practical Wireless Slide Rule, By Dr H.R. Belcher-Hickman in paper envelope including instructions for use associated with Henry Sutton. Stored in leather wine box2/6 netthenry sutton, "the electrician", practical wireless slide rule, dr. h.r. belcher-hickman, instructions

Leather bound Holy Bible c. 1854 owned by a member of the Sutton Family. Brass corners with missing clasp non-fictionc. 1854 Holy Bible owned by a member of Henry Sutton's familyholy bible, bible, henry sutton, king james bible, mrs h. sutton, ron sutton, jack sutton

Maroon hardcovered edition of Elementary lessons in Electricity and Magnetism 1891 associated with Henry Suttonnon-fictionHardcover Book on Electricity and Magnetism lessonshenry sutton, electricity, magnetism, lessons, d. mangan, d.w. black, mortimer jones

Higher education in east Gippsland dates back to 1890, and the opening of the Bairnsdale District School of Mines, In 1986 the Bairnsdale School of Mines and the Sale and Bairnsdale Technical schools amalgamated to form the East Gippsland Community College of TAFE. In 1995 it became the East Gippsland Institute of Technology, and in 2011 changed its name to Advance TAFE. The Bairnsdale District School of Mines Prospectus includes the members of council, a photographic image of the school, teaching staff, rules relating to students and instructors, Constitution, and a prospectus of subjects including Mining and Science Subjects, Diploma Courses, Preliminary Training, Metallurgy Course, Mining Engineering Course, Battery Manager's Certificate, Assayer's Certificate. It also includes a scale of fees, information on the Metallurgical Plant, Chemistry, Assaying and Metallurgy, Geology, Mining Geology, Mining, Petrology, Dynamics and Heat, Magnetism & Electricity, Mechanics Applied to Mining, Land Surveying, Mine Surveying, Algebra, Euclid, Trigonometry, Mechanical Drawing, Practical Plane Geometry, Practical Solid Geometry, Engineering Drawing, Art Subjects, and a list of certificates issued by the school since 1892.Grey soft covered book of 68 pages. The Bairsndale District School of Mines Prospectus includes the members of council, an photographic image of the school, teaching staff, rules relating to students and instructors, Constitution, and a prospectus of subjects including Mining and Science Subjects, Diploma Courses, Preliminary Training, Metallurgy Course, Mining Engineering Course, Battery Manager's Certificate, Assayer's Certificate. It also includes a scale of fees, information on the Metallurgical Plant and its chares, Chemistry, Assaying and Metallurgy, Geology, Mining Geology, Mining, Petrology, Dynamics and Heat, Magnetism & Electricity, Mechanics Applied to Mining, Land Surveying, Mine Surveying, Algebra, Euclid, Trigonometry, Mechanical Drawing, Practical Plane Geometry, Practical Solid Geometry, Engineering Drawing, Art Subjects, and a list of certificates issued by the school since 1892.bairnsdale district school of mines, bairnsdale, school of mines, donald clark, francis w. sewell, j.v.r. anderson, a.d. pleydell, walter seehusen, director, mining engineering, metallurgy, academy of arts, municipal surveyor, 1914

Megger as the device was called, is in fact its brand name. It is a device that supplies a DC (direct current as per car batteries) voltage to enable testing of electrical apparatus. This particular device produces 250volts DC when the handle is turned vigorously. If an electrical device, such as a kettle or toaster, blew a fuse or tripped a circuit breaker, when switched on, then it must be checked electrically before any more use. Following the repair of the faulty item a megger would be used to check if either of the AC 240volt plugs leads were touching the metal case (earth). The output leads of the megger would be connected with one to the earth (metal case) and the other to each of the power connections in turn. A good megger reading of 50,000 ohms (resistance) would enable the device to be returned to service. A reading of zero ohms resistance would mean that it would again blow a fuse, and was therefore unsafe to use. In the electrical industry e.g. the former State Electricity Commission, a megger would be used to test lots of similar item in sequence. Because of the vigorous job of winding the handle, two persons were often used to save time. One would crank madly whilst the other shifted the leads. This particular megger is of a small voltage, but other meggers are bigger and have a few ranges of DC voltages able to be selected. The optimal megger for large Generating machines was motor driven megger. This was applied to the device being tested for a duration of approximately 30 minutes with reading of the resistance taken at regular intervals.All equipment belonging to the State Electricity Commission of Victoria was labelled with a metal plaque attached to it. The SECV constructed the Kiewa Hydro Electric Scheme in the Upper Kiewa Valley and on the Bogong High Plains. The scheme began in 1938 and finished in 1961 when this megger was used and also possibly later as the SECV remained to maintain and operate the Scheme. This megger is of significance in relation to the advancement of technology.A rectangular box in dark brown bakerlite casing. It has an agent's plaque fixed to the left of the face and on the right is the marker's recessed stamp. In the middle in a transparent window so the level of ohms can be read. The front also has two recessed fixing knobs in black. On one side is a crank handle with a knob that lifts up and is turned vigorously to create the voltage. The back has four recessed screws and four small leather pads. There is a hole on each side to insert wires. There are two copper insulated wires. The SECV Plaque states: State/Electricity Commission/of/Victoria/ Electrical Engineer's Section/ No.1747 The Agent's Plaque states: H. Rowe & Co. Pty Ltd/Melbourne & Sydney/Sole Agents/in Australia for/Evershed & Vignoles Ltd Maker's states: 500 volts/Megger/Regd Trade Mark/Made in England/Patent No/400728electrical meters, electrical equipment, fuses, safety, state electricity commission of victoria, mt beauty, bogong village

This bowl was probably used by migrant workers on the SEC Victoria Kiewa Hydro Electricity Scheme circa 1950's. Due to the uneven pattern it can be assumed that this bowl was a cheap imported one possibly from Asia.This bowl has historical significance as a cheap imported mixing bowl or soup/main meal dish that shows the influence of the migrant infusion into the Kiewa Valley, maybe in the "gold rush" era. This medium sized ceramic/porcelain bowl has a gold painted rim and fine blue hair pin patterns and flowers. The pattern has been poorly applied and the irregular top lines appear to indicate an unprofessional alignment. The exterior has a rippled formation which has not been extended to the top rim. bottom inscription too faded to readkitchen bowl, main rice dish, mixing bowl

A saw is a tool consisting of a tough blade, wire, or chain with a hard-toothed edge. It is used to cut through material, very often wood, though sometimes metal or stone. The cut is made by placing the toothed edge against the material and moving it forcefully forth and less vigorously back or continuously forward. This force may be applied by hand, or powered by steam, water, electricity or other power sources. An abrasive saw has a powered circular blade designed to cut through metal or ceramic. In ancient Egypt, open (unframed) saws made of copper are documented as early as the Early Dynastic Period, circa 3,100–2,686 BC. Many copper saws were found in tombs dating to the 31st century BC. Models of saws have been found in many contexts throughout Egyptian history. As the saw developed, teeth were raked to cut only on the pull stroke and set with the teeth projecting only on one side, rather than in the modern fashion with an alternating set. Saws were also made of bronze and later iron. In the Iron Age, frame saws were developed holding the thin blades in tension. The earliest known sawmill is the Roman Hierapolis sawmill from the third century AD used for cutting stone.The subject item is believed to date from around the mid to late 20th century and is regarded as a modern item. The maker is unknown but the pattern or design and type of wood used indicate it is a tool of modern manufacture. Compass saw blade with wooden handle attached with wingnut.Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, wood cutting, wood saw, cross cut saw, cabinet makers tools, wood working tools, tool

A saw is a tool consisting of a tough blade, wire, or chain with a hard-toothed edge. It is used to cut through material, very often wood, though sometimes metal or stone. The cut is made by placing the toothed edge against the material and moving it forcefully forth and less vigorously back or continuously forward. This force may be applied by hand, or powered by steam, water, electricity or other power sources. An abrasive saw has a powered circular blade designed to cut through metal or ceramic. In ancient Egypt, open (unframed) saws made of copper are documented as early as the Early Dynastic Period, circa 3,100–2,686 BC. Many copper saws were found in tombs dating to the 31st century BC. Models of saws have been found in many contexts throughout Egyptian history. As the saw developed, teeth were raked to cut only on the pull stroke and set with the teeth projecting only on one side, rather than in the modern fashion with an alternating set. Saws were also made of bronze and later iron. In the Iron Age, frame saws were developed holding the thin blades in tension. The earliest known sawmill is the Roman Hierapolis sawmill from the third century AD used for cutting stone.The subject item is believed to date from around the mid to late 20th century and is regarded as a modern item. The maker is unknown but the pattern or design and type of wood used indicate it is a tool of modern manufacture.Compass saw with wooden handle and metal blade. Small teeth. flagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, wood cutting, wood saw, cross cut saw, cabinet makers tools, wood working tools, tool, compass saw

A saw is a tool consisting of a tough blade, wire, or chain with a hard-toothed edge. It is used to cut through material, very often wood, though sometimes metal or stone. The cut is made by placing the toothed edge against the material and moving it forcefully forth and less vigorously back or continuously forward. This force may be applied by hand, or powered by steam, water, electricity or other power sources. An abrasive saw has a powered circular blade designed to cut through metal or ceramic. In ancient Egypt, open (unframed) saws made of copper are documented as early as the Early Dynastic Period, circa 3,100–2,686 BC. Many copper saws were found in tombs dating to the 31st century BC. Models of saws have been found in many contexts throughout Egyptian history. As the saw developed, teeth were raked to cut only on the pull stroke and set with the teeth projecting only on one side, rather than in the modern fashion with an alternating set. Saws were also made of bronze and later iron. In the Iron Age, frame saws were developed holding the thin blades in tension. The earliest known sawmill is the Roman Hierapolis sawmill from the third century AD used for cutting stone.The subject item is believed to date from around the mid to late 20th century and is regarded as a modern item. The maker is unknown but the pattern or design and type of wood used indicate it is a tool of modern manufacture. Compass saw with wooden handle broken and metal blade. Small teeth.Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, wood cutting, wood saw, cross cut saw, cabinet makers tools, wood working tools, tool, compass saw

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

The Ballarat School of Mines was the first Technical School on Australia..1) Ballarat School of Mines Annual Report .2) Ballarat School of Mines calendar The Ballarat School of Mines Calendar and Annual Report 1896. Associateship of The School, Calendar for 1896, Certificates Granted by Education Department 1894, Certificates Issued by The School 1895, Certificates Issued Prior to 1895, Certificates Issued by Education Department 1895, Examiners, Examination Fees, Fees, Honorary Correspondents, Life Governors, Meteorological Observations, Number of Students attended The School, Office Bearers, Professors and Lecturers, Report of the Superintendent of Laboratories, Report of the Professor of Mineralogy, Geology and Botany, Report of the Professor of Engineering, Report of the Lecturer on Mathematics, Report of the Instructor in Engineering Drawing, Report of the Lecturer on Electricity, Report of the Teacher of Drawing, Report of the Lecturer in Veterinary Science, Statement of Receipts and Expenditure for year 1895, Statistics - Student attending Lectures, Subscriptions and Donations, Subjects Included in Regulations Technical Schools, Time Tableballarat school of mines, examiners, examination fees, fees, honorary correspondents, life governors, meteorological observations, number of students attended the school, office bearers, professors and lecturers, report of the superintendent of laboratories, report of the professor of mineralogy, geology and botany, report of the professor of engineering, report of the lecturer on mathematics, report of the instructor in engineering drawing, report of the lecturer on electricity, report of the teacher of drawing, report of the lecturer in veterinary science, statement of receipts and expenditure for year 1895, statistics - student attending lectures, subscriptions and donations, subjects included in regulations technical schools, time table, annual report, calendar, andrew anderson j.p. - president, hon. r. t. vale - vice president, r. denham pinnock - vice president, the hon. sir w. j. clarke - trustee, the hon. john warrington rogers - trustee, the right reverend samuel thornton - trustee, andrew anderson - trustee, james millhinch - trustee, james oddie - trustee, the hon. henry cuthbert - honorary solicitor, r. g. middleton - honorary treasurer, charles kent - auditor, fred. j. martell - director and registrar, professor alf. mica smith - chemistry, metallurgy, natural philosophy, professor purdie - geology, mineralogy, principles of mining, professor g. j. dawbarn - mine and land surveying, mining mechanics, hydraulics, civil engineering, applied mechanics, j. rowe - practical mining, w. huey steele - electrical technology, electricity and magnetism, d. walker - chemistry and natural philosophy, w. e. bennett - mathematics, henry j. hall - freehand and perspective drawing, a. e. c. kerr - mechanical drawing (machine construction and design), j. f. usher - paleontology, zoology, materia medica, professor purdie - botany, george clegg - building construction, l. hart - photography, h. g. a. brown - carpentry, r. e. weir - veterinary science, daniel walker, henry cuthbert, james millhinch, jams oddie, j.f. usher

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

A saw is a tool consisting of a tough blade, wire, or chain with a hard-toothed edge. It is used to cut through material, very often wood, though sometimes metal or stone. The cut is made by placing the toothed edge against the material and moving it forcefully forth and less vigorously back or continuously forward. This force may be applied by hand, or powered by steam, water, electricity or other power sources. An abrasive saw has a powered circular blade designed to cut through metal or ceramic. In ancient Egypt, open (unframed) saws made of copper are documented as early as the Early Dynastic Period, circa 3,100–2,686 BC. Many copper saws were found in tombs dating to the 31st century BC. Models of saws have been found in many contexts throughout Egyptian history. As the saw developed, teeth were raked to cut only on the pull stroke and set with the teeth projecting only on one side, rather than in the modern fashion with an alternating set. Saws were also made of bronze and later iron. In the Iron Age, frame saws were developed holding the thin blades in tension. The earliest known sawmill is the Roman Hierapolis sawmill from the third century AD used for cutting stone. The subject item at this time cannot be associated with an historical event, person or place, provenance is unknown, as the maker is unknown but the pattern or design and type of wood used indicate it is a tool of modern manufacture around the mid to late 20th century.Wood hand saw with wooden handle attached to saw by 4 rivets. No blade markings Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, handsaw, wood saw, carpenders tools, cabinet makers tools, wood cutting

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

The Working Men’s College was founded in 1881 by a prominent grazier and philanthropist, The Hon. Francis Ormond, who donated £5000 towards the establishment of the college. The Council of the Melbourne Trades Hall then matched Ormond's initial donation by rallying its members. On 4 June 1887, the college opened in its purpose-built building on the corners of Bowen Street and La Trobe Street in Melbourne, with a gala ceremony. It became the third official provider of higher education in the new Colony of Victoria (the Melbourne Athenaeum was founded in 1839 and the University of Melbourne in 1853). The college was the predecessor to the current-day Royal Melbourne Institute of Technology (RMIT University). Adjoining the college in the 1890s were the Supreme Court of Victoria (later the Melbourne Magistrates' Court) and the Melbourne Gaol - both which are now part of RMIT today. A list of Scholarship Governors and Life Governors is included. The former have donated 250 Pounds Sterling and upwards, the later have donated 20 Pounds and over but less than 250 Pounds Sterling. The Patron of The Working Men's College was His Excellency The Right Honourable Lord Brassey. The President of the Council was Professor W C Kernot. The majority of classes were at night and on Saturdays. Tan soft covered book of 112 pages. The thirteenth edition of the Working Men's College (later Royal Melbourne Institute of Technology [RMIT]). It inlcudes the following photographic images: Main Building, Assaying, 1899 council (W.C. Kernot, W.H. Embling, Thomas smith, F.H. Bromley, John Reid, R.H. Solly, E. Findley, D. McIvor, James Robb, John Hancock, C.E. Oliver, A.J. Arnot, James Smith, Joseph Nixon, R.L.Jellery. C.S. Paterson), UNveiling the Ormond Statue, Victorian Lead and Shot Works, Francis Ormond, Telegraphy room, Lecture Theatre, photography, painting class, wool sorting, plumbing, Remington typewriter, W. Ison, H.D. Evans, library, Verdon prize, Denton Hat Mills. working men's college melbourne, rmit, w.c. kernot, w.h. embling, ormond statue, f. ormond, electricity, surveying, architecture, photography, assaying, dressmaking, veterinary science, plumbing, letterpress printing, w. ison, h.d. evans, library, denton hat mills, literary and commercial department, typewriting department, languages, telegraphy, department of music, department of mathematics, department of engineering, 'department of architecture, department of art and applied art, department of mining and metallurgy, department of chemistry, department of household economy, department of agriculture and rural industries, woodworking, carpentry and joinery, turning and fitting, coachbuilding and carriagedrafting

Used at the Ballarat School of Mines and the Ballarat Technical Art SchoolThis collection of examinations is significant because of its completeness with the full range of examinations between 1914 and 1950.Large leather bound books, with leather spine, containing all examinations held at the Ballarat School of Mines (including the Ballarat Technical Art School and Ballarat Junior Technical School). The examination papers were supplied and printed by the Education Department, Victoria. Examinations include: Agriculture, Algebra, Architecture, Arithmetic, Applied Mechanics, Assaying, Biology, Botany, Boilermaking, Building Design, Blacksmithing, Bricklaying, Carpentry and Joinery, Coachbuilding, Cabinet Making, Civil Engineering, Cabinet Making, Commercial, Chemistry, Engineering Drawing, Economics, English, Electrical technology, Electricity and Magnetism, Electric Wiring, Electric Welding, Electrical Fitting, Electrical Trades, Food Analysis, Geology, Geological Mapping, Graphics, Geometry, Heat Engines, Heat Treatment, Hydraulics, Hand Railing, Instrument Making, Millinery, Milling and Gearouting, Machine Shop Practice. Metal Founding, Mining, Metallurgy, Mineralogy, Mathematics, Motor Mechanics, Mine Surveying, Mining Mechanics, Petrology, Physics, Painting and Decorating, Pattern Making, Plastering, Plumbing and Gasfitting, Printing, Refrigeration, Spelling, Science , Shorthand, Surveying. Signwriting. Sheet Metalwork, Toolmaking, Ladies Tailoring, Trigonometry, Typewriting, Welding, Commercial Geography. Millinery, Dressmaking, Needlework, Decorative Needlework, Architecture, Building Design and Construction, Art (Composition in Form and Colour), Art (Casting Clay MOdels) Art (Drapery), Art (Drawing the Human Figure From Casts), Art (Drawing the Antique from Memory), Art (Drawing from Memory); Art (Drawing Plant Forms from Nature, Art (Drawing Plant Forms From Memory), Art (Drawing from Models and Objects), (Drawing From a Flat Example). Art (Drawing in Light and Shade from a Cast of Ornament or Lower Nature), Art (Drawing Ornament from the Cast), Art (Drawing from Models or Objects), Art (Drawing fro Dressmakers' and Milliners' Fashions), Art (Drawing With the Brush), Art (Drawing from a Flat Example); Art (Modelled Design), Art (General Design), Art (Embossed Leatherwork), Art (Practical Plane Geometry), Art (Practical Solid Geometry), Art (Geometrical Drawing), Carpentry and Joinery, Art (Human Anatomy), Art (Historic Ornament), Art (House Decoration), Art (LEttering), Signwriting, Art (Light Metalwork), Art (Modelling), Art (Modelling the Human Figure from a Life), Art (Stencilling); Art (Wood Carving) Refrigeration, Teaching, Boilermaking, Blacksmithing, Carpentry and Joinery, Coachbuilding and Carriage Drafting, Electric Wiring, Electrical Fitting, Graining and Marbling, Instrument Making , Machine Shop Practice, Metal Founding, Milling and Gear Cutting, Motor Mechanics, Painting and Decorating, Sheet Metalwork, Toolmaking, Printing, Pattern Making, Plumbing and gasfitting, examinations, ballarat school of mines, ballarat technical art school, trades, education department victoria, agriculture, algebra, architecture, arithmetic, applied mechanics, assaying, biology, botany, boilermaking, building design, blacksmithing, bricklaying, carpentry and joinery, coachbuilding, cabinet making, civil engineering, commercial, chemistry, engineering drawing, economics, english, electrical technology, electricity and magnetism, electric wiring, electric welding, electrical fitting, electrical trades, food analysis, geology, geological mapping, graphics, geometry, heat engines, heat treatment, hydraulics, hand railing, instrument making, millinery, milling and gearouting, machine shop practice, metal founding, mining, metallurgy, mineralogy, mathematics, motor mechanics, mine surveying, mining mechanics, petrology, physics, painting and decorating, pattern making, plastering, plumbing and gasfitting, printing, refrigeration, spelling, science, shorthand, surveying, signwriting, sheet metalwork, toolmaking, ladies tailoring, trigonometry, typewriting, welding., dressmaking, needlework, decorative needlework, architecture, building design and construction, art (composition in form and colour), art (casting clay models), art (drapery), art (drawing the human figure from casts), art (drawing the antique from memory), art (drawing from memory), art (drawing plant forms from nature, art (drawing plant forms from memory), art (drawing from models and objects), (drawing from a flat example), art (drawing in light and shade from a cast of ornament or lower nature), art (drawing ornament from the cast), art (drawing from models or objects), art (drawing for dressmakers' and milliners' fashions), art (drawing with the brush), art (drawing from a flat example), art (modelled design), art (general design), art (embossed leatherwork), art (practical plane geometry), art (practical solid geometry), art (geometrical drawing), art (human anatomy), art (historic ornament), art (house decoration), art (lettering), art (light metalwork), art (modelling), art (modelling the human figure from a life, art (stencilling), art (wood carving), teaching, coachbuilding and carriage drafting, graining and marbling, milling and gear cutting, commercial geography, exams, examination book

A saw is a tool consisting of a tough blade, wire, or chain with a hard-toothed edge. It is used to cut through material, very often wood, though sometimes metal or stone. The cut is made by placing the toothed edge against the material and moving it forcefully forth and less vigorously back or continuously forward. This force may be applied by hand, or powered by steam, water, electricity or other power sources. An abrasive saw has a powered circular blade designed to cut through metal or ceramic. In ancient Egypt, open (unframed) saws made of copper are documented as early as the Early Dynastic Period, circa 3,100–2,686 BC. Many copper saws were found in tombs dating to the 31st century BC. Models of saws have been found in many contexts throughout Egyptian history. As the saw developed, teeth were raked to cut only on the pull stroke and set with the teeth projecting only on one side, rather than in the modern fashion with an alternating set. Saws were also made of bronze and later iron. In the Iron Age, frame saws were developed holding the thin blades in tension. The earliest known sawmill is the Roman Hierapolis sawmill from the third century AD used for cutting stone.The subject item is believed to date from around the mid to late 20th century and is regarded as a modern item. The maker is unknown but the pattern or design and type of wood used indicate it is a tool of modern manufacture. Compass saw blade with wooden with open handle blade attached with wingnut lever at side to adjust long narrow blade Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, wood cutting, wood saw, cross cut saw, cabinet makers tools, wood working tools, tool

Yields information about the announcement of the SEC Decision to close both Ballarat and Bendigo and gives details regarding personnel and how it will be handled.., Yields information about the announcement of the SEC Decision to close both Ballarat and Bendigo and gives details regarding personnel and how it will be handled..Copy of a Memorandum sent by the Melbourne office, Engineer and Manager SEC to the Manager Ballarat and Bendigo branches, 1/2/1962, titled "Ballarat, Bendigo Tramways - Personnel", regarding closure, informing unions and personnel. Predicted towards the end of 1962. Will make endeavours to find the men suitable employment, but may not be at existing locations or wages. Notes the same as being applied to Geelong, Ballarat B power station, Geelong power station with ex-gratis payments based on years of service. Signed by K L MurrayDate stamped 2/2/62 and has file number in the top right hand corner in ink and notes re copies.trams, tramways, closure, staff, employment, sec, bendigo, ballarat, personnel, ballarat b power station, geelong

Yields information about the materials and the methods of installing electrical domestic cables in Ballarat houses during the 1920's.Section of timber or wooden electrical conduit used in houses c1920, to contain wires for electrical lamps and fittings. Consists of a timber base (very light softwood - ??) with two slots that was nailed to a wall and after the cable installed a cover strip applied. Has one end mitred or cut at 45 degrees. See Early Electrical wiring systems in American buildings - L. D. Mitchelltrams, tramways, esco, electrical equipment, house extensions, houses, electricity

Demonstrates aspects of the SEC governance system in issuing By-laws for the travelling public, as part of their Act. Yields information about fares charged for tram services in Ballarat, Bendigo and Geelong. Issued to crews.Twenty Four page booklet, plus medium weight card brown colour covers centre stapled. Book cover has title "Electric Tramways of the State Electricity Commission of Victoria By-Law No. 1". Pages are numbered pages 1 to 24, revoking By Laws dated 5/9/1932 (See Reg. Item 3109). Dated 9/3/1937. Gives definitions, fares and charges, regulations re passengers, behaviour, smoking, dangerous goods, luggage and behaviour of crews. Gives schedule of fares and charges for Ballarat, Bendigo and Geelong. Fares applied from 1937 to 1949 - see Reference. Details names of SEC Commissioners, Minister in Charge of Electrical Undertakings. Four copies held. Copy 1 - as printed. Copy 2 - has numerous changes marked in red ink internally and pasted in changes to the text. The schedules have been crossed out. Copy 3 - has changes marked in black ink, including fare and charges changes that were made in 1949. No pasted in sections. Copy 4 - missing back cover. Copy 5 - missing front and back pages. Has Government Printer, H. E. Daw, number 11928/43. Given the printing number on Reg. Item 3110 is a lower number and that the H. Green was the Government Printer in 1936 (See Reg. Item 3068), "43" indicates a reprinting date. See Fares in Ballarat – from Alan Bradley 11/4/2005 – appendix for Book Copy 1 - has "1937" and "No. 1" written in red ink on top of cover. Copy 2 - has "No. 2" written in red ink in top right hand corner of cover and "Ballarat Tramway Preservation Society No. 202" written in black ink on top of cover and numerous changes marked in red ink internally and pasted in changes to the text. The schedules have been crossed out in red ink. Copy 3 - has "Ballarat Tramway Preservation Society No. 202" written in black ink on top of cover and numerous changes marked in black ink including changes to fares and schedules.trams, tramways, secv rules, by laws, tickets, fares, ballarat, bendigo, geelong

Demonstrates aspects of the SEC governance system in issuing By-laws for the travelling public, as part of their Act. Yields information about fares charged for tram services in Ballarat, Bendigo and Geelong. Issued to crews.Twenty Four page booklet, plus medium weight card dark brown colour covers centre stapled. Book cover has title "Electric Tramways of the State Electricity Commission of Victoria By-Law No. 1". Pages are numbered pages 1 to 23, revoking By Laws dated 5/9/1932 (See Reg. Item 3109). Dated 9/3/1937. Gives definitions, fares and charges, regulations re passengers, behaviour, smoking, dangerous goods, luggage and behaviour of crews. Gives schedule of fares and charges for Ballarat, Bendigo and Geelong. Fares applied from 1937 to 1949 - see Reference. Details names of SEC Commissioners, Minister in Charge of Electrical Undertakings. Copy has numerous changes marked in red ink internally and pasted in changes to the text. Has Government Printer number 6967. Given the printing number on Reg. Item 3108 is a higher number and that H. Green was the Government Printer for this book and in 1936 (See Reg. Item 3068), indicates a copy printed in 1937. A piece of paper has been pinned to the copy on page 23, giving details of where to relieve on the Sebastopol route. Written in red ink. See Fares in Ballarat – from Alan Bradley 11/4/2005 – appendix for Book Copy - has numerous changes marked in red ink mainly, some pencil, internally and pasted in changes to the text.trams, tramways, secv rules, by laws, tickets, fares, ballarat, bendigo, geelong

Demonstrates aspects of the SEC governance system in issuing By-laws for the travelling public, as part of their Act. Yields information about fares charged for tram services in Ballarat, Bendigo and Geelong. Issued to crews.Twenty page booklet, plus medium weight card blue colour covers centre stapled. Book cover has title "Electric Tramways of the State Electricity Commission of Victoria By-Law No. 1". Along the bottom edge is the printing number "TYE 1-27" and date, "November 1955" Pages are numbered pages 1 to 20, amending By Laws dated 9/3/1937 (See Reg. Item 3108) and with a list of subsequent dates in the first paragraph. Dated by the SEC 20/10/1955. Gives definitions, fares and charges, regulations re passengers, behaviour, smoking, dangerous goods, luggage and behaviour of crews. Gives schedule of fares and charges for Ballarat, Bendigo and Geelong. Fares applied from 1949 to 1951 - see Reference. Details names of SEC Commissioners, Minister in Charge of Electrical Undertakings on rear page. Five copies held. See also Reg Item 3508 for other copies. No printer details. Full pdf copy added 28/5/2019 - scanned from a spare copy. See Fares in Ballarat – from Alan Bradley 11/4/2005 – appendix for BookCopy 1 & 2 - has "1955" in black ink on top of front cover. Copy 2 - has "Ballarat Tramway Preservation Society No. 204" written in black ink on top of cover. Copy 3 & 4 - has "Ballarat Tramway Preservation Society No. 204" written in black ink on top of cover . Copy 4 - has marks and an "X" alongside rule 34(ii), page 11. Copy 5 - has "Carter. R" in blue ink along top edge of covertrams, tramways, secv rules, by laws, tickets, fares, ballarat, bendigo, geelong

Significant in being a detailed set of instructions for punching tickets for various sections and journeys on the Ballarat system. Gives details for each fare type. Issued following a fare increase.Set of two foolscap sheets duplicated, titled "Sections - Increased Fares and Check Identification", dated 1 September 1966. Gives details of the increased fares details and how it applied for each section on the tramway by fare value. Gives details of what punch destination number to punch on the tickets, in bound and out bound. See Reg Item 4123 for the 13/10/1965 photocopied version - pre-decimal and Reg Item 4134 for the original. trams, tramways, ballarat, tickets, fares, conductors

Significant in being a detailed set of instructions for punching tickets for various sections and journeys on the Ballarat system. Gives details for each fare type. Issued following a fare increase.Set of two foolscap sheets, photocopied onto A3 sheets, titled "Sections - Increased Fares and Check Identification", dated 13 October 1965. Gives details of the increased fares details and how it applied for each section on the tramway by fare value. Gives details of what punch destination number to punch on the tickets, in bound and out bound. See Reg Item 3458 for the 1/9/1966 version - post-decimal and Reg Item 4134 for the original of this document. trams, tramways, ballarat, tickets, fares, conductors