Showing 46 items matching electrical technology
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Federation University Historical Collection
Register, Education Department Victoria, Ballarat School of Mines Register of Attendance in the Subject of Electrical Technology III (Practical Work), 1912
... Subject of Electrical Technology III (Practical Work), 1912... in the Subject of Electrical Technology III (Practical Work), 1912 Hard ...John McKenzie Sutherland was taught by Henry Sutton in the subject of Electricity and Magnetism at the Ballarat School of Mines. He later lectured in the same subjects.Hard covered book with brown taped spine. Inside the register is a handwritten class and attendance listhenry sutton, ballarat school of mines, john m sutherland, john mckenzie sutherland, vincent booth, robert hutchinson, wilton williamson, robert serjeant, revill tinworth, ernest anderson, frank retallack, reg roberts, john h thomas, john thomas -
Federation University Historical Collection
Book - Register, Education Department Victoria, Ballarat School of Mines Register of Attendance in the Subject of Electrical Technology II, 1912
... Subject of Electrical Technology II, 1912... in the Subject of Electrical Technology II, 1912 Hard covered book ...John McKenzie Sutherland was taught Electricity and Magnetism by Henry Sutton at the Ballarat School of Mines. He later lectured in the subject himself.Hard covered book with charcoal green taped spine. A class list and attendances are written in the register.henry sutton, john m sutherland, john mckenzie sutherland, wilfred allen, hugh conran, alan o meara, harold dixon, vincent booth, milton williams, charles davies, stanley gower, reg nunn, william mckenzie, samuel mayo, rowland williams, charles bray, george wrinckler, jack gillegan -
Federation University Historical Collection
Document - Document - Syllabus, Education Department, Victoria, Syllabuses, Technical Schools, 1921 and 1924
... electrical technology... (1924) .6: Electrical Technology (1924) .7: Electric...) .5: Civil Engineering (1924) .6: Electrical Technology (1924 ...Syllabuses produced by the Education Department of Victoria. They are for Technical Schools and outline requirements for various subjects. They were produced at the beginning of each year. .1, .2, .3 are for 1921. .4 to .22 are for 1924. .1: Mechanics and Mechanics Applied to Mining (1921) .2: Mechanics and Heat (1921) .3: Graphics (1921) .4: Hydraulics (1924) .5: Civil Engineering (1924) .6: Electrical Technology (1924) .7: Electric Wiring (1924) .8: Sheet Metal Work, Pattern Cutting for Tinsmiths, Galvanized Iron Workers and Sheet Copper Workers (1924) .9: Metal Work (Machine Shop Practice) (1924) .10: Farm Irrigation and Irrigation Engineering .11: Food Analysis .12: Theory of Aircraft Design and Construction (1924) .13: Iron, Steel and Engineering Alloys (Special Course for Aeronautical Engineers) (1924) .14: Civil Engineering (1924) .15: Diploma Students - Iron, Steel and Engineering Alloys (1924) .16: Aerodynamics (1924) .17: Electrical Engineering (1914) .18: Mechanical Drawing, 2nd Year Students - Junior Technical Schools (1924) .19: Mechanical Drawing, 3rd Year Students - Junior Technical Schools or Preparatory Evening Course for Technical School Students (1924) .20: Mathematics (1924) .21: Diploma Courses in Engineering - Electrical, Mechanical, Marine, Civil, Aeronautical (1924) .22: Civil Engineering (1924) 22 items, A5 in size. Some are folded sheets of A4 paper.sylabus, education department, victoria, technical schools, 1921, 1924, mechanic and mechanics applied to mining, mechanis and heat, graphics, hydraulics, civil engineering, electrical technology, electric wiring, sheet metal work, pattern cutting for tinsmiths, galvanised iron workers, sheet copper workers, machine shop practice, farm irrigation, irrigation engineering, food analysis, theory of aircraft design and construction, aeronautical engineers, diploma students, aerodynamics, electrical engineering, mechanical engineering, mechanical drawing, junior technical schools, evening course for technical students, mathematics -
Federation University Historical Collection
Books, H.E. Daw Government Printer, Ballarat School of Mines and Industries Departmental Papers, 1914-1950
... electrical technology..., Engineering Drawing, Economics, English, Electrical technology..., Engineering Drawing, Economics, English, Electrical technology ...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 -
Federation University Historical Collection
Document, List of Subjects
... Electrical Technology... & Magnetism Electrical Technology Mr Sutherland Turning and Fitting Mr ...School of Mines Ballarat is predecessor of Federationn University Foolscap sized list of Subjects from Ballarat School of Mines with handwritten names.8S3S in large writng on the back school of mines ballarat, practical chemistry, mr. walker, theoretical chemistry, theoretical agricultural chemistry, practical agricultural chemistry, technical chemistry, metallurgy, alfred mica smith, metallurgical calculations, metallurgy of gold and ore dressing, assaying practical, assaying dry, mr. murphy, ore dressing practical, mining, mining geology, mineralogy, geology, petrology, botany, applied mechanics, mr hart, mine surveying, land surveying, steam and gas engines, mr gilchrist, elementry electricity & magnetism, electrical technology, mr sutherland, turning and fitting, mr connon, engineering drawing, mr kerr, geometry, algebra, trigonometry, physics, conics, calculus, mr whitington, building construction, plane and solid geometry, plumbing grade, mr hall, mr mullins, carpentry, wool classing, materia medica, mr gutheil, technical arithmatic, mr hutchison, telegraphy, mr williams, sloyd, mr slater, photography, mr campbell, manual training, cyanide, mr deane, mr brittain, mr martell, english, astronomy, list of subjects -
Federation University Historical Collection
Booklet - Annual Report and Calendar, Ballarat School of Mines Annual Report and Calendar, 1896
... w. huey steele - electrical technology... steele - electrical technology electricity and magnetism d ...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 -
Federation University Historical Collection
Booklet, Ballarat School of MInes Certificate Book, 1911-1912
... Electrical Technology... J.H. Thomas Algebra Geometry Electrical Technology Francis C ...A Certificate stubb book, the stub recording when a Ballarat School of MInes certificate was collected, and the right hand section signed by the person who picked it up. g.o. ramsay, assaying, mining engineering, reginald a. roberts, virgil tucker, thomas sim, fitter and machinist, john worthington, ernest h. fraser, metallurgy, george w. cornell, thomas r. williams, mt morgan, jubilee hill, e. morshead, engineering drawing, norman buley, p.e. marmion, loyal h. finch, engineering draughtsman, elsie lewis, dressmaking, dresscutting, harold h. bieske, chemistry, mineralogy, leslie james middleton, f.v. retallack, a.g. campbell, mining engineering, leslie j. coulter, w. baragwanth, geology, w. moon, w.j. sayer, john f. foster, j.h. thomas, algebra, geometry, electrical technology, francis c. hall, chemistry, dynamics and heat, applied mechanics, vincent m. booth, turning and fitting, fitting and turning, steam and gas engines, h.i.w. dixon, colin c. corrie, f.v. retallack, r.a.j. roberts, v.e. mellington, j. sides, trigonometry, h.j. whittingham, w.h hull, milton williamson, a.c. stanger-leathes, w.j. mckenzie, e.s. anderson, richard g. walker, h.g. cornell, r.h. achison, s.h. mayo, allan o'meara, r.m. serjeant (jnr), j.h. thomas, l.h. finch, leslie j. middleton, virgil tucker, h.e. hawkesworth, r. ingram moore, reginald e. callister, rudolph bieske, j.f. roy, william geldard, w. richardson, l. trahar, albert j, robin, tongala, mine surveying, land surveying, john l. sampson, edgar c. hurdsfield, george e. stephenson, sherbourne hal. sheppard, oliver w. williams, e. mowbray boyer, first aid to the injured, lilliam nankervis, alan j. perry, albert e. coates, r. hamlyn, r. ironbridge, s.e. ellsworth, j.m. matthews, ross ironbridge, sarag e. ellsworth, frncis r. mcgregor, f.g. middleton, dora furness, v. matthews, george farmer, d. owen, ethel m. woolcock, r.j. walker, port pirrir, n. buley, electricity and magnetism, l.s. anderson, aubret simmons, william f. williamson, robert n. allan, jack blackie, nelson h. ferguson, ronald ferguson, w. mckenzie, david w. bonar, harry j. myles, charters towers, howard hall, r.a. roberts, william baragwanath, guy o. ramsay, harold bieske, leslie coulter, john foster, francis hall, vincent booth, colin corrie, milton wiliamson, albert coates, francis r. mcgregor, ethel woolcock, aubrey simmons, ronald j. ferguson -
Federation University Historical Collection
Booklet, Ballarat School of Mines Register of Attendances for Electricity Technology III, 1908
... electrical technology... of mines j.m. sutherland electrical technology ...The Ballarat School of Mines is a predecessor institution of Federation University Australia. A slim, green pastel, hard cover volume with dark blue spine. Two full-width pages for entering names of those enrolled.ballarat school of mines, j.m. sutherland, electrical technology -
Bendigo Military Museum
Equipment - GENERATOR/TACOMETER UNITS, C.WW2
... electrical technology... with dial numbering from 0 to 45 rpm Rear has electrical connections ...Item belonged to Maxwell Lennox Matheson No 418447 RAAF. Refer Cat No 1959 for his service records..1) Unt is black metal, cylinder shape with hexagonal section fitted with 6 bolts cylinder section also has a shaft on the rear that turns. .2) Unit is metal with dial numbering from 0 to 45 rpm Rear has electrical connections.1) “Generator Tachometer Ser no 7169” .2) “Indicator Tachometer E73”electrical technology, instruments, raaf -
Bendigo Military Museum
Equipment - COMPUTER, c.1939
... electrical technology.... electrical technology appliances & accessories navigational ...Item used by Navigators or Pilots of small aircraft. Belonged to Maxwell Lennox MATHESON 418447 RAAF. Refer Cat No1959 for his service history.NAVIGATIONAL Computer Mark III.D, metal - bakelite, construction rectangular box shape, top lid hinges open. Top lid has a circular adjustment. Inside has another circular adjustment. Centre is a graph in red which winds by a dial on side. Inside top lid hand written in black are items of Navigation."NAVIGATIONAL Computer MKIID REF No 68/180 ICAN CALIBRATION"electrical technology, appliances & accessories, navigational -
Federation University Historical Collection
Booklet, Berry Anderson & Co, The School of Mines and Industries, Calendar, 1914, 1913
... Electrical Technology... Turning and Fitting Mining Electricity Electrical Technology ...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 -
Whitehorse Historical Society Inc.
Machine - Washing Machine, c. 1960
... electrical technology... laundering electrical technology appliances & accessories ...This was donated by the Eastern Emergency VolunteersHOOVER TWIN TUB WASHING MACHINE MODEL 1116 The twin tub machine appears to have been developed to assist in the washing of clothes by including a spin dryer. One tub had an agitator in the side wall to wash clothes which were then lifted into the spin dryer.Hoovermatic GZ046916domestic items, laundering, electrical technology, appliances & accessories -
Whitehorse Historical Society Inc.
Machine - Washing Machine, c.1970
... electrical technology... electrical technology appliances & accessories ...Was used by owner until concerned that children may have hurt themselves on the wringerSimpson electric washing machine with wringer attached above bowl. White, round with removable lid. Front lever: Wash/Stop; three buttons on front: Empty-Wash-Off indicated. Appliance on castors attached wringer with metal drip tray and two rubber rollers. Wringer will pivot.Simpsondomestic items, laundering, electrical technology, appliances & accessories -
Whitehorse Historical Society Inc.
Domestic object - Wall Clock, 1945s
... electrical technology... Unknown horology clocks electrical technology appliances ...UnknownClock square with rounded corners cream bakelite electric wall clock with art deco style corners. Silver edged clock face with black numbers on silver edge with cream centre. Black filigree hands with a red minute hand. Black adjustment knob at bottom. Made in Great Britain by Smiths Sectric is marked on face. Back is black bakelite 'Smiths English Clocks' 200/250V 50SFC - Reg Trade Mark. Made in England. Instructions to set hands, press and turn knob. Made under one or moe Brit. Patents 366710 369 336 374 713 384441 484222. Back is cream with black book and white electric cord with black ring-grip plug 250V - 10amp. Made in Australiahorology, clocks, electrical technology, appliances & accessories -
Whitehorse Historical Society Inc.
Audio - Portable Radio, 1960's (probably 1964)
... electrical technology.... AWA Radiola Designer was John Holt electrical technology ...Designer was John HoltPortable Radio A.W.A. Radiola in brown PVC case with handle. H11cm x L21cm x D5cm. No 9 Battery. The radio will handle short and medium wave reception. AWA Radiolaelectrical technology, appliances & accessories -
Whitehorse Historical Society Inc.
Machine - Electric calculator
... Electrical technology... Book-keeping Electrical technology ...Compet CS - 1109A Black top "Sharp" electric calculator, bottom is cream. Electrical cord push buttons black with cream lettering and numbers. Sharp Compet CS - 1109Aadding machines, sharp electronics corp, book-keeping, electrical technology -
Whitehorse Historical Society Inc.
Functional object - Electric Heater
... electrical technology... electrical technology appliances & accessories ...Circular bowl shaped reflector with wire framed cover. Element wound on central core. Brown frame decorated with birds. Handle at top. Wire stand at rear'Laing' scratched on backdomestic items, heating, electrical technology, appliances & accessories -
Whitehorse Historical Society Inc.
Tool - Fuse wire, c1950
... ELECTRICAL TECHNOLOGY... Electrical Contractors. ELECTRICAL TECHNOLOGY Appliances ...Fuse wire loops on cardboard card which has John March & Con P/L Electricians, marked.Fuse wire card - Controlled vehicles, City and suburbs/ Immediate breakdown service, Electricians, Est 1906. John March & Co P/L, 43-45 Hancock St. Sth Melb. Light, ring 697422, Power, Prompt Personalised Attention. Installations & alterations, Australia's Oldest Electrical Contractors.electrical technology, appliances & accessories -
Whitehorse Historical Society Inc.
Domestic object - Fan
... ELECTRICAL TECHNOLOGY...DOMESTIC ITEMS Cooling ELECTRICAL TECHNOLOGY Appliances ...Four blade electric fan. Grey blades enclosed in chrome guard. Connection grey electric cord and connectionPyedomestic items, cooling, electrical technology, appliances & accessories -
Whitehorse Historical Society Inc.
Domestic object - Electric Fan
... ELECTRICAL TECHNOLOGY... DOMESTIC ITEMS Cooling ELECTRICAL TECHNOLOGY Appliances ...Fan was used by Robert Gardiner,s father during the 1930sElectric fan with four blades enclosed in wire guard. Round metal disk on front of guard. Round base supporting electrical connection. Three metre cord and fittings attached to base.G.E.C.domestic items, cooling, electrical technology, appliances & accessories -
Blacksmith's Cottage and Forge
Insulator, Unknown
... , insulator 4 ::::::::: CCG Used on telegraph poles. electrical glass ...Used on telegraph poles.Heavy glass, lightly tinted green, insulator4 ::::::::: CCGelectrical, glass, technology, coloured, insulator -
Federation University Historical Collection
Photograph - Photograph - Colour, Caroline Winter, World War One Graves, 05/08/2012
... Certificate and additional certificates in Land Surveying, Electrical... in Land Surveying, Electrical Technology, Metallurgy and Geology ...These photographs were taken by Caroline Winter, lecturer at the University of Ballarat. Horace Pickford was born at Clunes, Victoria. He was killed in action on 27 September 1917. According to his dossier Pickford was in the 58th battalion and was buried in the vicinity of Polygon Wood. Glyndwr Evans was a native of Treorchy in the Welsh Rhondda Valley. He emigrated to Australia with his parents who lived at Randwick in New South Wales. He attended the Ballarat School of Mines, and served on the Student's Magazine Committee in 1905. The following year Glyndwr took up a position as a solutionist at the Golden Horseshoe Mine at Kalgoorlie. In the application for a commission in the AIF Glyndwr stated at he had completed three years at the Ballarat School of Mines, obtaining a Mine Manager's Certificate of Competancy, an Assayers Certificate and additional certificates in Land Surveying, Electrical Technology, Metallurgy and Geology. Gyndwr was a member of the AIF 1st Australian Tunnelling Coy. He was killed in Action at Hill 60 on 25 April 1917 and is buried in Belgium at the Railway Dugout Burial Ground (Plot VII, Row G, Grave 33). (http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_Evans.shtml) A number of colour photographs of World War One war graves of soldiers from the Ballarat district. .1) Horace Pickford's headstone, Tyne Cot Cemetery .2) Glyn Evans tombstone, Railway Dugouts Cemetery south of Ypres. 3. Railway Dugouts Cemetery, Glyn Evans tombstone has a poppy on it. university of ballarat, world war one, war graves, war cemetery, world war i, world war, pickford, evans, horace pickford, harry pickford -
Federation University Historical Collection
Document - Document - Syllabus, Education Department: Technical Schools Syllabus, 1921
... , Amperemeters, Resistance, Electrical Technology,..., Electromagnetism, Amperemeters, Resistance, Electrical Technology ...A syllabus for each subject taught in Technical Schools that was provided by the Education Department of Victoria. .1: Syllabus for Heat Engines - side 1, Grade 1; side 2, Grade 2 .2: Syllabus for Refrigeration - Grade 1 and Grade 2 on side 1. .3: Syllabus for Farm Irrigation and Irrigation Engineering - side one, Farm Irrigation; side 2, Irrigation Engineering. .4: Mechanics and Mechanics applied to Mining - 4 pages covering Mechanics (Applied) Grade 1, Grade 2, Mechanics (Applied) Structures, Grade 3, Mechanics (Applied) Machines, Grade 3; Mechanics Applied to Mining and Theoretical Mechanics .5: Syllabus for Mechanics and Heat - First Grade Mechanics students will be required to know the general principles and formulae of the science, apparatus used method of using and to verify formulae experimentally. Second Grade course includes all subjects for Grade 1 plus Newton's proof of the parallelogram of forces, rotation round fixed axis, laws of rotary motion of a body, resistance, harmonic motion, friction,impulsive forces, barometer corrections and Heat and thermodynamics. Third Grade students, an intimate knowledge of the courses for first and second grades plus remaining portions of thermodynamics. A special course for Evening Students in Mechanics and Heat outlined. .6: Syllabus for Electricity - covers the requirements for First Grade, Second Grade and Grade 3. Areas covered are Magnets and Magnetism, Electroscopes and Electrification, Electronic Fields, Voltaic Electricity, Measurement of Current, Electromagnetism, Amperemeters, Resistance, Electrical Technology,A5 size pages, typed. Some are doubled sided.education department victoria, technical schools, syllabus, 1921, heat engines, refrigeration, farm irrigation, irrigation engineering, mechanic, mechanics applied to mining, mechanics and heat, electricity -
Federation University Historical Collection
Book, Victoria Education Gazette and Teachers' Aid, 1911-1919, 1910-1919
... Primary Teacher's Course, Electricity, Electrical Technology... Primary Teacher's Course, Electricity, Electrical Technology ...Black hard covered book with red spine, holding Victorian Education Gazettes for one calendar year. .1) 1910 .2) 1912 .3) 1911 .4) 1914 .5) 1918 Images: Open Air Classroom Black Rock; Open Air Classroom, Jeetho, Gippsland; Open Air Nurses bedroom, Mildura; Gym at Canterbury School ; Babies and Nurses at Melbourne Foundling Hospital; Camp at Portland; Alexander Peacock Opens a Melbourne School; Unveiling Major Mitchell Memorial at Mt Arapiles; Agricultural Plot; School Interior; Swimming Drill; Graham Dux Prize Board; Bathing Place; Classroom with blackboard and pictures; Major Mitchell's Map; Melbourne, Derbyshire; Market Place Melbourne; The Blackwood; World War One Send-off at The Athenaeum; Scarsdale Old Boy's logo; Sloyd articles for the Field Hospital; World War One; Gifts for Transport to the Wharf; soldiers; ANZAC Day; ANZAC Day Medalion .5) 1915: Education Department's War Relief Fund, William Park obituary, Closer Settlement Act 1912, Agriculture, needlework, Swimming and Life Saving, explorers, Gregory Blaxland, Matthew Flinders, Composition, Geography, potatoes, onions, gardens, Needlework for Infants, Iona and Staffa, Trained Primary Teacher's Course, Electricity, Electrical Technology, hygiene, Arbour Day, Horticulture, Wattle Day, Bird Day, Technical Schools, Landing at Gaba Tepe, Evils of Alcohol, Old Boys of Scarsdale, Belgium, Teachers' College Images: The British at War, The Sonnet, History and Patriotism, Male Swimming Teachers Summer School at Geelong, Women Swimming Teachers at Port Fairy, Buln Buln State School, Burwood East State School, needlework plans, methods of Rescue and Resucitation. plan of the journey of Gregory Blaxland, Macquarie House, teachers killed (William Ross Hoggart, Stanley Robert Close, William Roy Hodgson, Campbell McDiarmid Peter, William Henry Dawkins, William Hugh Hamilton, Frederick McRae Neal, Vernon Brookes, Frank J. Olle, Alfred J. Collins, Ernest R. Fairlie, William J. McLaren, A.E. Smith, Thomas Patton, Francis W. Kemp, Frederick G. Hall, Rupert O. Hepburn, Woolston J. Govan), Frederick Harold Tubb VC, Botanic Gardens Red Gum, Shelter Pavillions, Head of Wheat, Australian Commonwealth Flag, Iona Cathedral, Drawing exercises, ANZAC Madallion, School Rolls of Honor .6) 1916 - Nature Study, war relief, school gardening, horticulture, singing class, geography of the war, School Rolls of Honour, Ponsonby Carew-Smyth, Astronomy, ANZAC Day, Empire Day, Arbor Day, "Some Suul of Goodness in Things Evil" by Frank Tate, War Relief Gardeners' League, ANZAC Day medallion, Solar System, Abolition of German Schools in Victoria, ANZAC Avenues, avenues of honour, Geography of the War: The West, War relief and handwork, Victorian State Schools Horticultural Society, Patrick Maloney obituary, formalin lamps, Victoria League of Victoria, Wonwondah East Roll of Honor Images - Teachers killed (John Clarke, A.C.H. Jackson, Alexander Robertson, Noel Gambetta, Ralp E. Leyland, Laurance J. Woodruff, Walter E. Cass, Percy D. Moncur, Thomas M. Carmichael, Edward G. Brain, Reginald N.F. Woods, George E. James, William Colvin, David Dobson, Stanley L. Robinson, Charles Allen, G.E. James, H.F. Curnow, Franl L. Cousins, James R. Thompson, Henry H. Campbell, George E. Read, Ernest D. Morshead, Wilfred S. Merlin, Henry R. Wright, George B. Webb, Noel Nicholas, David H. Thomas, Charles A. Levens, Thomas R. Fenner, John M. Daniell, P.J. Larkin, Ralph Smith, Philip Ormsby), school rolls of honour, Swimming Instructors at Queenscliff, The Southern Sky, Map of the North Sea and its Littorals, Easter School of Horticulture at Oakleigh, Map of the Eastern Front, Map of Mesopotamia, Map of the War Area in the Egyptian Campaign, leeches for the Melbourne Hospital .7) 1917 - Swimming and Life-Saving, Childre's FLower Day, Education Department's War Relief Fund, State War Council, Horticulture, Bird Day, Swimming, Growing Chicory at Cowes Images - Teachers killed during World War One (G.M. Nicholas, William C.W. Spencer, J.W.C. Profitt, Ivon C. Bromilow, John Colwell, Robert W. Campbell, Arthur P. Bourchier, Francid G. Houston, Claude N. Harrison, Edgar Williams, Leslie A. Stevens, Charles E. W. Chester, Stanley R. Green, Walter Baker, Arthur G. Scott, Harry L. Swinburne, Horace W. Brown, Arnold Bretherton, Edward W. Jenkins Aubrey Liddelow, Ewen A. Cameron, Edmund R. Lyall, John H. Martin, Harry Bell, Frank L. Nicholls, Melville R. Hughes, Edwin W. Hauser, Walter S. Filmer, Walter G. Barlow, Henry A. Donaldson, Edward H. Jones, Walter W. Raw, Alfred W. Dean, Wiliam Lea, Frederick G. Drury, J.T. Richards, Norman G. Pelton, Lance-Corporal Doran, Kenneth F. McKenzie, William F. Robertson, Wiliam Jarrott, Norman Graham, George G. Paul, Victor Green, Arthur William Rennie, Alfred J. Glendinning, Robert B. Liston, Eward P. Toll, George Jones, Errol E. Rodda, Christian P. Christensen, Charles F. Sydes, H.G. Clements, Norman C. Fricker, J.M. Romeo. Eric N. Lear, Thomas J. Bartley, Norval Birrell, Frederick H. Tubb. J.T. Hamilton Aram, Arthur Wilcock, William M. Conroy, Alex. H. Miller, Patrick J. Cunningham, Charles S. Mitchell, John R. Maddern, James Roadknight, Harry Arundel, Jack C. McKellar, duncan M. McKellar, George S. Manfield, Edgar C. Holmes, George A. Young, Raymond A. Gardiner, William B. Bell, William Opie, George R. Scott, Richard V.B. Vine, Herbery S. Marshall, Hugh St Omer Dentry, George B. Fullerton, Harry Oulton, Iva F. Morieson), School Honor Books, Drawing, Presentation of 30,000 pounds to the British Red Cross at Melbourne Town Hall .8) 1918 .9) 1919 - Photographs of World War One soldiers from the Education Department, Margaret Montgomery Memorial, 1918 Act relating to State School Teachers, State Scolarships, Victorian State Schools' Horticultural Society, Pneumonic Influenza, Spanish Flu, epedemic, swimming and life savinfJunior cadet training, vacancies in Fiji, School Committees, Arbor Day, Arbour Day, Henry Harding of Yinnar, Planting Trees and Shrubs, Juvenile Crime, The use of 'Get', Soldier-Teachers from Overseas in Congress London, Australia's Effort in the War, Military, Working Bees, Tree Planting, fence building, Welcoming Home a Returned Soldier, Avenue of Honour planting, Discipline, Unveiling an Honor Board, School gymnasium, school tennis court, E. E. Crogger grave at Aldershot, The School Honor Book. War Relief Fund, Commonwealth War Record, Caulfield Military Hosptial, ANZAC Day Pilgrimage, Jimmie Panikin, Donald Fraser, Arthur Mee, Card Sun Dial, Balboa Day in Honolulu, William Hamilton, Alfred Jackson, The Backward Child, Flies, Language Teaching and Learning, Spelling, The Education of the Adolescent, victorian education gazette, education gazette and teachers' aid, sloyd, william a. cavanagh, james i froebel, school, education, world war one, memorials, alfred williams, exploration and settlement, cadets, australian naval college, bernard o;dowd, birds, swimming, drawingempire league, eucalypts, paper in history, forestry, arbor day, identification of trees, forestrey museums, fiji, gravel hill school band, horticulture, hygiene, gould league of bird lovers, life saving, la perouse, bandin, j. holland, w. hamilton, charles sturt, principles of archimedes, james holland, william hamilton, scarsdale old boys' reunion, foundling home melbourne, montessori education, open air schools, james hughes, marie corelli, flinders sydney harbour, major mitchell's map, tooth brushing, r.h.s. bailey -
Federation University Historical Collection
Booklet, The 140th Anniversary of the School of Mines and Industries, Ballarat: University of Ballarat SMB Campus, 2010
Twenty two page Ballarat Courier supplement celebrating the 140th year since the establishment of the Ballarat School of Mines. Contents include a timeline; Ballarat School of Mines HIstory; Graeme Hood and Electrical Engineering; Australian War Artist Geoff Mainwaring, Prospects Training Restaurant; Ballarat Gaol, Gaol cells underneath the E.J. Tippett Library; Ghost tours; School of Business; Brewery Complex.ballarat school of mines, anniversary, 140th anniversary, smb campus, david battersby, timeline, trades, manufactuyring services, cindy brundell, graeme hood, electrical engineering, celtlink, geoff mainwaring, julia mainwaring, australian war artist, prospects training restaurant, li ji yuane, caitlyn murrell, joshua martin, ballarat gaol, ballarat gaol cells, eerie tours, ghost tours, nathanie buchanan, peter dyer, ben swanson, nikki green, dylan reece, matthew lewis, business services, betty collier, feduni college, ub tec, manutacturing technology training centre, mttc, brewery complex -
Blacksmith's Cottage and Forge
Wireless/ Radio, 1950 (estimated)
This unit was designed and manufactured in a factory where many local people of Bacchus Marsh worked. Ref. Historical Notes-Significance Assessment Study ( October 2008)Bakelite tabletop radio,small box,camel-coloured leatherette covered,glass front,three dials,electrical cord,4 vlave reflex super heterodyne, cord attached, incription on set reads "MARSHMAN MUSIC MASTER".Maker's mark in blue print "MARSHMAN MUSIC MASTER" (Inscription on the central area of the glass front of the unit) "BROADCAST" is printed in cream twice in the area of the radio Frequency Band listings.electrical, , bacchus marsh, bakelite, radiogram, bob butler, post war invention, leatherette, technology, 1950 s, small scale radio, heterodyne, cabinet radio, arbee supply c0, civilian radio, manufacturer s drawings, wiring layout, console model -
Flagstaff Hill Maritime Museum and Village
Domestic object - Can Opener, Bottle Opener & Corkscrew
It took 15 years to invent the can. It took 100 more to invent a standard way to open it. In the 19th century, decades after the invention of canning, there were virtually no can openers. Canned food, such as sardines, came with its own "key" to peel back the tin lid. Birth of the can One of the oddest things about the can opener is that the can predates it by almost 150 years. Though common today, cans were once military-grade technology. In 1795, Napoleon, to whom the phrase "an army marches on its stomach" is attributed, offered 12,000 francs to anyone who could find a way to preserve food. Without any knowledge of bacteria or their role in food spoilage, scientists didn't even know where to begin. It took 15 years before a chef named Nicholas Appert claimed the prize after successfully jarring food. Soon after that, his countryman Philippe de Girard came up with a variant on Appert's method—metal tins—and sold the idea to the British. Spoiled food, and the sickness it caused, was a widespread problem. The public would have benefited from canned food, but for decades cans were almost exclusively for the army and the navy. The canning process, with its hours of boiling and steaming, its scrupulous cleanliness, its heated metal, and its need for a great deal of disposable material, made canned food far too expensive for anyone but the military. No can openers were needed or even possible. The metal of early cans was too thick to make openers practical. Soldiers and sailors had plenty of sharp objects on hand and made ample use of them when they wanted to eat. During the 19th century, the process of canning was refined and mechanised, and the metal wall of the average can slimmed down enough that a civilian could get it open—if that civilian had the right tool. No one had that tool yet, so early cans had to open themselves. In other words, they came with built-in openers. The result was a confusing but pleasing free-for-all, in terms of product engineering. Each type of food came with its own kind of can, and each kind of can came with its own kind of opener. Tinned fish and meat were often sold in rectangular cans. These cans were fitted with a "key" that would roll down the top of the can. Coffee, beans, and other types of meat were packaged in cylinders with metal strips that could be peeled back with their own kinds of built-in keys. Cans of milk, which didn't need to be completely opened, came with puncture devices. As tinned food became more common, its containers became more regular. A nice cylindrical can became the norm, and, as these cans filled kitchens, more engineers put their minds to finding a convenient way to open all of them. The first standalone can opener worked on a simple principle: point, stab, and pull. From the mid-19th century to the end of World War I, the typical can opener looked roughly like a wrench, if the lower 'jaw' of the wrench were replaced with a blade. People used the blade to puncture the top of the can near its edge, push the upper jaw against the side of the can, and drag the blade through the metal along the rim. Because meat was the first and most popular canned substance, these can openers were often shaped to look like cows and given the nickname 'bully beef can openers'. The bully beef can opener, popular in the mid-19th century, resulted in many lost fingers. Later, a corkscrew was added that was seated in the handle, and could be pulled out for use. Bully beef can openers were so common, effective, and sturdy that they are still frequently available on collectors' sites. Some are advertised as “still working,” and every last one of them is, without a doubt, soaked in the blood of our ancestors. Dragging a sharp blade along the edge of a can is certain to cause injury sooner or later. So once people got a reliable can shape and a reliable way to get the can open, the search was on for a reliable way to get a can open without the possibility of losing a finger. The answer came in 1925, from the Star Can Opener Company of San Francisco. This is probably the first can opener that resembles the one people have in their kitchens today. Instead of using a blade to pry open a metal can, buyers could clamp the edge of the can between two wheels and twist the handle of one of the wheels to move the blade around the lip. The Star can openers weren't perfect. Compared to the bully beef model, they were flimsy and breakable, but they probably prevented a few injuries. Six short years after the Star model came to market, the first electric can opener was invented. It was patented in 1931 by the Bunker Clancey Company of Kansas City, who had already been sued by the Star Can Opener Company for trying sell a double-wheeled can opener like the Star model (the case was dismissed). The electric can opener must have seemed like the wave of the future and a sure-fire seller, but it proved to be too far ahead of its time. In 1931 not that many households had electricity, and those that did weren't interested in buying can openers. The Bunker Clancey Company was subsequently bought by the Rival Company, which still makes small appliances like can openers today. It took another 25 years for electrically powered can openers to become practical. In the 1950s, Walter Hess Bodle and his daughter, Elizabeth Bodle, developed an electric can opener in the family garage. Walter came up with the opener's blades and motor, and Elizabeth sculpted the outside. Their can opener was a free-standing unit that could sit on the kitchen counter. The Udico brand of the Union Die Casting Company put it on the market in time for Christmas in 1956 and had great success with it. Over the next few years it came out in different styles and colours, and, like the bully beef can opener, has become a collector's item. Also like the bully beef model, Udico can openers often still work. They don't make 'em like they used to. Although there have been some design changes and refinements over the last sixty years, there have yet to be any more leaps forward in can opener technology. If you're resentfully opening a can, you are almost certainly doing it using the Star design, manually forcing the can between two wheels, or the Bodle design, clamping the can into a free-standing electrical opener. Whether or not you enjoy your holiday meals, at least you can be happy that you are not getting poisoned by your own food or cutting open your hand with the blade you use to get at it. That's something, right?The can opener, Bottle opener and the corkscrew are still very important and essential items in most kitchens.Metal can opener, chromed, with bottle opener, and a corkscrew seated in the handle.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, canning, can opener, corkscrew, bottle opener, kitchen equipment -
Flagstaff Hill Maritime Museum and Village
Domestic object - Can Opener
It took 15 years to invent the can. It took 100 more to invent a standard way to open it. In the 19th century, decades after the invention of canning, there were virtually no can openers. Canned food, such as sardines, came with its own "key" to peel back the tin lid. Birth of the can One of the oddest things about the can opener is that the can predates it by almost 150 years. Though common today, cans were once military-grade technology. In 1795, Napoleon, to whom the phrase "an army marches on its stomach" is attributed, offered 12,000 francs to anyone who could find a way to preserve food. Without any knowledge of bacteria or their role in food spoilage, scientists didn't even know where to begin. It took 15 years before a chef named Nicholas Appert claimed the prize after successfully jarring food. Soon after that, his countryman Philippe de Girard came up with a variant on Appert's method—metal tins—and sold the idea to the British. Spoiled food, and the sickness it caused, was a widespread problem. The public would have benefited from canned food, but for decades cans were almost exclusively for the army and the navy. The canning process, with its hours of boiling and steaming, its scrupulous cleanliness, its heated metal, and its need for a great deal of disposable material, made canned food far too expensive for anyone but the military. No can openers were needed or even possible. The metal of early cans was too thick to make openers practical. Soldiers and sailors had plenty of sharp objects on hand and made ample use of them when they wanted to eat. During the 19th century, the process of canning was refined and mechanised, and the metal wall of the average can slimmed down enough that a civilian could get it open—if that civilian had the right tool. No one had that tool yet, so early cans had to open themselves. In other words, they came with built-in openers. The result was a confusing but pleasing free-for-all, in terms of product engineering. Each type of food came with its own kind of can, and each kind of can came with its own kind of opener. Tinned fish and meat were often sold in rectangular cans. These cans were fitted with a "key" that would roll down the top of the can. Coffee, beans, and other types of meat were packaged in cylinders with metal strips that could be peeled back with their own kinds of built-in keys. Cans of milk, which didn't need to be completely opened, came with puncture devices. As tinned food became more common, its containers became more regular. A nice cylindrical can became the norm, and, as these cans filled kitchens, more engineers put their minds to finding a convenient way to open all of them. The first standalone can opener worked on a simple principle: point, stab, and pull. From the mid-19th century to the end of World War I, the typical can opener looked roughly like a wrench, if the lower 'jaw' of the wrench were replaced with a blade. People used the blade to puncture the top of the can near its edge, push the upper jaw against the side of the can, and drag the blade through the metal along the rim. Because meat was the first and most popular canned substance, these can openers were often shaped to look like cows and given the nickname 'bully beef can openers'. The bully beef can opener, popular in the mid-19th century, resulted in many lost fingers. Bully beef can openers were so common, effective, and sturdy that they are still frequently available on collectors' sites. Some are advertised as “still working,” and every last one of them is, without a doubt, soaked in the blood of our ancestors. Dragging a sharp blade along the edge of a can is certain to cause injury sooner or later. So once people got a reliable can shape and a reliable way to get the can open, the search was on for a reliable way to get a can open without the possibility of losing a finger. The answer came in 1925, from the Star Can Opener Company of San Francisco. This is probably the first can opener that resembles the one people have in their kitchens today. Instead of using a blade to pry open a metal can, buyers could clamp the edge of the can between two wheels and twist the handle of one of the wheels to move the blade around the lip. The Star can openers weren't perfect. Compared to the bully beef model, they were flimsy and breakable, but they probably prevented a few injuries. Six short years after the Star model came to market, the first electric can opener was invented. It was patented in 1931 by the Bunker Clancey Company of Kansas City, who had already been sued by the Star Can Opener Company for trying sell a double-wheeled can opener like the Star model (the case was dismissed). The electric can opener must have seemed like the wave of the future and a sure-fire seller, but it proved to be too far ahead of its time. In 1931 not that many households had electricity, and those that did weren't interested in buying can openers. The Bunker Clancey Company was subsequently bought by the Rival Company, which still makes small appliances like can openers today. It took another 25 years for electrically powered can openers to become practical. In the 1950s, Walter Hess Bodle and his daughter, Elizabeth Bodle, developed an electric can opener in the family garage. Walter came up with the opener's blades and motor, and Elizabeth sculpted the outside. Their can opener was a free-standing unit that could sit on the kitchen counter. The Udico brand of the Union Die Casting Company put it on the market in time for Christmas in 1956 and had great success with it. Over the next few years it came out in different styles and colours, and, like the bully beef can opener, has become a collector's item. Also like the bully beef model, Udico can openers often still work. They don't make 'em like they used to. Although there have been some design changes and refinements over the last sixty years, there have yet to be any more leaps forward in can opener technology. If you're resentfully opening a can, you are almost certainly doing it using the Star design, manually forcing the can between two wheels, or the Bodle design, clamping the can into a free-standing electrical opener. Whether or not you enjoy your holiday meals, at least you can be happy that you are not getting poisoned by your own food or cutting open your hand with the blade you use to get at it. That's something, right?The can opener is still a very important and essential item in most kitchens.Can opener, right handed, metal, upper blade section serrated, inscription 'Peerless Pat.Feb 11-90'.Peerless Pat.Feb 11-90flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, cannning, can opener, kitchen equipment -
Kiewa Valley Historical Society
Meter AVO, circa 1930 to 1951
When this AVOMETER was being utilised in the early 1950's it was at the "leading" edge of electrical measuring instrumentation.The first meter was produced by Automatic Coil Winder and Electrical Equipment Co. in 1923. This model was produced in the time from 1933 to 1951 when it was superseded by the most popular model, Model 8 (1951 to 2008).This AVO meter brought the measuring of three electrical power indicators i.e., amps, volts and ohms into one measuring unit. By using a "one fits all" unit, the carrying of separate measuring devices was reduced considerably. The need for a mountainous and a large area of operational requirements, such as the SEC Vic Kiewa Hydro Electricity Scheme, to minimise the weight of equipment carried by electricians and technicians was of the utmost relevance. The significance of this meter to the Kiewa Valley region relates to the impact of modern technology (at that time) upon a mainly rural environment. This equipment shows how the boost of "modern" equipment into the area because of the "Hydro Scheme" was facilitated a lot faster than would have taken under "normal" evolutionary time. The speed of information on all "new technology" had a relatively slow assimilation rate to those living in rural communities. This AVOMETER is a Model 7 MKII, production pre 1951. This meter measures electrical Amps, Volts and Ohms and has two internal batteries for its power. The main casing is made from aluminium with a bake-lite front. The front has a "window" detailing, with a needle pointer, the amount of electrical power being tested. There are two big dial switches, detailing Direct Current(DC) and Alternating Current(AC) when reading measurements of Ampere, Voltage and Ohms for power. This meter took the place of three or four meters used earlier. Modern meters (2000 onwards) have become digilised and are considerably lighter in weight and smaller. There are two electrical connection leads (one black and one red) each has a removable clasp and is 125cm long.Molded on the front centre panel " UNIVERSAL AVOMETER". Below this and above the left hand dial "D.C. SWITCH" .Above the right hand switch the right "A.C. SWITCH". On the left of each switch is an arrow pointing to it.The left switch is marked with a "+" and the right one with a "-". There is a "divisional 2" mark. Between and below the dials is "CUT OUT" plunger.electrical meters, electrical equipment, sec vic., state electricity commission of victoria, mt beauty, bogong village -
Kiewa Valley Historical Society
Case Leather, circa mid to late 1900's
When this AVOMETER leather case was being utilised in the early 1950's it contained the "leading" edge of electrical measuring instrumentation.The first meter was produced by Automatic Coil Winder and Electrical Equipment Co. in 1923. This model was produced in the time from 1933 to 1951 when it was superseded by the most popular model, Model 8 (1951 to 2008).This leather case which holds its AVO Meter brought the measuring of three electrical power indicators i.e., amps, volts and ohms into one measuring unit. By using a "one fits all" unit, the carrying of separate measuring devices was reduced considerably. The need for a mountainous and a large area of operational requirements, such as the SEC Vic Kiewa Hydro Electricity Scheme, to minimise the weight of equipment carried by electricians and technicians was of the utmost relevance. The significance of this meter to the Kiewa Valley region relates to the impact of modern technology (at that time) upon a mainly rural environment. This equipment shows how the boost of "modern" equipment into the area because of the "Hydro Scheme" was facilitated a lot faster than would have taken under "normal" evolutionary time. The speed of information on all "new technology" had a relatively slow assimilation rate to those living in rural communities. The use of solid leather carrying bags for transporting equipment up and down the mountains provided some form of protection against bumps and dust.This carry case for its AVO meter has an outer leather covering with an inner thick cardboard liner. The case has two mild steel buckles but stitched onto one side but no lid to fasten down. The sides are stitched together with strong tick twine. On either side there are small strap holds. On the bottom are four large chromed metal lugs acting as feet to keep the bottom from lying flat on any floor. The outside bottom has been branded "SOLID COWHIDE"Between the front two buckles is a identification plate riveted onto the cowhide "STATE ELECTRICITY COMMISSION OF VICTORIA ELECTRICAL ENGINEERING SECTION"electrical meters, electrical equipment, sec vic., state electricity commission of victoria, mount beauty, bogong village