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Federation University Historical Collection
Book, Circluars of the Ballarat School of Mines, 1884-1887, 1884-1887
... mechanical committee... committee ballarat school of mines council mechanical committee ...Printed circulars of the Ballarat School of Mines pasted into a scrap book.ballarat school of mines, andrew berry, education committee, finanace committee, ballarat school of mines council, mechanical committee, administrative council -
Federation University Historical Collection
Document - Document - Presentation, VIOSH: Social History; Introduction to Sociology of Work and Technology Presentation, post 1997
Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Brief outline of the history of the development of VIOSH, and those responsible. They were Derek Viner (the initial Course Co-ordinator), Mr Tom Norwood (Head of the Mechanical Engineering Department), Mr Eric Wigglesworth (Chairman of the Education Committee of the Safety Institute of Australia) and Mr Zig Plavina (Technical Officer in the School of Engineering and Secretary of the Campus Safety Committee). Dr Dennis Else from the University of Aston, Birmingham arrived to establish the Victorian Institute of Occupational Safety and Health within the Engineering division of the University. Following the introductory speech, the talk gave information on the development, problems and theory of designing safe workplaces.One A4 page typed.viosh, victorian institute of occupational safety and health, social history, sociology, derek viner, course co-ordinator, tom norwood, head of mechanical engineering, eric wigglesworth, chairman, education committee of the safety institute of australia, zig plavina, technical officer, school of engineering, campus safety committee, university of aston, dennis else -
Federation University Historical Collection
Document - Document - Submission for Approval, VIOSH: Ballarat College of Advanced Education; Submission to the Victorian Institute of Colleges, 1978
Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Ballarat College of Advanced Education had been trying for approval of a PG1 Graduate Diploma in Occupational Hazard Management during 1976 and 1977. This last application was 1978. They were hoping to introduce it in 1979. Present at this meeting held on Tuesday 8th August 1978 were representatives from: EAC Subcommittee; W J Robertson (Convenor), Dr K B Brown (Medical Officer}, Dr A J Christophers (Chief Industrial Hygiene Officer, Dept of Health, E O'Keefe (Secretary to the Committee) Ballarat CAE Course Advisory Committee; W Jinkins (Safety Engineer, Gas & Fuel), E Wigglesworth (Injury Research Unit, Royal College of Surgeons) Ballarat College of Advanced Education; D J Woolley (Head of School of Engineering), T D Norwood (Head of Dept Mechanical Engineering), D Viner (Course Co-ordinator}, G Fernandez (School of Business} Recommendation that the proposed course for the award of PG1 Graduate Diploma in Occupational Hazard Management at Ballarat College of Advanced Education be approved for introduction in 1979 at first year level. This still needs approval from the Tertiary Education Commission for the purposes of the expenditure of funds under the provision of the State Government.Ten A4 pages - typed. Four correspondence and six the Draft of course for the applicationLetterhead of Victoria Institute of Colleges and the Prime Minister, Canberra Signature: R I Viner - Minister assisting the Prime MInister in Public Service Matters Elizabeth O'Keefe - Secretary to the Academic Committee in Engineering, V.I.C.viosh, victorian institute of occupational safety and health, ballarat college of advanced education, pg1, graduate diploma in occupational hazard management, minister assisting prime minister, r i viner, elizabeth o'keefe, victoria institute of colleges, vic academic committee, w j robertson, k b brown, a j christophers, bcae advisory committee, w jinkins, e wigglesworth, bcad staff, d j woolley, t d norwood, d b viner, g fernandez, royal australian college of surgeons, department of health, gas and fuel corporation, medical officer olympic tyres, school of engineering, mechanical engineering, school of business, tertiary education committee, state government, state grants -
Federation University Historical Collection
Letter - Correspondence, James Oddie, Statement from James Oddie, 09/06/1886
James Oddie was Vice-President of the Ballarat School of Mines in 1886.Blue, lined, foolscap paper from Ballarat School of Mines Logo. It is handwritten by James Oddie for the Ballarat School of Mine Council and is in regards to the duties of Professor Ferdinand Krause."The Vice-President submits the following statement for consideration by the Council: - On Tuesday 1st June between 2 and 3 o'clock in the afternoon I called on Professor Krause and requested him to prepare plans and sections with a view to the erection of furnaces, machinery, and appliances which the committee appointed by Council had resolved upon obtained for the School. Mr Krause at once refused, urging that this work was outside his duties, but that he would be willing to undertake it if allowed a remuneration of 5% which was 2 1/2 % less than a professional engineer would charge. He took exception to a paragraph that appeared in the "Ballarat Star" of the 28th May which referred to the visit and inspection of the Honorary Staff or mechanical engineers on the day previous. He further stated that he was not going to be a shoeblack to these persons and his language and manner was generally offensive and insubordinate. The progress of the work is thus considerably delayed. James Oddie"ballarat school of mines, oddie, krause, mining, furnace, james oddie, ferdinand krause -
Flagstaff Hill Maritime Museum and Village
Vehicle - Tip Dray, Prior to 1930s
A Dray is a type of dead axle wagon that was used to transport heavy loads or objects. They had a flat level floor and while some had no sides, others had box bodies and sides. Tip Drays (also known as Tip Carts, Muck Cart, Scotch Cart, Tumbrel or Putt in different parts of England) were smaller than other drays as their loads were heavy and usually only pulled by one horse. Their basic design included two wheels, a tipping body and shafts. The Tip Dray has a unique mechanism that allows the top to tip backwards to tip the load out of the back of the dray. The tipper was activated by a handle at the front allowing the driver to operate it while still having control over the horse. A Tip Dray was an indispensable piece of equipment in the days before tractors and mechanical trucks. They were used by farmers and carters to transport hay, rocks, bricks, gravel and rubbish etc. and because they were useful for dumping loads, they were favoured for use in road and railway construction. A photo in the collection of the Lorne Historical Society shows a tipping dray being used during the construction of the Great Ocean Road. They were part of the daily street traffic in towns and cities around Australia from the early days of settlement. In Australia in the early 1900's, carters began to join unions to protect their jobs and pay. N.S.W. had a "Trolley, Draymen and Carters Union", Queensland had a "Tip Dray Men's Association" and in W. A. the "Top Dray Driver's Union" had a "cessation of work" in 1911 when they were fighting for an increase in their day's wages. In 1910 a meeting of Tip Carters was held in Geelong at the Trades Hall to discuss the formation of a union (The Geelong Tip Dray Carters) which was a success and a schedule of rates for all carting, whether by contract or day labor, was fixed. By 1912 they had "labelled" more than 50 drays and had representatives on the "Trades Hall and Eight Hours Committee". By the mid 1930's and early 1940's, tip drays were being superseded by mechanical trucks and utes. However tip drays continued to be used in some circumstances. They were a practical solution to the problem of petrol rationing during W. W. 2. It was noted in a letter to the editor in the "Sunshine Advocate" in 1938 that a positive argument for continued use of Tip Drays for rubbish collection related to the idea that a horse drawn vehicle involved with lots of stops and starts at different houses (very like a milkman's delivery route) often involved the horse "driving itself" while the driver picked up the rubbish - something a motor truck was unable to do! Another article written in August 1935 and published in the Age in a parliamentary report into the rubber industry noted "tip drays had almost disappeared and in their place, metal was carted in 5 ton motor trucks" but the report went on to say that as a part of the Government relief work (during the Great Depression) the Government had "to some extent reintroduced the tip drays so that a greater number of men would be employed". This particular tip dray was owned by Mr. Oswald (Jack) Bourke. He used it to deliver dry goods from Sunbury to the Queen Victoria Market in Melbourne several times a week in the 1930's and then (between 1945 and 1962) Mr. Bourke used it on the garbage round in Springvale Victoria for the Springvale Council. The Council owned three drays and the "No. 3" painted on this dray is in recognition of its original number. After the death of Mr. Bourke in 1990, one of Mr. Bourke's sons (Andy) found the dray in a shed and restored it. The sign writing on the back and side panels were added during the restoration. This Tipping Dray is a significant example of a horse drawn vehicle that was used by workers from the early days of white settlement through to the 1940's and even into the early 1960's. It was used in a range of "working class" occupations - road construction, railway construction, carting goods, rubbish collection etc. and would have been found in cities, country towns and on farms.A wooden and metal tipping dray with a box body and four sides. It has two iron and wooden wheels (with 14 spokes), two wooden shafts and a metal tipping mechanism. The back panel folds down to allow loads to be dumped out. It is painted in green and cream with sign writing on one of the sides and on the front and back panels. It features decorative painted lines and designs in burgundy, cream and light blue on most of the wooden parts. The tipping mechanism is on the front of the dray's left side and consists of a metal pin secured with a metal ring, and a lever.Front of dray - "No. 3" Side of dray - "A. & M. BOURKE / Contractors / LONGWARRY" Back of dray - "G.T. ANDREWS / QUEEN VICTORIA MARKET - Stand C23 / Phone DANDENONG 225"flagstaff hill maritime museum and village, warrnambool, shipwreck coast, tipping dray, dray, tip dray, tip cart, vehicles, horse drawn vehicle, springvale council, jack bourke, muck cart, scotch cart, tumbrel, putt, box body, oswald bourke, sunbury, queen victoria market, melbourne, no. 3 -
National Wool Museum
Book, Automated mechanical shearing: predevelopment feasibility analysis
"Automated mechanical shearing: predevelopment feasibility analysis"- Wool Harvesting Unit, Australian Wool Corporation, 1983shearing sheep stations - management agriculture - industrial relations animal welfare woolclassing wool marketing, australian wool board - wool harvesting research committee, wool clip contamination, shearing, sheep stations - management, agriculture - industrial relations, animal welfare, woolclassing, wool marketing -
Wodonga & District Historical Society Inc
Book - Mud Sweat and Snow: Memories of Snowy Workers 1949-1959, Noel Gough, 1994
This book tells the human story of the first decade of building the great Snowy Mountains Hydro-Electric Scheme, with adventures and anecdotes told by the workers themselves, and illustrated with unusual photographs. Appendices give further information about the project and list the workers named in Snowy records. The author began his 10 years with the Electrical and Mechanical Division at the age of 20. The construction of the Snowy Mountains Hydro-electric Scheme is a well-documented part of our nation’s history and a leading example of Australian innovation and ingenuity. As far back as the 1880s, Australians had been considering diverting water from some of Australia’s best-known rivers – the Murray, Murrumbidgee, Snowy and Tumut – to drought-proof parts of NSW and Victoria. It was not until 1944 that Commonwealth and State governments formed a committee to examine the development of water resources in the Snowy Mountains area. As a result of their work, on 7 July 1949, the Commonwealth Parliament passed legislation to establish a Statutory Authority and start construction of the Snowy Scheme. NSW. Construction was completed in 1974 at a total cost of $820 million. On completion, the Scheme consisted of seven power stations, 16 major dams, 80 kilometres of aqueducts and 145 kilometres of interconnected tunnels.non-fictionThis book tells the human story of the first decade of building the great Snowy Mountains Hydro-Electric Scheme, with adventures and anecdotes told by the workers themselves, and illustrated with unusual photographs. Appendices give further information about the project and list the workers named in Snowy records. The author began his 10 years with the Electrical and Mechanical Division at the age of 20. The construction of the Snowy Mountains Hydro-electric Scheme is a well-documented part of our nation’s history and a leading example of Australian innovation and ingenuity. As far back as the 1880s, Australians had been considering diverting water from some of Australia’s best-known rivers – the Murray, Murrumbidgee, Snowy and Tumut – to drought-proof parts of NSW and Victoria. It was not until 1944 that Commonwealth and State governments formed a committee to examine the development of water resources in the Snowy Mountains area. As a result of their work, on 7 July 1949, the Commonwealth Parliament passed legislation to establish a Statutory Authority and start construction of the Snowy Scheme. NSW. Construction was completed in 1974 at a total cost of $820 million. On completion, the Scheme consisted of seven power stations, 16 major dams, 80 kilometres of aqueducts and 145 kilometres of interconnected tunnels.snowy mountains hydro-electric scheme, hydroelectric power plants, snowy mountains -
Clunes Museum
Book, CAMBRIDGE PRESS, BENDIGO et al, GREATER THAN GOLD, 1985
A HISTORY OF AGRICULTURE IN THE BENDIGO DISTRICT FROM 1835 TO 1985COVER HAS GREEN BACK GROUND WITH GHOSTED POPPET HEAD IMAGE BEHIND A FULL COLOUR IMAGE OF A MECHANICAL HARVESTER IN A FIELD OF GRAINnon-fictionA HISTORY OF AGRICULTURE IN THE BENDIGO DISTRICT FROM 1835 TO 1985history of agriculture, historical field days committee -
Falls Creek Historical Society
Letter - FCTAMC Building Regulation (A) General Earthmoving (B), 10.05.1963
Bob (Herman) Hymans (a former member of the Royal Netherlands Navy) was born in Bloemendaal, Holland on 30th September 1922. During World War II he fought against the Japanese in the Dutch East Indies (now Indonesia) and was imprisoned in Changi and on the Burma Railway. After gaining qualifications as a Ski Instructor, Bob arrived in Falls Creek in July 1950. Working as an Instructor and Supervisor at Bogong Lodge, Bob decided his future was in accommodation. He was successful in negotiating an indenture for land from the State Electricity Commission (SEC). It took Bob two years to build his Grand Coeur Chalet but, tragically, it was burned down in August 1961. Bob also built the first Chairlift in Australia. This was a single chairlift and the structure was built from wooden electricity poles. He was constantly full of new ideas and proposals for the village. Bob Hymans died on 7th July 2007. This Collection of documents and letters tells the story of Bob's endeavours to develop Falls Creek into the ski village it is today.This letter is significant because it reflects the relationship between Bob Hymans and the Management Committee.A handwritten letter from Bob Hymans to the Falls Creek Tourist Area Management Committee requesting permission to use mechanical earth moving equipment to did trenches for sewerage disposal.falls creek tourist area management committee, bob hymans, falls creek administration