Showing 14 items matching basic science
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Moorabbin Air Museum
Book (Item) - Aircraft Basic Science - Northrop Aeronautical Institute
... Aircraft Basic Science - Northrop Aeronautical Institute ...Aircraft Basic Science - Northrop Aeronautical Institute ... First Street Moorabbin melbourne Aircraft Basic Science ... -
Moorabbin Air Museum
Manual (item) - Basic Science For Aerospace Vehicles 3rd edition
... Basic Science For Aerospace Vehicles 3rd edition...Basic Science For Aerospace Vehicles 3rd edition... First Street Moorabbin melbourne Basic Science For Aerospace ... -
Moorabbin Air Museum
Manual (Item) - Aircraft Basic Science and Maintenance & Repair - Northrop
... Aircraft Basic Science and Maintenance & Repair - Northrop...Aircraft Basic Science and Maintenance & Repair - Northrop...Aircraft Basic Science and Maintenance & Repair - Northrop ... -
Moorabbin Air Museum
Manual (Item) - Aircraft Basic Science
... Aircraft Basic Science... First Street Moorabbin melbourne Aircraft Basic Science Manual ...Description: 200 pages. Published by Air Ministry - RAF. Published June 1940. AP.830 Vol. II. Storage and Packing - Equipment Regulation Volume 2 for RAF Level of Importance: World. Author: Hugh C. Aument, Jr -
Moorabbin Air Museum
Book, Northrop Institute of Technology, Basic Science for Aerospace Vehicles, 1963
... Basic Science for Aerospace Vehicles... First Street Moorabbin melbourne Book Basic Science ... -
Rutherglen Historical Society
Book, J & D Burrows, Energy Australia, 1974
... Basic Science... books Basic Science J & D Burrows ...A soft covered book of 64 pages, produced for the education of school children about the practical aspects of energy from the Australian perspective. Book citation from TROVE: Murray, Peter R & Rosier, Malcolm & Vulcan Industries Limited (1974). Energy Australia. J. & D. Burrows [for] Vulcan Industries Limited, Blackburn, Vic energy, education, school books, basic science -
Federation University Historical Collection
Booklet, Leader Printing Works, The Castlemaine Technical School and Trade Workshops Prospectus 1919, For Engineering, Trade and Art Students, 1919
... equip all Students in the full basic principles of Science... in the full basic principles of Science, Engineering or Art: and from ...Used at Ballarat School of Mines and Industries Ballarat. The objectives of the Castlemaine School and Trade Workshops is "to fully equip all Students in the full basic principles of Science, Engineering or Art: and from an establishment of such, to then specialise in the various branches of the same; hence it affords opportunity for investigation into Chemistry, Metallurgy, and the various avenues of Engineering Science and Art."Brown soft covered booklet with 36 pages and information on office bearers, teaching staff, objects of the school, information for parents, courses, subjects and fees.castlemaine technical school, castlemaine, technical school, prospectus, trade workshops, w.v. dam, m.t. fogarty, a.d. freeman, w. corlett, t.h. mccreery, a. verey, j. bennett, a.c. elvish, colonel j.w.b. field, reverend f.a. hagenauer, j. lowry, h.s.w. lawson, j.w.c. short, h.t. govett, j. stell, s.s. graves, f.w. adams, c.w. steiner, geo chaster, c.w. joy, e.r. lewis, s.j. ellis, e. dann, t.t. wells, j. robertson, v. henderson, f.a. moran, f. barry, j. colbert, h. payne, schools of mines, principal, registrar, science, engineering, art, chemistry, metallurgy -
Federation University Historical Collection
Equipment - Scientific Instruments, Quickfit Chemistry Set: basic set of 9 items
Collected from the chemistry laboratory at School of Mines. The was being dismantled due to the cutbacks in funding to TAFE and science was no longer being taught. The Quickfit Chemistry Set was the most popular set for schools, colleges and universities. There are nine basic items. It allows the construction of at least eight combinations by adding sections together. A labelled diagram included in the box. Included in the box is a BRANNAN 76mm Immersion Glass Thermometer. These are also used in beer and wine making.Solid cardboard box with molded insert for glass instruments.Model No. 27BU/Mchemistry, ballarat school of minestafe, quickfit chemistry set, schools, colleges, universities, thermometer, brannan, immersion thermometer, scientific instrument -
Federation University Historical Collection
Computer, Mutlitech Industrial Corporation, Micro-Professor MPF-IP and manuals, 1983 (estimated)
The Micro-Professor I Plus (MPF-IP) was a low cost, versatile microcomputer system featuring sophisticated software and hardware capabilities. (MPF-IP) boasted a display panel with the ability to display 20 characters using 16-segment fonts. All 64 standard ASCII characters could be displayed. The operation of the MPF-IP was controlled by an 8k monitor program which resides in the Read Only Memory (ROM). The monitor, aided by 4k Random Access Memory (RAM), enabled the user to enter a comprehensive set of single keystroke commands, making it easier for the user to use the CPU, memory and I/0 devices. This allowed the user to concentrate of microprocessor software development and application design. The system allowed printing at 48 lines per minute, and the ability to permanently record the commands, data, programs, status and other messaged. Each character printed by the printer is in a 5 by 7 dot matrix. Although the prime purpose of the programming was for machine language object code formed as hexadecimal numbers, the Micro-Professor has an embedded Tiny Basic interpreter for which formation of some of the alpha characters using a standard 7 segment display was ingenious. The program memory consisted of non volatile 2 kilobytes electrically programmable ROM whilst the Random Access Memory came with 2 kilobytes of static RAM but could be upgraded to 4 kilobytes by insertion of another chip. The entire memory space of 64 kilobytes was accessible by way of the terminals on the left hand side of the board. Engineering and Science students from the Ballarat School of Mines and the Ballarat College of Advanced Education used a class set (as they were relatively inexpensive at approx. $100 each) during the mid to late 1980s. Student were encouraged to borrow the Micro-Professors in order to assist in learning how to use them. Only one was ever not returned on time. When pressed to return the device the student confessed that his dog had chewed the plastic case. This is still in our collection complete with bite marks! The Micro-Professor used a Zilog Z80 microprocessor. This was the most powerful of the 8 bit microprocessors at the time. Zilog was derived from the Intel 8080 microprocessor. The Z80 had 158 instructions of which the Intel 78 instructions were a subset. The Intel processor continued on through development in the IBM computers as 8086, 80286, 80386, 80486 and later the pentiums. Zilog lost most of its market share when it developed the 16 bit Z8000 microprocessor. Although the microprocessor was excellent, the lack of peripherals caused users to abandon Zilog products. A brown and gold plastic box containing a microcomputer for use in classrooms. Four manuals are titled 'Micro-Professor MPF-IP user's Manual', 'MPF-I Experiment Manual (Software/Hardware)', Micro-professor MPF-IP experiment Manual (Software/Hardware)' and Micro-Professor MPF-I Monitor Program Source Listing.microcomputer, micro computer, micro professor, electronics -
Flagstaff Hill Maritime Museum and Village
Domestic object - Knife
From the early days of our race, the knife represented one of the first and most important tools that enabled rise of our technology, military, culture, science and all other things that brought us to this point of modern civilisation. As a vital tool for survival, combat, construction and food preparation, the knife quickly became the most basic tool from which all others were born. In those ancient times, 500,000 years ago, sharpened stones started slowly evolving, becoming more and more like their modern counterpart. Before the time when fire enabled the melting of the various metals, and forging them into modern knives, their stone counterparts received several visual upgrades. Double bladed knives were most popular, and their wooden or stone hilts were decorated with animal skins and feathers. Those knives represented a great deal of pride for the warriors and elders who owned them, and that tradition continued to be practised with the arrival of the Bronze Age. The appearance of metallurgy brought the ability to create knives from softer types of metal. Even though knives from bronze did not provide durability over longer periods of time [easily dulled, and susceptible to corrosion), their sharpness and slim designed proved to be superior to any stone knife tool. As the centuries went on, iron and then steel became commonplace across the entire world. Knives created from those materials were much more durable and easier to maintain their sharpness after prolonged use. During medieval times in Europe, steel metallurgy managed to evolve knives from small single or double-bladed edges to larger sizes - swords, spears and axes. Even with all those advancements, the use of knives as an eating utensil continued to be used in some small circles. Even as early as the 15th century, wealthy circles of people started carrying personal knives, intended for double use - both eating and defending against threats. During those times the host were not obliged to provide their guest with any kind of eating utensil in addition to plates, so wealthy males used their eating knives for cutting their own meals, and the meals of nearby female guests. Slim double-bladed knives were good for cutting and piercing foods. As the use of forks became widespread in the whole of Europe by the late 17th century, most people used this kind of small knife on a regular basis (a combination of two knives, one for stabilising and other for cutting the meal). http://www.eatingutensils.net/history-of-cutlery/knife-history/The knife is one of the most important items that has enabled the development of civilisation over thousands of years.Carving knife with wooden handle and rusted slender metal blade.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, knife, kitchen equipment, dining -
Moorabbin Air Museum
Manual (item) - Aircraft Maintenance Text 3, Practical Science Part 2: Basic Electricity Department of Transport
... Practical Science Part 2: Basic Electricity Department of... Manual Practical Science Part 2: Basic Electricity Department ... -
Victorian Aboriginal Corporation for Languages
Book, Australian Science and Technology Heritage Centre, Online heritage resource manager manual 2000, 2000
This manual documents the basic structures and functions of the Online Heritage Resource Manual.manuals, heritage, research -
Moorabbin Air Museum
Book (Item) - Department of Transport Australia - Aircraft Maintenance Text 3 - Practical Science Part 2 - Basic Electricity
... Text 3 - Practical Science Part 2 - Basic Electricity... Maintenance Text 3 - Practical Science Part 2 - Basic Electricity ... -
Federation University Art Collection
Artwork, other - Ceramic mural, John Gilbert, 'Enigmatic Land' by John Gilbert, 1973
ENIMATIC LAND OF BIRDS THAT SING FLOWERS FROMS SEEDS THAT SPRING OF REPTILES AND FISHES CREATURES FROM THE BEGINNING SUN AND MAN AND SCIENCE THE SYMBOLS THAT SILENTLY BUILD AND CHANGE IN COOL AND WARM YOU ARE THERE AND HERE OF YESTERDAY NOW THE SPLITTING EARTH MURAL BY JOHN GILBERT 1973John GILBERT (1935- ) Born Albury, New South Wales John Gilbert worked as a teacher while completing a Certificate of Art at the Technical College in Marlborough, before moving to Ballarat in 1958. He studied at the Ballarat Technical Art School, a division of the Ballarat School of Mines (1960-1961) receiving a Diploma of Art; and Croydon College of Art, London. Gilbert was a Senior Lecturer at the Ballarat Institute of Advanced Education (now Federation University) Art Department until his retirement in the late 1970s. In John Gilbert's Mount Helen studio he produced work marked with an incised 'Gilbert'. He had acquired a concern for form and an interest in sculpture from his teacher Neville Bunning, and from the British potter Hans Coper, whom he visited in 1968. He established two potteries in Ballarat , the Edinburgh Pottery (1972-2005) located within the Sovereign Hill precinct, and the Old Ballarat Pottery (1973-1994) located in the Old Ballarat Village opposite Sovereign Hill. This item is part of the Federation University Art Collection. The Art Collection features over 2000 works and was listed as a 'Ballarat Treasure' in 2007.A large ceramic mural by John Gilbert commissioned for the wall of the E.J. Barker Library. The mural features brown and green glaze with features of indigo. The work has no particular pictorial representation. It is an arrangement of colour and form, designed for enjoyment rather than to analyse. The theme relates to the development of the Universe through basic symbols such as plant forms, fish, birds and to mans development through symbols of science and engineering. The outer edge is symbolic of earths crust being peeled away to reveal science and nature. The mural depicts the changing of seasons from Winter to Summer (left to right). The mural was completed at John Gilbert's Slate Gallery studio, Mount Helen, and took eight months to make.gilbert, artwork, john gilbert, art, ballarat school of mines, mural, ballarat institute of advanced education, ballarat pottery, ceramics, old ballarat pottery, edinburgh pottery