Metal statue of a figure holding a baby. Figure and baby take the form of stick figures, with thin metal bodies and hexagonal bolts for their heads. The larger figure is holding the baby by ankles in its right hand, dangling the baby head down in front of its torso. Sticker on underside of base of statue reads 'Handcrafted/By/ROCK CREEK/METAL CRAFT/P.O Box 39/Hansen, Idaho 83334/USA'.

Flour has been produced for centuries by grinding a variety of grains to make flour. In the early years of the Retsel Corporation established 1962, their designers carried out research which convinced them that grinding of flour between slow turning stones produced a better quality of flour. They continue to market grain mills similar to this item. The black knob on the side allows for the distance between the stones to be adjusted so that flour of varying coarseness can be milled. Grain mills such as this were used widely throughout the Wodonga district in the late 20th Century and have had a resurgence in many areas.This item is significant because it is representative of domestic appliances used in the Wodonga district.A grain mill made from metal with two grinding stones. The small black knob on the side enables the distance between stones to be adjusted. Each foot has holes to allow the mill to be screwed to a bench for added stability. The long handle is used to turned to drive the machine. The large funnel is set into a hole on the top of the mill to hold grain. Another bowl would be placed underneath the outlet at the bottom to catch the flour.On handle and circular disc: RETSEL CORPORATION McCAMMON IDAHO 83250domestic appliances, grain mills

The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line).Blue hard-covered book of 460 pages. Chapters include Properties of Fluids, intensity of Pressure, Hydrostatic Pressure of Areas, Dams, Kinematics of fluid Flow, Dynamics of Fluid Flow, Applications of Hydrokinetics, Friction Losses in Pipes, Flow Through Pipes, Uniform Flow in Open Channels. Nonuniform Flow in Open Channels, Unsteady Flow, Dynamic Forces, Description of the Impulse Wheel, Theory of the Impulse Wheel, water Power Plants, centrifugal Pump and more.Inside Front Cover "Charles Bacon, Mackay school of Mines Reno, Nevada."charles bacon, mining engineering, metallurgy, university of nevada, mackay school of mines

The book was published for the use of personnel of the army, navy, marine corps and coast guard. The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line).Blue soft covered book of 607 pages. Chapters include electrical Algebra, fundamentals of Electricity, Wiring, Magnetism, Armature Wiring, Generators, Motors, Controllers, Geometry and Trigonometry, Alternating Current, AC Circuits, Transformers, Polyphase Systems, Alternators, Induction Motors, Stator Winding, Multi-Speed Induction Motors, AC Controllers, electrical instruments, Electron Tubes, Welding Systems, Welding Systems, electrical Drawings. charles bacon, mining engineering, metallurgy, university of nevada, armed forces, world war 2

The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line). Robert Peele was Professor Emeritus of mining Engineering at the School of Mines, Columbia University.Maroon hardcovered books. .1) Volume 1 - Chapters include Mineralogy, Geology and Mineral Deposits, Earth Excavation, Explosives, Rock Excavation, Tunneling, Shaft Sinking in Rock, Shaft sinking in Unstable and Waterbearing Ground, Boring, Underground Transport, Mine Ventilation. .2) Volume 2 - Chapers include Compressed Air Practice, Electric Power for mine Service, Surveying,Underground Surveying, Mine Geologic Maps and models, Cost of mining, Mining Laws, Ore sampling, Assaying, Aerial Tramways and Cableways, Gold Amalgamation and Cyanidation, etc.Inside front cover "Charles Bacon"charles bacon, mining engineering, mining, engineering, university of nevada, mackay school of mines, explosives, timbering

Galena occurs in a range of deposit contexts, often in metalliferous veins, such as Broken Hill, Australia; Coeur d’Alene, Idaho, United States.; Clausthal Zellerfeld, Germany; and Cornwall, England. Large deposits also replace limestone, dolomite, or occasionally organic matter, or have a contact-metamorphic origin. Galena is additionally found in cavities, brecciated (fractured) zones in limestone and chert, and in coal beds. This specimen was recovered from Broken Hill NSW and is 60% lead with 8-12 oz/silver to the ton.Galena or 'lead glance' is a grey lead sulfide and the chief ore mineral of lead. It forms isometric crystals in which the ionic lattice is similar to sodium chloride. Galena is brittle and easily weathers to secondary lead minerals, with the upper part of mineral deposits often containing cerussite, anglesite, and pyromorphite. It usually contains silver, which is mined along with its lead content. Other commercially important minerals that form in close association with galena are antimony, copper, and zinc. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A small-sized solid specimen containing one mineral with a sparkly silver metallic lustre exterior and pastel-grey interior.geological specimen, geology, geology collection, burke museum, beechworth, galena, lead sulphide, alfred selwyn, broken hill

The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line). William Emmons was Professor and head of Geology and Mineralogy at the University of Minnesota; Director of Minnesota geological Survey; and previously Geologist, Section of Metalliferous Deposits, United States Geological Survey.Maroon soft covered book of 529 pages. Chapters include Magmatic Segregations, Pegmatities, Hypothermal Deposits, Sedimentary Depostis, Openings in Rocks, Metasomatic Processes, Mineral Associations and more.Inside front cover "Charles Bacon 1940 Lincoln Hall Ass. University of Nevada Reno, Nevada"charles bacon, mining engineering, metallurgy, university of nevada, mackay school of mines, geology, california

The sport of skiing was revolutionized with a technical innovation from Ed Scott. His invention of the first tapered aluminium ski pole immediately replaced the sport's existing use of bamboo and steel. One of Ed Scott’s key associates was Charley French, a former aeronautical engineer who began working with him in Sun Valley, Idaho, USA in 1970. The first project that tackled together was to improve the design of ski boots. From there they progressed to ski goggles. This led to the design of goggles for motorcross. For Charley a natural progression led to the development of the aerodynamic handlebar and mountain bike suspension systems. In 1997, the SCOTT company introduced a technical winter sport apparel line and in 1998 was also producing skis. In 2009 their new Crusair quickly became the benchmark ski for the freeride mountaineering market. SCOTT continue to be innovators for the development of sports equipment and their designs are often worn by champions in skiing, cycling and athletics. These boots were donated by Julian Newton Brown. Stickers were attached to advertise his lodge at Falls Creek. The boots were lightweight allowing a lot of ankle flex, and good support when turning due to stiff cuffs. This type of boot was popular with free skiers.These boots are significant because they demonstrate a stage in the evolving technology of designs for the ski sport industry and also bear the sticker of Julian's Lodge, an iconic business in Falls Creek, Victoria.Lime green plastic, single clip racing boot.Sticker on front of both boots: Julian's Lodgeski equipment, ski boot design, scott ski products, julian's lodge, julian newton brown

Blue hard covered books. .2) Volume III Irrrigation Structures and Distrubution Systemirrigation, water canals, tunnels, flumes, pipes, concrete pipes, wrought iron and steel pipes, wooden pipes, california, diversion works, weirs, spillways, canals, check gates, railroad crossing, america, united states of america, university of california, yellowstone river, colorado, arizona, windlass hoist, twin falls, idaho, arkansas valley, truckee-carson, salmon river, umatilla, cippoletti weir box

The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line). The Mackay School of Mines, Nevada was established in 1908. At the time of writing this mook T.J. Hoover was Professor of Mining and Metallurgy and Dean of the School of Engineering at Stanford University. Theodore Jesse Hoover, brother of the 31st President of the United States, was born in West Branch, Iowa, on January 28, 1871. He attended Stanford and received the Bachelor of Arts degree in Geology and Mining in 1901. Following graduation his professional career started with the position of assayer for the Keystone Consolidated Mining Company. After one year, he became assistant manager for the Standard Consolidated Mine, and a year later he was promoted to manager of the operation. In 1907 Hoover went to London as general manager of Minerals Separation, Ltd. This company was developing the froth flotation process for recovering minerals from ores. Hoover took an active part in the development of the flotation concentration process and authored one of the first books on the concentration of ores by flotation. After four years with Minerals Separation, Ltd., Hoover entered private practice as a consulting mining and metallurgical engineer with offices in London and in San Francisco. He was very successful and held positions of consulting engineer, managing director, director, and president of many mining companies in America, Europe, Asia, Africa, and Australia. He returned to Stanford in 1919 as Professor of Mining and Metallurgy and Executive Head of the Department of Mining and Metallurgy. His experience and ability in organization made him a natural leader. He was influential in the formation of the School of Engineering at Stanford. The School was formed in 1925 and he was made dean, a position he held until his retirement in 1936. As dean of engineering, he promoted a broad fundamental training program for undergraduate engineering students. Under his guidance, emphasis was placed upon graduate work and he was responsible for developing strong graduate engineering curricula at Stanford. While dean he continued teaching and his course, "The Economics of Mining," developed into a book which was published in 1933. He became interested in the functions of engineers and, with Professor Fish, wrote a book entitled "The Engineering Profession" which was published in 1940 and revised in 1950. In addition to his academic activities he was generous in his hospitality. Faculty and students alike enjoyed the annual field day and barbecue at his Rancho del Oso, near Santa Cruz. He was widely read and had a lively interest in all the things he encountered. He speculated on the antiquity of man and man's early production processes. To verify an idea regarding flint tools, he studied their shapes and became proficient in making arrow heads. He was also interested in wild life, and was one of the founding members of the Cooper Ornithological Society. (http://engineering.stanford.edu/about/bio-hoover) Blue hard covered book of 547 pages including an index. Contents include mine valuation (sampling, ore deposits, ore reserves, financial provisions, sale of mineral product, metal prices, reports) and Mining Organization (Co-operative effort, Mining Companies, Promoting Mining Enterprises, fluctuations of share prices, valuation of mining shares, fakes and fallacies, the mining Engineer and the law) and Mine Management (Organization of staff, mine manager, efficiency, industrial relations, training and discipline, safety). Inside front cover 'Charles Bacon Mackay School of Mines"charles bacon, mining engineering, metallurgy, university of nevada, mackay school of mines, stanford, bacon, mining, economics, divining, theodore hoover