When the fabric is removed from the loom it is often stiff, rough and uneven. There are a number of finishing processes, both mechanical and chemical that give wool fabrics their special look and feel. The fabric is often scoured again to remove oils and dirt picked up during manufacture. It is then pressed. For a soft and fluffy surface, the fabric is brushed. For a smooth surface, it is shorn. For centuries, machines similar to this teasle gig were used to finish fabrics. It uses the prickly flower head off the teasle plant (Dispsacus Fullonum) to do the delicate work to raise the surface, or nap, the woollen cloth. At least 1,500 teasle heads are needed for one gig. The teasel is a thistle like plant whose dried heads are used on the teasel gig. They are fixed to frames around the drum, or gig. The gig turns in the opposite direction to the flow of the cloth until the nap is raised. Also spelled as Teazel Gig.Large metal machine with wooden rollers and teasel covered drum.textile finishing, raising, raising machinery, teasel gig, fabric, wool processing, plants, thistle, drum

John Lundy-Clarke grew up in the Kalorama/Mt Dandenong area and later in life (1972-74) began to write a comprehensive history of the district working from an original settlement map in an effort to cover all areas. Alan Price was the son of Edward John Price and Myra (nee Wilson) Price. He had a brother Edward Joseph 2nd (Teddie). Alan and Teddie were the grandsons of early settlers Edward Joseph and Annie (nee Ross) Price. Alan Price worked at his brother's depot in Ringwood, in charge of mechanical equipment. He rode to and from work on his motorbike. Alan was killed in a motorbike accident on his way home from work in 1971. Alan married Patricia Guerin in 1960. They had five daughters and one son. The family had a house on part of Lot 5 facing Mt Dandenong Road.Black and white close up of man in suit and tie. Reverse of photograph has handwritten description by John Lundy-Clarke. Alan Price 1969. Son of Edward John Price and Myra nee Wilson. alan price, patricia guerin, edward joseph (teddie) price, edward john price, myra price, myra wilson, edward joseph price, annie price, annie ross, kalorama, accident

An aneroid barometer is an instrument used for measuring air pressure as a method that does not involve liquid. Invented in 1844 by French scientist Lucien Vidi, the aneroid barometer uses a small, flexible metal box called an aneroid cell (capsule), which is made from an alloy of beryllium and copper. The evacuated capsule (or usually several capsules, stacked to add up their movements) is prevented from collapsing by a strong spring. Small changes in external air pressure cause the cell to expand or contract. This expansion and contraction drives mechanical levers such that the tiny movements of the capsule are amplified and displayed on the face of the aneroid barometer. Many models include a manually set needle which is used to mark the current measurement so a change can be seen. This type of barometer is common in homes and in recreational boats. It is also used in meteorology, mostly in barographs and as a pressure instrument in radiosondes.5 inch Aneroid barometer on wooden basebarometer, aneroid

Michael Turner born in 1934 is a British painter and illustrator specialising in motoring and aviation paintings. After leaving school he attended Art College followed by National Service with the Royal Electrical and Mechanical Engineers for 2 years. On leaving National Service he worked with a London advertising studio before turning freelance in1957. The Bristol Blenheim depicted in the painting was a British light bomber used extensively for 2 years of the Second World War. It was powered by a pair of Bristol Mercury V111 air cooled radial engines capable of developing 860 bhp. armament was a combination of Vickers, Browning and Lewis machine guns in .303 ( 7.7mm ). A 1000lb (450kg ) could be carried in the internal bomb bay in the centre section of the fuselage. The 114 Squadron was a Squadron of the British Royal Air Force formed in India during the First World War. The Squadron was disbanded in 1971.Large wooden framed painting of an RAF WW2 bomber in flight.Below the painting is the wording " A 114 Squadron Blenheim 1V on a low level bombing run over the power station at Knapsack Cologne, in August 1941 - donated by Laurie Pillar".

Used to clear scrub and undergrowth and to trim branches during seed collection. Manufactured by Martindale of Birmingham (England) - being Ralph Martindale and Company Limited. Established in England in 1874, the company is a manufacturer of hand tools, particularly machetes made from hot-rolled British steel. The three grooves on either side of the blade assist in removing the blade from sapwood. They extend to the tang of the blade to form a mechanical lock with the handle. The handles are made from German beech wood. The British Bolo style machete was the one most commonly used by the Australian Army during WW2. A canvas scabbard was issued with the machete. The scabbard has brass reinforcement of the throat and seven brass rivets holding the longitudinal closure. On the reverse of the scabbard is a webbing belt loop with an extension and loop with a brass press-stud to hold the machete handle They were acquired by the Forests Commission as Army surplus. Steel-bladed machete with wooden handle held by three brass rivetsforests commission victoria (fcv), hand tools

This prospectus contains the history of Leahy's electrical . The objectives of this company were to allow expansion of the present business ( est,1946) , to take advantage of the excellent corner site and to modernise the building and carry all heavy duty electrical and mechanical lines for commercial users and farmers.Attached was a hire car services which operated as Leahy's Hire cars. The service of the the previous business commenced in 1946 at 82 Fairy Street and grew to employ up to 25 tradesmen. However the assets of the business were lost May1, 1950 when building stock and plant was destroyed by fire.In October 1950 Mr leahy purchased the freehold on the corner of Liebig and Koroit Streets Warrnambool The directors of the new company were John James Leahy, John Beynon Dwyer, William John Taggart Walter, William James Croft, Martin White and James Albert Affleck. They aimed to raise 50000 pounds with 100000 shares at ten shillings each. This document shows the beginnings of one of Warrnambool's most successful 20th century companies. It lists the people associated with it from its inception many of whom were and are well known in the district. It therefore has strong social and historical significance.Cream soft card cover with dark blue text. It is stapled together and contains 6 pages on cream paper with black text.back cover is plain.Prospectus of Leahy's Electrical Industries Ltd Warrnambool Vic, 19th April 1951.warrnambool, j j leahy, jim leahy, leahy's electrical industries, prospectus leahy's electrical industries 1951

A butter churn is a device used to convert cream into butter. This is done through a mechanical process, frequently via a pole inserted through the lid of the churn, or via a crank used to turn a rotating device inside the churn. The use of butter is mentioned in biblical works and the earliest butter churn vessels belonging to Beersheba culture in Israel were found in Bir Abu Matar going back to Chalcolithic period between 6500–5500 BC. The butter churn in Europe may have existed as early as the 6th century AD, In the European tradition, the butter churn was primarily a device used by women, and the churning of butter was an essential responsibility along with other household chores. In earlier traditions of butter making, nomadic cultures placed milk in skin bags and produced butter either by shaking the bag manually, or possibly by attaching the bag to a pack animal, and producing butter simply through the movement of the animal. An item used to make butter in a domestic situation by turning a handle until the cream inside has turned to butter.Butter churn, wooden, lid pieces screwed or nailed together. Brass bearing on side with iron turning handle.Handle marked 28204 no other marks to indicate manufacturer or date of productionflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, churn, butter churn, wooden churn, butter making, food, dairy, kitchen utensil

Sport and available playing areas were important and every effort was made to provide this for the students when they moved into the new building in 1921. The terraces leading down from the gaol wall were terraced and clearing areas of rubble to provide playing areas for football and cricket was done by the students. In November 1922, a tennis court was opened in the Battery Paddock. It was designed by Syd Chambers and constructed by Les Waller, former students of the Ballarat School of Mines. A new tennis court was built and opened in 1934, in the same area. This photograph is of the 1938 Tennis Team - Ballarat Junior Technical School. The boys standing are L to R: D. Eltringham and J. Burt. Seated on the left is W. Rowe and W. Edwards on the right. They are with Mr J. Hosie - staff member 1938-41. Donald Eltringham was Dux of the school in 1938. He obtained a Diploma in Electrical Engineering and Mechanical Engineering from the School of Mines Ballarat - 1944/47A formal group of four boys in tennis outfits with racquets and one adult male.Photographer's stamp embossed on front with rubber stamp on back "Richards & Cc - photographers - Ballarat. In pencil - "Jun Tech" and "1938"tennis court, battery paddock, syd chambers, les waller, ballarat school of mines, 1938 tennis team, ballarat junior technical school, eltringham, burt, rowe, edwards, j. hosie, electrical engineering, mechanical engineering

The design of this and other similar treadle powered dental engine (or dentist drill) was in common use by dentists from the 1870’s into the 1920's. When electricity became accessible to most communities the electrically powered dental engines began to take over from the treadle power. Over the ages teeth were extracted using picks and scissors and other gouging instruments. Bow drills, hand drills and even a "bur thimble" drill were later used to prepare cavities for filling. Some drills were made bendable by attaching flexible shanks between the metal bur and the handle, giving access to the teeth at the back of the mouth. Other mechanical devices were introduced along the way, such as clockwork drills, but they were hard to handle and inefficient. Over the centuries “dentistry has been performed by priests, monks and other healers. This was followed by barbers; the barber’s chair may well have been the precursor to the dental chair. “(SA Medical Heritage Society Inc.) In 1871 James Morrison patented the first commercially manufactured 'foot treadle dental engine', the first practica dental engine although others had been introduced as early as 1790 (by John Greenwood). Handmade steel burs or drills were introduced for dental handpieces, taking advantage of the significant increase in the speed of the drill. In 1891 the first machine-made steel burs were in use. The treadle drill reduced the time to prepare a cavity from hours to less than ten minutes. In 1876 the Samuel S. White Catalogue of Dentist Instruments listed a 12 ½ inch wheel diameter dental engine, with 14 bright steel parts, for sale at US $55 In today’s market, this is the equivalent to US $1200 approx. The specifications of that dental engine are very similar to the this one in our Flagstaff Hill Maritime Village’s collection. It is interesting to note that workings of a similar treadle dentist drill were used and modified to power a treadle spinning wheel of one of the volunteer spinners at Flagstaff Hill Maritime Village. The foot treadle dental engine was a milestone in dental history. “Historic importance of treadle powered machines; they made use of human power in an optimal way” (Lowtech Magazine “Short history of early pedal powered machines”) The invention of a machine to speed up the process of excavation of a tooth lead to the invention of new burs and drills for the handpieces, improving speed and the surgical process of dentistry. They were the fore-runner of today’s electrically powered dental engines. This treadle-powered dentist drill, or dentist engine, is made of iron and steel and provides power for a mechanical dental hand-piece that would be fitted with a dental tool. The drill has a three footed cast iron base, one foot being longer than the other two. A vertical C shaped frame is joined into the centre of the base, holding an axle that has a driving-wheel (or flywheel) and connecting to a crank. A slender, shoulder height post, made from telescoping pipes, joins into the top of this frame and is height adjusted by a hand tightened screw with a round knob. On the post just above the frame is a short metal, horizontal bar (to hold the hand-piece when it is not in use). A narrow tubular arm is attached to the top of the stand at a right angle and can move up and down. At the end of the arm is a firmly fixed, flexible rubber hose protected for a short distance by a sheath of thin metal. At the end of the hose there is a fitting where the drill’s hand-piece would be attached; a small, silver coloured alligator clip is also at the end. A treadle, or foot pedal, is hinged to the heel to the long foot of the base, and joined at the toe to the crank that turns the driving-wheel. There is a spring under the toe of the treadle. The metal driving-wheel has a wide rim. Touching the inside of the rim are four tubular rings that bulge towards the outside of the driving-wheel, away from the pole, and all meet at the hub of the axle. The axle is bulbous between the inside of the driving-wheel and the frame then passes through the frame and is attached on the other side. The driving-wheel has a groove around which a belt would sit. The belt would also fit around a pulley on the arm, at the top of the post. The pulley is joined to a rod inside the arm and this spins the drill's hand-piece and dental tool holder. The two shorter feet of the base are made from a long metal bar that has been curved outwards, and its centre is bolted to the base of the pole. Under the ends of the curved legs of the base are wedge shaped feet. The driving-wheel is decorated in light coloured paint on both sides, each side having three sets of floral decals evenly spaced around them, and each about a sixth of the wheel's circumference. Similar decoration is along the sides of the frame. The foot pedal has decorative cutout patterns in the centre of the foot and at the toe. On the long foot of the stand is some lettering with a fine, light coloured border around it. The lettering is hard to read, being a dark colour and flaking off. There are also remnants of fine, light coloured flourishes. The foot pedal has lettering of the maker’s trade mark cast into the metal at the ball of the foot. Lettering on the base is peeling and difficult to read. The foot pedal has a trade mark cast into it that looks like a combination of ‘C’ , ‘S’ , ‘A’, ‘R’. flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, dentist, teeth, dental drill, dental engine, treadle drill, foot powered drill, treadle engine, orthodontics, dental surgery, james morrison

The Olivetti company was founded in Italy in 1908.This particular typewriter is a Olivetti Lettera 22, oblique front stroke and portable manufactured after 1950. The 1950s and 1960s was a time when British manufactured goods were still purchased by many Australian consumers. The later 1960s onwards, there was a shift, mainly in the cities, to European made goods. The invasion of Japanese manufactured goods was relatively slower, especially in rural areas. The demand for long lasted and dependable merchandise was in the rural area still the most important criteria. The ease of setting up this typewriter and its compact mobility was its major benefit to trades people and travelling professionals, e.g. rural doctors, other medical professionals, accountants, lawyers and educators. This item facilitated the growing numbers of professional nomads requiring a relatively light office stationery package e.g. travelling novelist, writer, businessman and academics. This typewriter needed no electrical or battery power to operate it. Outback Australia, where at this point in time, was still relatively isolated from a good available electrical power reticulation and battery power, and therefore could not be totally measured as a highly efficient office environment.Although this typewriter was purchased from a business in Penrith, Sydney, N.S.W., it is significant that it travelled easily to the Kiewa Valley, demonstrating the mobility of certain sections of the community. This typewriter was designed by an Italian industrial designer, Marcello Nizzoli, in line with the art deco style of the 1930s and the colour and flexibility of the vibrant 1950s. The underlying theme of manufacturing in the 1950s was to produce equipment that was more efficient than what was inherited from the earlier period of 20th century. Improvements were made to this Olivetti typewriter by Giuseppe Beccio by reducing the number of parts made from 3,000 to 2,000. This reduction of parts and therefore cost of production was the major principle of the Japanese manufacturing juggernauts of the post World War II era. Efficiency and low costs material was becoming prime factors in the success of rural industries from the 1960s. Competition from overseas producers was starting to affect rural industries and the removal of the large range of tariff protection, especially rural products, required not only a shift of farm management but a more efficient cost savings modus operandi. This Olivetti Lettera 22, oblique front stroke portable (weighs 4kg) mechanical typewriter has a coral coloured plastic casing. The keys are made of black hardened plastic with white lettering, numbers and symbols (imperial fractions, and pound). It has a QWERTY keyboard as opposed to the Italian QZERTY. It has a lever to move the ribbon between black, neutral (for mimeograph stencils)and red colours (a red key is provided for highlighting specific words,letters or symbols) . This machine is fitted with only a black ribbon. It has a black rubber paper rollers and chromed metal parts on the carriage way. It has four rubber feet underneath the main body. On the left side of the roller there is a lever to adjust the roller from fixed (when mobile) through 1,2 and 3 line space gradients. This model has a key for zero but not one for the number one (uppercase letter l is used) see KVHS 0459 for the carrying bag.On the cover over the ribbon wheels letter strikers has a plate marked "Lettera 22" and the back plate behind the paper roller and in front of the paper supports has a silver metal label marked "olivetti made in great britain".commercial, mobile office equipment, mechanical typewriter

Charcoal grey soft covered booklet with views of the Michigan College of Mines. * General View * Hubbell Hall * Mechanical Engineering Building * Mining and Metallurgy Buildings, with Stamp Mill in the Distance * Chemistry Building * College Club and Gymnasium Building * Architects Sketch of Library and Museum Building * Metallurgy Building * Mining Engineering Building * Assaying Course G1 * General Chemistry Course F1 * Inspecting Drill Operations * Mineralogy - COurses W1 and W2 * Railroad Surveying - Course Q1 * Field Geology * Reporting on Power PLants at Tamarack No. 5 Hoist * Sketching Ore Pockets * Pattern Shop * Physics Course * Underground in Champion Mine * QUalitative Chemistry * Field Surveying * Ore Dressing * HYdraulics Course * Machine Shop * Palaeontology and Historical Geology * Just Up from Lake Angeline Mine, Ishpeming Mineralogical Museum * Gymnasium, College Club Building * Lounging Room of College Club Buildingmichigan college of mines, school of mines, michigan, houghton, michigan, f.w. mcnair, united states of america, schools of mines, michigan school of mines

Black & White Photograph by the TMSV Sales of a former grip car being transport on a jinker, pulled by three horses. Photo - Victoria Ave at the corner of Beaconsfield Pde - with the Bleak House Hotel in the background. Advised by Mal Rowe. From an email from Robert Green, 19-08-2021 - advised "The Herald of 10 May 1935, p.4 has the following little paragraph : Cable Tram Tableau Entitled “Transport Cavalcade”: Horse-laughs - real ones – were heard today when a team of horses, drawing a lorry upon which was a dis-used cable tram dummy sporting “Collins Street” upon the front and “South Melb Beach” at the rear, passed along Swanston Street. Neddy’s superiority complex at seeing out these early manifestations of our mechanical age was heightened when the front wheel of a nearby motor-truck fell off." Image has been reproduced from a movie - Commuting by Cable?Has the TMSV Sales stamp on rear.trams, tramways, cable trams, grip tram, beaconsfield parade, albert park

A hammer is a tool with a heavy head and a handle, often made of shock-absorbent wood or fiberglass that is used to strike an object. The most common uses for hammers are to drive nails, fit parts, forge metal, and break apart objects. Hammers vary in shape, size, and structure, depending on their uses. Hammers are basic tools in many trades. A hammer is composed of a head most often made of steel and a handle also called a helve or haft. Most hammers are hand tools. A traditional hand-held hammer consists of a separate head and a handle, fastened together by means of a special wedge made for the purpose, or by glue, or both. This two-piece design is often used, to combine a dense metallic striking head with a non-metallic mechanical-shock-absorbing handle -to reduce user fatigue from repeated strikes. If wood is used for the handle, it is often hickory or ash, which are tough and long-lasting materials that can dissipate shock waves from the hammer head. A well used hammer with wooden handle and steel headpioneers, early settlers, market gardeners, moorabbin, brighton, cheltenham, tools, craftsman, carpenters, blacksmiths, builders, woodwork,

This linesman belt was used under the 1947 Electricity Regulations and before tighter Occupation and Health regulations (late 1990's early 2000's) were introduced that mechanical lifting platforms(wherever possible) replaced the belt up the pole method.The safety concern was that it required that tools needed by the linesman had to be placed in a large canvas bag and attached to the belt (extra weight) then the linesman had to climb the ladder. Ladders had to be at the correct angle and not able to "slip" from their initial footings. A full harness and a secondary fall belt is now mandatory for pole linesmen. The safety of fellow workers could be compromised if they were required to assist or recover the first linesman if needed. In 2006 an additional 269 registered lineworkers were employed. Please note that the terminology of linesman has become unisex. The linesman's belt enabled the linesman to place his feet against the pole adjust the belt (if needed) and lean back securely allowing both hands to be free to work with. This linesman belt is very significant to the Kiewa Valley due to the numerous poles and high voltage overhead power structures that needed maintenance for the extensive "mushroom" installation of electrical power polls(wood and metal). On high poles (steel) climbing pegs were welded on, however in the Alpine areas snow in winter caused an OH&S problem which were hard to overcome. The safety of a linesman when maintenance of electricity line on poles can be highlighted by the New Zealand linesman who survived an 11,000 volt shock when carrying out maintenance. For the record 11,000 volts is four times more powerful than execution by "the electric chair". The maintenance of the linesman's belt was his responsibility (keeping it clean and in "good" condition). Labour laws change this initial responsibility, from the linesman, to the employer. Climbing pegs were installed on higher poles that extended beyond the reach of ladders.This thick leather linesman belt is made from two lengths of heavy lengths of leather straps sewn together to make up 80% of the belt. The remaining 20% is "the belt tonge" which has eleven holes for three (solid steel tang) buckle connections.kiewa hydro electricity scheme, victorian state electricity commission, relays, generators, electrical pole maintenance

The school bell has been used in various forms for several centuries. In Australia and the UK it was often a hand bell, located on the teacher's desk in a small school. In larger schools it was positioned in a central area, and one bell was used to signal to all classrooms. In North America it was more usual to find a large bell on a stand located in a central area of the school where it could be heard by everyone throughout the premises. More recently, the school bell has become wall located, and electrically activated, using a mechanical timing apparatus. Now the same bell is computer programmed and activated, although there are many older bells still in operation. The school bell was rung at the beginning at the school day, often to summon students to the morning assembly in larger schools. It was then rung throughout the day to signal the start and end of specific lesson periods, the beginning and end of school morning and afternoon breaks, the lunch period, and the end of the school day, no doubt eagerly awaited by many students! The school bell was used as a timing device in schools to signal the start and end of specific activities.Bell brass with heavy metal square shaped base and wooden handle-hand held, Kel(?)her Melbourne on the topInscribed on the metal at the top of the bell are the letters "Kel(?)her Melbourne" flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, bell, school, lessons

The School of Mines Ballaarat. Annual Report 1883. Statement of Receipts and expenditure, general balance sheet, and list of subscriptions donations 1882. Sketch of School of Mines. Sketch Section from Lal Lal to the Moorabool (looking north) Geological map of Lal Lal. In the County of Grant. Annual Report, Balance Sheet, Certificates granted by the Council, Examination Papers - Elementary Science Classes (Appendix), Extracts from Visitors' Book, Fees, Form of Bequest, Honorary Correspondents. Life Governors, Museum - open to visitors, Notes on the Geology of Lal Lal (with Geological Plan & Sections), Obituary, Office Bearers, Paper of Particulars, Rules of the Ballaarat Field Club and Science Society (Appendix), Report of the Curator of the Museum and Library, Report of the Superintendent of Laboratories, Report of the Lecturer in Mathematics, Report of the Lecturer in Mechanical Engineering, Report of the Lecturer in Telegraphy, Report of the Lecturer in Materia Medica, Statement of Receipts and Expenditure for the year 1882, Subjects and Lectures, Subjects and Examiners, Subscriptions and Donations, from 1st January to 31st December 1882.Ballaarat School of Mines annual Report. Hard cover red book of 101 pages. Includes plans on Lal Lal and surrounds. ballarat school of mines, annual report, balance sheet, certificates granted by the council, examination papers, extracts from the visitors' book, fees, form of bequest, honorary correspondents, life governors, museum, notes on the geology of lal lal, obituary: charles william thomas. one of the examiners in mining and surveying, office bearers, paper of particulars, rules of the ballaarat field club and science society, report of the curator of the museum and library, report of the superintendent of laboratories, report of the lecturer in mathematics, report of the lecturer in mechanical engineering, report of the lecturer in telegraphy, report of the lecturer in materia medica, statement of receipts and expenditure for the year 1882, subjects and lectures, subjects and examiners, subcriptions and donations, from 1st january to 31st december 1882, alf. mica smith, professor of chemistry, alf. mica smith, metallurgy, f. m. krause - professor of geology, mineralogy, scientific mining, t. h. thompson, practical mining, w. h. shaw mechanical engineering, h. reid, mechanical enginnering, phoenix foundry company (limited), a. a. buley, mathematics, f. m. krause, land, mining and engineering surveying, w. d. campbell, telegraphy, james oddie, vice-president, alf. mica smith, natural philosophy (elementary mechanics and hydrostatics, magnetism and electricty, sound, light and heat), j. f. usher, materia medica, pharmacy and physiology, examiner, professor h. m. andrew, m. a., examiner, h. d. de la poer wall, m. a, c. e., examiner, thomas mann, b. a., examiner, p. c. fitzpatrick, c. s., examiner, h. rosale, j.p., f.g.s, m.e. and m, examiner, john lewis, examiner, w. c. kernot, m.a., c.e., examiner, professor mccoy, examiner, j. cosmo newbery, c.m.g., b. sc., examiner, baron von mueller, k.c.m.g., m. et ph. d., f. r.s., examiner, sam. w. macgowan, examiner, w. p. bechervaise, examiner, r. l. j. ellery, f.r.s. govt. astronomer, examiner, f. m. krause, c.e., examiner, j. m. bickett, examiner, n. kent, examiner, a. martin, examiner, r. s. mitchell, examiner, w. h. keast, examiner, p. matthews, examiner, d. milliken, examiner, j. t. richards, examiner, jonathan robinson, examiner, t. h. thompson, examiner, h. brookes allen, m.d., examiner, joseph bosisto, examiner, c. r. blackett, m.l.a., examiner, wm. johnson, analyst to the government of victoria, ferdinand krause, ballarat field naturalists club, ferdinand von mueller, thomas mann, a.a. buley, ferrdinand krause, alfred mica smith, james oddie, william johnson, jonathan robinson, james bickett, r.l.j. ellery, cosmo newbery, ballarat field naturalists

George Reed was a draftsman who lived in Bentleigh , City of Moorabbin in mid 20th C and used this pencil for his work. Eversharp is an American brand of writing implements founded by Charles Rood Keeran in 1913 and marketed by Keeran & Co., based in Chicago. Keeran commercialised Eversharp mechanical pencils (manufactured by two companies, Heath and Wahl) then expanding to fountain pens when the company was acquired by the Wahl Adding Machine Co. in 1916 and it was named "Wahl-Eversharp". In 1941 the company renamed itself, this time as Eversharp. The company continued until 1957 when it was acquired by Parker Pen, which continued to use the Eversharp brand for a time. In 1993 Parker was purchased by the Gillette Company, which already owned the 'Paper Mate' brand - the best-selling disposable ballpoint pen. In 2000 Gillette sold its writing instruments division to the company Newell Rubbermaid, USA, and In 2011 the Parker factory at Newhaven, East Sussex, England, was closed, and its production transferred to Nantes, France.An 'Eversharp' propelling pencil manufactured prior to to the development of the ball point penA gold plated propelling pencil c1941engraved : G. . Reed Made in Eversharpwriting implements, pencils, pens , propelling pencil, fountain pen, biro, ballpoint pen, keeran & company chicago, parker pen pty ltd, gillette pty ltd, eversharp, paper mate, bic pty ltd,

The GE12 Electric Kettle was designed by Barry Hudson for General Electric and in 1978 won the Australian Design and the Prince Philip Prize awards for Australian Design. The kettle was innovative in many ways; it was an early example of an all plastic electric kettle with a single-handed opening-spout. According to design historian Ian Wong ‘The use of an integral hinge for the spout opening mechanism utilised the unique live hinge property of polypropylene, now common but at the time a novel use and very efficient to manufacture.’ The kettle was available in Carpentaria Orange, Blaze Yellow and Lime Green with a contrasting base. Barry Hudson (1935-2008) studied Mechanical Engineering at the Melbourne Technical College (MTC). In the 1970s he was Research and Development Manager at General Electric, and he also worked with the industrial design practice Rosenfeldt, Gherardin and Associates. He established Barry Hudson Industrial Design in the 1980s and began a teaching career at the former MTC, now known as RMIT University. Ann Carew, 2020 1978 the Kettle won an Australian Design Award and the Prince Philip Prize for Australian Design.Orange and brown electric kettlekettle, industrial design, rmit university, domestic appliances

BY THE time the FJ Holden was replaced with the FE in July 1956, Australia’s own had taken many steps forward. The six-volt electrics were replaced with a 12-volt set-up, the two-piece windscreen was replaced with a single curved item and the skinny 15in rims were replaced with 13x4.5 steelies. Unlike the FX-FJ, the FE was designed locally by an Australian team. The resulting car was much sleeker than the earlier models, being two inches longer in the wheelbase, four inches longer overall and slightly heavier than its predecessor. To compensate, the 132ci grey motor was blessed with another small dose of horsepower thanks to larger valves and improved cylinder heads. Other mechanical improvements included pendulum-style brake and clutch pedals, hydraulic clutch actuation, larger brake drums and recirculating ball (rather than worm and sector) steering. Other great leaps forward included optional heater, indicators, reversing lights, windscreen washers and demister. In knocked down form was the first model to be exported to New ZealandBlack painted special sedan. Added accessories include exterior sun visor, headlight protectors, and on the interior grab handle mounted across the back of the front seatDiecast special sedan badge on rear quarters. Number plate club permit 63450 Hfe special, holden, sedan, car

Mark Cowley Lidwill was awarded an Honorary Fellowship in 1954 after his retirement to honour his working life.Mark Cowley Lidwill was born in England in 1878. His family moved to Melbourne in 1894. Lidwill studied medicine at the University of Melbourne, graduating with honours in 1902 and achieving a Doctorate in Medicine (MD) in 1905. Soon after graduation he moved to Sydney and in 1913 was appointed as the first lecturer in anaesthetics at the Royal Prince Alfred Hospital. That year Lidwill became the first person in the world to catch a black marlin with rod and reel. The event was celebrated in newspapers throughout the country and the marlin skeleton is now on display at the Australia Museum. Lidwill was also the designer of a machine which could deliver anaesthesia mechanically. Compact and portable, the machine delivered precise, although variable, concentrations of ether. Lidwill is also credited with developing the world’s first pacemaker. In a letter he wrote to Harry Daly in 1955, Lidwill was ambivalent about the fate of the machine: “No one would be bothered with it and they thought I was mad”.Printed certificate from the Faculty of Anaesthetists of the Royal Australasian College of Surgeons (RACS) awarded to Mark Cowley Lidwill as an Honorary Fellowship. Printed in black ink at the top of the certificate is the RACS coat of arms. The certificate is dated 26 June 1954 and has been signed by Harold R Dew, President of the College, and other members of the executive.mark cowley lidwill, faculty of anaesthetists, honorary fellowship, royal australasian college of surgeons, cardiology, pacemaker, royal prince alfred hospital, doctorate in medicine

The Ballarat School of Mines Annual Report 1893. Annual Report, Examination Papers, Associateship of The School of Mines, Syllabus for Technical Schools, Crown Grant, Affiliation Statute, Certificates Granted by the Council, Clunes Branch Report, Departmental Expenditure, Fees, Form of Bequest, General Balance Sheet and Liabilities and Assets, Honorary Correspondents, Life Governors, Meteorological Observations, Number of Students attended The School of Mines, Office Bearers, Practical Treatment of Ores, Report of the Professor of Mineralogy and Geology and Curator of the Museum, Report of the Superintendent of Laboratories, Report of the Lecturer on Engineering and Surveying, Report of the Lecturer on Mathematics, Report of the Lecturer in Mechanical Drawing, Machine Construction and Design, Report of the Lecturer on Electrical Engineering and Telegraphy, Report of the Lecturer on Botany, Report of the Lecturer on Biology, Pharmacy, Materia Medica, Report on Mining Laboratory, Examinations Held, Scale of Charges for Assays and Analyses, Statement of Receipts and Expenditure for the year 1892 and Special Trust Funds, Statistics - Students attending Lectures, Subjects and Lecturers, Subjects and Examiners, Subscriptions and Donations from 1st January to 31st December 1892, Syllabus of Lecture Courses6188: The Ballarat School of Mines Industries and Science Calendar and Annual Report, 1893. Red soft cover is browning around the edges, spine is tattered, 156 pages. 6188.2: Red soft covered booklet of 26 pages, Office Copyballarat school of mines, annual report, andrew anderson j.p. - president, f. j. martell - vice president, r. denham pinnock - vice president, rivett henry bland - trustee, the hon. sir w. j. clarke - trustee, the hon. john warrington rogers - trustee, james oddie - trustee, the hon. henry cuthbert - honorary solicitor, r. g. middleton - honorary treasurer, charles kent - auditor, andrew berry - registrar, alf. mica. smith - chemistry, metallurgy, f. m. krause - geology, mineralogy, mining, j. h. horwood - mechanical engineering, machine drawing and design, theoretica and applied mechanics, mathematics, henry j. hall - freehand and model drawing, j. a. dawson - electricity and magnetism, george day - botany, e. gutheil - biology, materia medica, pharmacy, a. e. c. kerr - mechanical drawing, machine construction and design, e. gutheil - biology, pharmacy, materia medica, henry crone - assistant registrar of titles, henry b. loch, elder gray - president, clunes branch, harry e. sando - registrar, clunes branch, w. y. witherden - hon. treasurer, clunes branch

The Tom Flood Sports Centre was originally called The Bendigo Show Grounds. This plaque was unveiled by the City of Greater Bendigo & the Bendigo RSL Sub Branch to Commemorated the venue as a "Training Camp" during WW2. Order of Service was, Welcome, Mr Alan Holmes (President Bendigo RSL) Introduction of Recruits & Others associated with the Camp. A brief history of the Camp and Anecdotes was read by Mr Alan Holmes. Presentation and unveiling of the Plaque by Cr Barry Ackerman, Mayor City of Greater Bendigo. The wording: "Commemorating this site as an Australian Imperial Force Training Camp during WW2. "To the following Corps we pay Tribute" "10th AIF Training Depot" "Australian Army Medical Corps" "Australian Army Ordnance Corps" "Australian Army Service Corp". "Australian Electrical and Mechanical Engineers" Prayer of Thanksgiving & Commemoration by; Rev J. South. This was followed the "ODE, Last Post, One minutes Silence, Reveille and The National Anthem. As far as records available the Camp was first set up on 17.6.1940 with an Advance Party. The last Troops left there on 30.4.1943 for Ingleburn NSW, the Camp was vacated in May 1943. Pamphlet white paper, A4 folded making 4 pages, all print in black.On the front, "This Commemorative Plaque was unveiled at the Tom Flood Sports Centre Park Road Bendigo Sunday 27th April 1997"brsl, smirsl, plaque, tom flood, training camp

Boxed set of 6 books. The Unit Guide, The Australian Army 1939 - 1945. .1) Box, open, cardboard, dark green buckram, white paper lining, gold print on sides. .2) - .7) Hard cover book, cardboard, dark green buckram with gold print on front cover & spine. Pages plain cut, black print, black & white illustrations. .2) 483 pages. .3) 605 pages. .4) 626 pages. .5) 654 pages. .6) 706 pages. .7) 568 pages..2) Volume 1 of 6. Unit & Location Indexes, Bibliography, Orders of Battle .3) Volume 2 of 6. Headquarters, Infantry, Cavalry, Armoured & Intelligence Units. .4) Volume 3 of 6. Artillery, Air Defence & Engineer Units. .5) Volume 4 of 6. Medical & Signals Units. .6) Volume 5 of 6. Aust Army Service Corp, Aust Army Ordnance Corp & Aust Electrical & Mechanical Engineer Units. .7) Volume 6 of 6. Women's Services, Volunteer Defence Corps, War Graves Survey, Labour Salvage, Military Policing, Recruiting & Training, Dental, Bath & Laundry, Veterinary & Animal, Movements & Transit, Pay, Records & Printing & Postal, Amenities & Canteens Units.books-military-history, units, 1939 - 45

Proficiency certificate A4 certificate No 107909Front education department Victoria logo in oval with coat of arms and crown Proficiency certificate NO 107909 This is to certify that Penelope Treadwell has successfully completed the first three years of a course prescribed for post primary schools at a school approved for the purpose director of education Back the candidate has completed a course of study in the following subjects with results as indicated English pass, algebra pass, geometry pass, geography pass, general science pass agricultural science, French credit pass , German, Latin, history pass, social studies , musical appreciation, art credit pass, shorthand, home management including cookery, needle work credit pass, crafts, woodwork, metalwork, blacksmithing, mechanical drawing, physical education pass. education, penelope treadwell, proficiency certificate

In the early years of the 20th century adequate technical education was lacking and became a focus in the Victorian Parliament. After much debate and discussion among politicians and educationalists, the 1910 Education Act No 2301 was passed, making possible the establishment of new technical schools to address the dearth of skilled trades people. In July 1912 Collingwood Technical School opened in the modified bluestone buildings at 35 Johnston St, originally built in 1853 as the Collingwood Town Hall and Court House. Within three weeks, there were 57 boys enrolled - studying preliminary carpentry and pattern-making, plumbing, engineering, sheet iron work and bricklaying. They attended two hours a night on three evenings a week. In 1913, the school opened its doors to juniors and took residence in new permanent buildings erected on the site. It was classified as a trades school by the State Education Department. Two years later courses in electrical wiring and electrical and mechanical engineering were introduced. In 1988 Preston College of TAFE and Collingwood College of TAFE merged to become Northern Metropolitan Institute of TAFE (NMIT). (http://victoriancollections.net.au/organisations/northern-melbourne-institute-of-tafe)Brown soft covered booklet of 40 pages. The contents include information relating to the Collingwood Technical School on 1913, including: Council members, constitution, standing orders, aim of the school, scholarships, advice to parents, Railway Fares, tram fares, General Rules to Students, Syllabus, English, Geography, Civics, Mathematics, Elementary Science, Woodwork, |Sheetmetalwork, evening course, carpentry, plumbing, joinery, and a list of students for 1912 Evening courses. collingwood technical school, collingwood, tafe, nmit, northern metropolitan institute of tafe