.A clear glass bottle with eight one centimetre wide vertical groves in most of its length. Painted on the bottle in white is, C.J.GLOVER ,TRADE MARK PROGRESS REGISTERED, which has a coat of arms over it, BENDIGO, BRITISH SYPHON CO, LTD LONDON, REGNO 762. The bottle is 10.5 centimetres diameter at its base and tapers to eight and a half diameter, in the next 20 centimetres, the next eight centimetres tapers to three and a half centimetres the last eight centimetres to two and a half centimetres, the next three centimetres it rounds off to three centimetres. There is a red metal cap on top which is three centimetres diameter for two centimetres then tapers for two centimetres to one and a half centimetres which continues for two and a half centimetres with a slight flair at the top There is a small wooden cap on the top and a four by one centimetre curved wooden handle is attached near the top. On the tapered part of the cap there is metal tube protruding down at a 45-degree angle and is four centimetres long and one centimetre diameter. The bottle has a small amount of liquid in it.bottle, c.j.glover, soda bottle

Set of 14 colour photographs of the installation of the No. 2 end motor into No. 28's 21E truck on 20/2/2000 and its subsequent checking on Wendouree Parade. 1321.1 - Pushing truck with only No. 1 motor installed onto No. 5 road - Alan Snowball watching. 1321.2 - Motor on crane, with motor suspension bearings lying by rail. 1321.3 - Motor in position - still on crane 1321.4 - Bear caps being fitted - Warren Doubleday fitting cap 1321.5 - Lunch 1321.6 - Bearing caps in position, with split pins and cables joined and insulated with heat shrink 1321.7 - Gear end of motor frame showing previous welding repairs for cracked gear case support arm. 1321.8 - Dipstick tubes being fitted to oil boxes. 1321.9 - Packing motor suspension bearing boxes 1321.10 - St Aidans Drive - truck towed by 661 and service car 26. 1321.11 - ditto 1321.12 - ditto with out 26 - Alastair Reither and Simon Jenkins looking on. 1321.13 - truck with 661 at St Aidans Drive 1321.14 - placing truck under No. 28.21e trucks, motors, 28, btm, tram 26, tram 661

Cooper S.E. Ball Bearing Grinder made and guaranteed by Sunbeam Corporation Limited. Grinders like this example have been made the same since the early 1900s, with this grinder thought to have been produced in the 1960s. It is belt driven, with the other end of the belt being attached to an engine; the same engine that would have powered the overhead shearing equipment in shearing sheds. It was common for shearing teams to bring their own equipment, especially pre-1960 as most shearing sheds were not connected to power, and shearers preferred to work with their own equipment. The engines that powered the shears and grinder were typically fuelled with kerosene or petrol. The large circular disks are attached to the bolt that protrudes from the grinder and fastened tightly with a nut. An example of seeing a similar grinder in action can be found on the following link - https://www.youtube.com/watch?v=O7eimI_Gm9o. Inventor Frederick Wolseley made the world's first commercially successful power-shearing system in Australia in 1888. US company Cooper, which had been founded in 1843 as a maker of sheep dip, began selling Wolseley equipment in the USA in 1895. The Chicago Flexible Shaft Company successfully entered the power-shearing market a few years later and entered a joint venture with Cooper. It set up a branch in Sydney and sold shearing sets, and engines to power them, into the Australian market. In 1921 the US parent company, realising it needed to make products whose sales were not as seasonal as those of shearing equipment, made its first household appliances and branded them Sunbeam. In 1933, changes in exchange rates and taxes led the company to manufacture engines and shearing equipment in Australia via subsidiary Cooper Engineering, which changed its name to Sunbeam in 1946. Although most Australians know of this company as a major manufacturer of household appliances, its rural division flourished and retained the Sunbeam name for shearing equipment even after it was taken over by New Zealand company Tru-Test in 2001. The grinder is formed from a central arch shaped block of green painted metal. Much of this paint has been lost to age, leaving the grinder in a ‘farm used’ condition with much surface oxidation present. On the front of the arch is a specification plate, reading “Cooper S.E. ball bearing grinder. Made and guaranteed by Sunbeam”. At the foot of the arch, three bolt holes are found for securing the grinder to the base of a solid wooden surface. Two of the bolt holes are found on the front of the grinder, with another found on the rear. From the central arch, a bolt protrudes to the right of the grinder. This large bolt is for securing a grinding plate to the grinder. Above the central arch is a pendulum which holds the comb / cutter that is being sharpened. From the pendulum, a large arm extends down (not pictured) to meet and strike the plate spinning at a rapid speed. On the left-hand side of the central arch of the grinder, a wheel is found which a belt is attached to for power. This belt is then attached to a separate engine, spinning the wheel and hence powering the grinder. The wheel is partially covered with a section of protective bent tube, designed to provide protection from the rapidly spinning wheel. Below this wheel is the belt shifter. It is designed to move the protective bent tube from one side of the grinder to the other, to accommodate the grinder in the setup of different shearing sheds. The two separate grinding plates are identical. They have a slight slope for sharpening the comb and cutters in the correct method, with a slight bias towards the base, or “tooth”, of the equipment. The disks have a large central bolt for attaching to the grinder. They have tags on the horizontal axis of the grinding plates, for securing the plates in transportation, and to help with initial alignment when setting up the grinder. The reverse of these grinding plates has the same green painted metal finish found on the grinder. This paint is also in a ‘farm used’ condition, with surface oxidation present. The grinder would be provided from the factory with a comb holder, shifter for securing the grinding plates, emery cloth and emery glue. The emery cloth is what does the actual grinding and is applied to the grinding disks, replacing once well worn. These items can be seen in the final images in the multimedia section, showcasing advertising for this grinder. Plate. Inscribed. “Cooper / S.E. BALL BEARING GRINDER / MADE AND GUARANTEED BY / Sunbeam / CORPORATION LIMITED / SYDNEY MELBOURNE / ADELAIDE BRISBANE ”sheep shearing, shearing equipment, sunbeam, grinder

Manufactured in the 1960s, this mobile emergency telephone exchange was fitted into a caravan. Part of the Shepparton Division State Disaster Plan, the caravan could be towed to areas affected by disasters to enable communications to recommence. The caravan remained in service until approximately 1974.Mobile infrastructure plays an important role in Australian communications, owing to the often remote and hostile environments in which Australians live and work. Exchanges such as this facilitated phone calls in the aftermath of an emergency, particularly for hospitals, police and other emergency services. Today, Mobile Exchange on Wheels (MEOWs), Cell on Wheels (CoW) and Satellite Cell on Wheels (SatCOW) - which provide temporary landline and broadband services, mobile phone coverage and service in areas without communications infrastructure respectively - are a critical part of emergency response procedures for natural disasters such as fire and flood. Though technology has progressed, the need for rapid service in remote areas remains a present concern of the communications service providers in Australia. This mobile service infrastructure is historically significant as an early example of a service which has evolved over decades, yet is still needed today. The exchange, as a representative example of a vehicle which would provide early-response in a disaster, is socially significant as a facilitator of critical communications needs in devastated communities: access to emergency services and contact with family and friends. The exchange itself, intact from its period of use, provides an insight into technology of the 1970s.Mobile emergency exchange housed in a caravan trailer on 2 wheel base, duralin body, steel tow bar, Caravan divided into 3 sections; the exchange room; the relay room and the main frame room. The exchange room contains 3 switchboards, a folding table, cupboards, benches and switch rack (.1). table (.2), steel bar for attaching the table (.3), back boards of switchboards (.4-.6), switches (.7-.16), box of switches (.17). There is a wall phone magneto, 300 type handset on wall and 2 skylights with wire screens. .11? hat pegs and shelf; there are 2 fluorescent tubes for lighting, all in exchange section. The floor is covered with 2 tone grey tiles and there are wire mesh on outside of windows and a geometric curtain inside behind switch rack. There is a flywire screen door as well as exterior door. The relay room has a sectioned door so half can open at a time. Room contains a cupboard with folding bench top beneath a curtained window. The opposite wall has a bank of batteries and transmission condensers; there is a shelf above window, one fluorescent tube and fuse boxes. Tiles on floor also. The main frame room contains many metres of coiled black covered cable, a black covered magneto wall telephone with 300 type handset; grey plastic jumper cords, a rack of termination points and wire with wasp nests attached. There is a small iron step under door, a fluorescent tube on wall and 3 hat hooks. Roll of Paper Handtowels (.18), cord and handle (.19), red exchange cords and plugs (.20-.22), plastic aluminium runners (.23,.24), headset (.25,.26), logbook (.27), battery readings (.28), box containing papers circuit drawings etc (.29-.93), paper lists off wall (.94,.95). Books, record books etc (.96-.103). Manila folder (.104) containing circuit drawings (105-.124). Wooden drawer (.125), metal drawer containing subscribers master cards, record of faults cards, particular switchboards connected, Junction line cards (.126). Box of valves (.127), box of clamps (.128). Box of 2000 type rack fuses, red 1 1/2 AMPS, black 3 AMP, blue 1/2 AMP (.129). Box of sleeves for covering wire joints (.130), plastic beakers (.131,.132), soap (.133), box of white plastic squares (.134), time switch "Venner BF/43 time switch" Made in England (.135), box of bolts, knobs etc (.136), box of switchboard number indicators (.137), fuse (.138), fuse wire (.139), football card (.140). Box of cartridge fuse 6 AMP (.141). Envelope of drawing pins, rubber bands (.142), black plastic, paper tape centres (.143-.152), metal plug (.153), 2 signs "Beware of vehicles" (.154-.155). Paper listing Naringal East automatic conversion (.156). Green Commonwealth of Australia note pad (.157). Wiring plug for tail lights (.158). Black fuse plugs (.159,.160). Box of bolts (.161). 2 sections of blue plastic coated wires (.162,.163). Gloves used for working on batteries (.164-.167). Wasp nests (.168,.169). White fuse (.170). Photographs of van in use (.171,.172)..1 on front: "ANOTHER / MOBILETRAIL / PRODUCT" "MAX SPEED / 25MPH" "TRAILER BRAKES / --- / " On sides: "EMERGENCY TELEPHONE EXCHANGE" "NO 1" "PMG" "TCQ / GROSS 250 / TARE 182 / LOAD 162" "6" "COUNTRY BRANCH / NORTH REGION / [SHEPPARTON DIVISION]" "LAW'S SIGNS" "Telecom Australia" On back: "DANGER / LONG LOAD" "MQA 3787" .133: "FIR OIL" "AUSTRALIA"mobile telephone exchanges, mobile telecommunications trailers, trailers, transport, natural disaster, black saturday, bushfires, floods, emergency communications

The Schleicher K7 is a high wing tandem two-seat sailplane designed in the late 1950s by Rudolf Kaiser for the Alexander Schleicher company in Germany. The fuselage is built using steel tube framing covered with fabric. The swept-forward cantilever wing is of wood and fabric construction with a single spar and a plywood covered leading edge “D” box for strength. The wing is equipped with Schempp-Hirth airbrakes. The K7 first flew in 1959. It is a versatile design that can be used for both basic and more advanced training of pilots. Over 500 were built. VH-GNX was manufactured in Germany and imported into Australia by Edmund Schneider Limited. It was test flown by them at Parafield Aerodrome, Adelaide, South Australia in March 1964. The original owner of VH-GNX was the Adelaide Soaring Club and it was maintained by Edmund Schneider Limited until May 1971. It appears that about this time it was transferred to the Gold Coast Soaring Club. In July 1974, after it had flown for an aggregate 3075 hours from 13919 flights, it was purchased by the Bundaberg Soaring Club. About 10 years later, it was acquired by the Bendigo Gliding Club. At that stage it had recorded over 4600 hours flying time from 21546 launches. When it was retired from service by the Bendigo Gliding Club in June 2006 due to age related defects the hours flown had reached 7259 from 31820 flights. It appears that the airframe has had a relatively trouble free life with only minor damage from storage / ground handling incidents, a heavy landing (January 1987) and a bird strike (January 2002). It was donated to the Museum in April 2007.This exhibit is an example of the Schleicher K7 two seat sailplane type.Two seat high wing glider sailplane finished in white with red detailing.Serial Number 7134, registered as VH-GNX. The registration appears on each side of the Fin / Rudder in red letteringaustralian gliding, glider, sailplane, schleicher, k7, schneider, adelaide soaring club, gold coast soaring club, bundaberg soaring club, bendigo gliding club

Alan Doney darkroom collection: 40a dartk room equipment collection 40b four film devreloping cannisters, adapts to adjustable film sizes (35mm, 120mm etc) 40c spool winder in two parts, stored in scotch tape tin 40d developer lens holder and fil/negative constraint for enlarging photos 40e darkroom light shade with electricity chord 40f red darkroom safety light for developing film with the darkroom 40g three developing items - two lens caps, thremometer caps/containers, & photo developing tongs 40h leather pouch for protection of flat ground glass panes 40i steel slide cover & bracket 40j two sets of steel film weights to hold/hang developed photograph films 40k rubber tubes and syphons 40l two plastic measuring beakers & two (yellow & blue) plastic spoons for developing process 40m KODAK film flow solution (Keogh's Camera Store $1.02) & KODAK plus-X pan film tin container 40n three darkroom miscellaneous items (includes Uniprint eqipment knob)

Items found by Barry Maggs in the Whipstick National Park with a metal detector. A purple plastic display box with a clear plastic lid. it has ten compartments containing items made from metal, wood and ceramics. a: Five pieces of pipes made from clay wood and metal decoration. b: Clay pipe with a metal decoration. c: Four pieces of metal jewelry one to two centimeters in diameter Including a ring, a flower brooch, a pendant and a button. d: Metal button two in diameter with an inscription Warranted Superior and a coat of arms. e: Two metal badges both have ship's anchors on them, one is three centimeters round the other is five centimeters by four centimeters. g: small piece of jewelry made of metal and glass five centimeters long and two centimeters wide. h: Four pieces of hollow metal five to eight centimeters long and one centimeter diameter. i: A piece of hollow metal tube five centimeters long and one centimeter in diameter. It had a small piece of wood and some pieces of paper with printed text inside. j: a metal nail seven centimeters long and one centimeter diameter head. k: pottery, part of a gold crucible three centimeters high and three centimeters in diameter. barry maggs, whipstick national park, metal detection

Listerine is a brand of antiseptic mouthwash product named after Sir Joseph Lister, Bt. FRS (1827 – 1912), who was a British surgeon and a pioneer of antiseptic surgery. By applying Louis Pasteur's advances in microbiology, he promoted the idea of sterile surgery while working at the Glasgow Royal Infirmary. 1865 Lister successfully introduced carbolic acid (now known as phenol) to sterilise surgical instruments, clean wounds, and for washing surgeons hands before and after operations. These measures led to a reduction in post-operative infections and made surgery safer for patients. “Listerine” was formulated by Dr. Joseph Lawrence and Jordan Wheat Lambert in St. Louis, Missouri, in 1879 as surgical antiseptic, it was given to dentists for oral care in 1895 It was later sold, in distilled form, as both a floor cleaner and a cure for gonorrhoea. But it wasn't a runaway success until the 1920s, when it was advertised as a solution for "chronic halitosis"— a then obscure medical term for bad breath.. In just seven years, the company's revenues rose from $115,000 to more than $8 million.. In 1885, Lawrence sold his share to the Lambert Pharmacal Company. Listerine was packaged in a glass bottle inside a corrugated cardboard tube for nearly 80 years before the first revamps were made to the brand. In 1992, Cool Mint Listerine was introduced in addition to the original Listerine Antiseptic formula and, in 1994, both brands were introduced in plastic bottles for the first time. . From 1921 until the mid-1970s, Listerine was also marketed as a preventive and remedy for colds and sore throats. In 1976, the Federal Trade Commission ruled that these claims were misleading, Originally marketed by the Lambert Pharmacal Company (which later became Warner-Lambert), since 2006 it is manufactured and distributed by Johnson & Johnson In 2009, Johnson and Johnson launched a new alcohol-free version of the product called Listerine Zero. The screw top indicates that the bottle was manufactured post-1920sA clear glass bottle, with a rubber stopper, wrapped in corrugated cardboard containing 'Listerine' mouth rinse .Front Label: LISTERINE / TRADE MARK REGISTERED / ANTISEPTIC / PROOF SPIRIT 50% / LAMBERT / a star / PHARMACAL COMPANY (AUST.) PTY LTD / SYDNEY Back Label : Instructions for use .......... on bottle : LISTERINE ANTISEPTIC / LAMBERT on cardboard wrapper ; 7 FLUID OZ. / LISTERINE / PROOF SPIRIT 50% / ANTISEPTIC, DEODORANT, / PROPHYLACTICpharmacy, listerine, lister joseph, lawrence dr. joseph, lambert jordan wheat, missouri, glasgow royal infirmary, infectious diseases, johnson & johnson ltd., surgery, antiseptics, medicine, pasteur louis, france

This strong, heavy bank safe was made by W. Marr in London. It was formerly owned by the ANZ Bank in Portland, Victoria. Portland’s ANZ Bank was originally a branch of the Bank of Australasia, which first came to Australia in 1835, opening in Sydney. Portland’s Bank of Australasia began in a bluestone building built on the north corner of Julia and Bentinck Streets by stonemason William Robb in 1855, around the time of Australia’s Gold Rush. Eventually, in 1951, the Bank of Australasia merged with the Union Bank to become the Australia & New Zealand Bank, known as the ANZ. Portland’s branch of the Bank of Australasia then moved into the old Union Bank building at 44 Percy Streets; both bank buildings were built around the same. The maker of this safe, W. (William) Marr, obtained a patent in 1834 for what is believed to be the first fire-retarding patent, building this into the lining of strong boxes. Others made further design improvements such as hardening the metal plates used to make the boxes. In about 1840 Thomas Milner, a Sheffield tinsmith, made the earliest safes that could safely protect their contents from a surrounding fire. This was achieved by including tubes of a substance between the inner and outer walls of the safe that would react to the heat and the contents would put the fire out. In 1851 an Exhibition at London’s Crystal Palace included fire-proof safes from different vendors. William Marr was listed under Fireproof Box Makers in the 1842 London Trades Directory, at 33 Broad Street, and 52 Cheapside. William Marr & Son were appointed to supply Her Majesty’s National Debt Office and other departments in 1860, with the address 9 Walbrook, Vulcan Safe Works, Skin Yard, Bankside, Southwark, London. 1n 1870 the address for William Marr listed under Safe Makers and Agents in the London Trades Directory was 67 Cannon Street. The manufacturer, W Marr, is significant as an inventor of a way to make a strong box fireproof, then patented his secure safe. This invention indicates that security of money was of great importance in the mid-1800s as it continues to be today. The secure safe would have given much comfort to those with investments and savings, as well as to the bank itself, the custodian of other people's money. This safe was made in London and exported to colonial Australia, giving significance to the safe as an item that was high in the list of the needs of the early Australians and their businesses. The safe has local historical significance as it was used by the original Bank of Australasia in Portland, which was built in 1855 and went on to become the ANZ Bank, still in operation today. The bank was an integral part of the establishment and growth of commerce in Colonial Victoria.Safe; heavy metal bank safe, painted green. Double doors each have top and bottom external hinges, and two front panels; the top panels are arched. The thick doors have five sliding locks. Inside is a fixed metal compartment with a locked sliding metal drawer, and several fitted shelves plus some temporary removable shelving. Both doors have a decorative brass knob near the centre opening. Left door has an oval artificial keyhole and a space where another fitting has been attached. The right door has a second brass knob and an oval keyhole. The top panels of the left door has an oval plaque with an inscription; the right door has evidence that there was an oval attachment. Made by W. Marr, London.Text embossed on plaque: "W. MARR / PATENTEE & MANUFACTURER / 52 / /CHEAPSIDE / LONDON" flagstaff hill, warrnambool, shipwreck coast, flagstaff hill maritime museum, flagstaff hill maritime village, maritime museum, great ocean road, shipwreck artefact, safe, bank safe, vault, security, finances, anz bank, portland bank, w marr, william w marr, financial institution, savings, gold exchange, loans, investments, safety, safe maker, lock maker, iron box, strong-room

The ES52 Kookaburra is a two seat high wing glider – sailplane of wooden construction designed by Harry Schneider and built Edmund Schneider Pty Ltd. It was first flown on 26 June 1954 and became the glider of choice for training new pilots of many gliding clubs around Australia in the 1950s, 1960s and 1970s. Several found there way to New Zealand. Further two kits were sent to Brazil and at least one of these was finished and flow successfully. The ES52 performed well with a glide ratio of about 22:1 and had soaring and cross-country capabilities. A notable feature of the ES52 design was the staggered side-by-side seating arrangement of the cockpit. This made for good in flight communication between instructor and trainee. Overall, thirty six were built by Edmund Schneider Pty Ltd. A longer wing version (the ES52B) was also introduced that had a better glide ratio (around 25:1). Five examples of this version were built. In Germany a modified ES52 was built incorporating a metal tube fuselage frame and with the addition of a engine driven propeller mounted on top of the wing which enabled the glider to be self launching. This museum collection item consists of the fuselage, tailplane, elevators, fin, rudder from the Mark I, ES 52 Kookaburra, formerly registered as VH-GFF and last owned by the Barcaldine and District Airsports Club of Queensland. The glider was in a damaged condition when it was acquired by the Museum. A decision was made by the Museum to repair the glider for display rather than endeavouring to restore it to an airworthy condition. The reconstruction of the wings is being undertaken by using parts of damaged ES 52 Kookaburra wings (as it happened from later ES 52 Marks). The Log Book for VH-GFF reveals operational life with a succession of gliding clubs around Australia. This exhibit will be of interest to gliding enthusiasts wishing to inspect the popular two seat club trainer of a by-gone era.This is a wood and fabric covered aircraft that is being rebuilt from the components of several aircraft as a non-flying exhibit.Fuselage marked with Edmund Schneider Pty Ltd Serial Number 9 and comes from the glider previously registered as VH-GFF.australian gliding, glider, sailplane, edmund schneider, es 52, kookaburra, barcaldine and district airsports club, victorian motorless flight group, alice springs gliding club, raaf richmond, raaf williamtown, gayndah gliding club, blackwater gliding club, southern downs aero and soaring club, charleville gliding club

The Ballarat Observatory is situated at Mount Pleasant.Correspondence relating the the Ballarat Observatory. .1) Robert J. Strange, Secretary of the Ballaarat Astronomical Society, writes to E.J. Barker (Principal, Ballarat School of Mines) regarding ownership of telescopes. .2) E.J. Barker (Principal, Ballarat School of Mines) writes to Bert Strange concerning ownership of telescopes .3) Bert Strange writes to Jack Barker with details of the telescopes, including references to James Oddie. The telescopes in question were three Newtonian reflectors, one Cassegrainian focus reflector and one "Calver" telescope on altazimuth mounting. .4) Former Ballarat School of Mines Principal, Dick Richards, writes to Jack Barker regarding the telescopes. Mention is made of John Brittain's ten inch mirror on a metal tube, stored on the penthouse on the roof of the Art School. .5) Ballarat School of Mines librarian, Heather Durant, writes to Jack Barker . .6) Simple timeline relating to the Ballarat School of Mines .7) Extracts for the Ballarat School of Mines Annual Reports relating to the Ballarat Observatory, the James Oddie donation, and the transfer of the Observatory to the Ballarat East Town Council. 8)Two quarto typed pages from Jack Barker to Bert Strange outlining the research undertaken to report that the telescopes were not in the possession of the Ballarat School of Mines. ballarat school of mines, jack barker, e.j. barker, ballarat observatory, bert strange, robert f. strange, telescopes, dick richards, r.w. richards, heather durant, mount pleasant, mt pleasant

Hand operated Bellows vacuum cleaner. Previously #27 The “Baby Daisy” Vacuum Cleaner is constructed from timber, steel and leather bellows. It has a carry handle fixed to the top. The base is approx. 500mm x 250mm. The height is approx 400mm. On one side is a bracket for a handle (missing) used to operate the bellows. The device is mounted on a foot plate that is split. On one side of the bellows is a circular metal detachable hatch, fixed by wing-nuts. This has a central hole for a tube (missing). Attached internally to this hatch is a cloth dust collection bag. The metal hatch has the following moulded words arranged in a circular fashion. 'DAISY Vacuum Cleaner). There are two brass plates fixed to the side of the cleaner above the hatch. These plates are stamped with 'Rd. No. 518080 and Rd. No. 530353' Gold printed Labels on the side say the following. BABY DAISER Vacuum Cleaner. Registered England. No. 518080/7 No. 530353/08 Trade Mark No.294851 /07 Designs France No. 25469/08 Germany No. 330219 / 08 Further Patents applied for. In the centre of the label is a picture of a Daisy Flower. With the words Iles Patent. This is surrounded by a ribbon with the words. 'The Daisy Registered Trade Mark'. On one side near the base of the cleaner the number '7749' is stamped into the metal.fBaby Daisydomestic equipment, cleaning, vacuum cleaner

X-Rays were first discovered on 08 November 1895. By 18 July 1896 staff members of the Ballarat School of Mines (SMB), were experimenting with the exciting new discovery. The history of x-rays began on 08 November 1895 at the University of Wurzburg in Bavaria. The discovery was officially announced on 25 December 1895. The first radiographs in Ballarat were taken at the School of Mines in July 1896 according to the Ballarat School of Mines (SMB) Annual Report. Frederick J. Martell, the Registrar of SMB arranged for the importation of tubes, while John M. Sutherland, an electrician, conducted most of the experiments giving 6 inch, 12 inch and 16 inch sparks respectively. In a short time brilliantly successful results were obtained, with some SMB Roentgen negatives taken at this time still in existence today. Samuel Ernest Figgis, H. R. W. Murphy, D. McDougall, and Frederick J. Martell carried out experiments at the SMB on Saturday evening 18 July 1896, producing 'perfect' negatives of a hand and wrist. A Roentgen Tube and an induction coil giving a two inch spark, the coil being sparked by the SMB's dynamo, were used to obtain these results. The Courier reported that 'the exposure of five minutes was ample' but concluded that 'the length of the exposure will be shortened as experiments proceed.' The Ballarat Courier reported on 20 July 1896 that: "Thanks to the energy of the staff of The School of Mines, Ballarat, and particularly to Messers F.J. Martell and D. McDougall, the assistance of Rontgen X-rays will soon be available, for the relief of suffering humanity, at this institution." Martell was an ardent amateur photographer, and Duncan McDougall's experience as an electrician has enabled the two gentlemen to carry their experiments on to a perfectly successful issue. At first these gentlemen, together with Professor Purdie and Mr W. Huey Steele, conducted a series of experiments by the aid of a Bonetti glass-plate induction machine which had been constructed by Mr McDougall. The results were very good, the various bones of the hand being distinctly visible. The following people were among those who witnessed the first X-ray experiments to be carried out in Ballarat. Andrew Anderson, President of the School of Mines, a large number of ladies and gentlemen, the medical profession Dr Edward Champion (1867-1929) Dr Gerald Eugene Cussen (1888-1943) Dr William Edward Davies (1868-1928) Dr Charles William Henry hardy (1861-1941) Dr Edward Kenneth Herring(1864-1922) Dr Joseph Lalor (1859-1907) Dr James Thomas Mitchell (1856-1945) Dr Edward Graham Ochiltree (1857-1896) Dr Robert Denham Pinnock (1849-1902) Dr Joseph Francis Usher (c1832-1909) Dr Grace Vale (nk-1933). The staff of SMB Professor Alfred Mica Smith Professor D. J. Dawbarn Mr. F. J. Martell. (http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_X-Ray_pioneers.shtml) "Seven patients of the doctors who were present were treated. In each case the patient was suffering from the effects of an old wound or some other injury to other a hand or foot. One patient, a boy had a finger broken some years earlier and when xray plate of the injury was developed it indicated plainly the fracture on one of the joints of the third finger. In another case a woman had a foot had a foot X-rayed and the photograph revealed the seat of an earlier imjury to it. Likewise an injury to the bones of a hand of an elderly man was revealed by an x-ray photograph. Every X-ray photograph that evening showed the importance of this new development in electrical science and the doctors present agreed the "the results of the experiments on their patients, by showing the exact seat of the injury and its present condittion, would materially assist them iin supporting cures." (Warren Perry, The Ballarat School of Mines and Industries Ballarat, p 146.)A number of photographic xrays as taken by the Ballarat School of Mines in 1896. The xrays include bones, hands, feet, shoes and more. ballarat school of mines, scientific equipment, x-ray, xray, photography, foto, roentgen tube

1855 Stephen Charman donated land to the Methodist Church so that a School could be established to educate the children of the early settler market gardeners and farmers in the Cheltenham area . Education was valued by the general community and as well as schools they established mechanics Institutes and Libraries in Moorabbin Shire. Cheltenham State School No. 84 was among the first schools in Melbourne. Stephen Charman, 1821-1906 a market gardener, donated land for the first Methodist Chapel, Cemetery and School in Charman Rd Cheltenham 1855. The enrolment was 36 pupils with Mr Frederick Meeres as Teacher. 1863 the school is called Beaumaris Common School No 84 with 70 pupils and Walter Meeres as Teacher. 1869 another 2 acres in Charman Road were granted by the Education Board and brick building built . 1872 State School 84 Beaumaris was increasing enrollments and 1878 a new brick school was built to accommodate 174 pupils and the name changed to Cheltenham State School No.84 1894 Mentone State School No.2950 amalgamated with Cheltenham SS No.84. 1910 the buildings were in disrepair, overcrowding was increasing and renovations were made 1912 with further additions in 1925 and 1937. Post WW11 extra prefabricated Classrooms were added as enrollment increased to 1038 in 1955.. Cheltenham East State School 4754 was opened as housing development spread over the City of Moorabbin . (J.Larson Sandringham HS) Probably due to the Scottish heritage of many early settlers the Fife & Drum Band was established at the West Beaumaris (Cheltenham) State School . The Fife is similar to the piccolo, and usually made of wood, consisting of a tube with 6 finger holes and an embouchure hole that produces sound when blown across.The fife was used in folk music traditions to accompany dancing by all social classes. Also in the Military where drums accompanied the fife and originally these 'boy soldier ' bands were used to signal manouevres in the field for the infantry. Later Fife & Drum bands were used for marching bands in schools and community groups, 1855 Stephen Charman donated land to the Methodist Church so that a School could be established to educate the children of the early settler market gardeners and farmers in the Cheltenham area . Education was valued by the general community and as well as schools they established mechanics Institutes and Libraries in Moorabbin Shire. Cheltenham State School No. 84 was among the first schools in Melbourne.Black & White photograph of pupils at West Beaumaris (Cheltenham) State School No.84 in the boy's Fife and Drum Band c 1908Back Handwritten Mrs Whelan / Beaumariswhelan r, marriott geoff, meeres frederick, cheltenham state school no.84, education, keys robert, holloway josiah, king brothers, smith j l; smith mary ann, stanley helen, chaff cutter, horse drawn carts, toll gates brighton, motor cars 1900, steam engines, early settlers, bentleigh, parish of moorabbin, city of moorabbin, county of bourke, moorabbin roads board, shire of moorabbin, henry dendy's special survey 1841, were j.b.; bent thomas, o'shannassy john, king richard, charman stephen, highett william, ormond francis, maynard dennis, market gardeners, vineyards, orchards

Stevenson screens were first introduced in Australia in the 1880s and were widely installed by 1910. The screens have been used to shelter and protect thermometers and other meteorological instruments from rain and direct heat while the holes and double-louvre walls allowed air to flow around them. Sometimes other meteorological instruments were included in the weather stations, so there were different Stevenson Screen sizes. This authentic, original Stevenson screen was previously owned by the Australian Bureau of Meteorology and was used for many years for weather readings at the Cape Otway Light Station in southwest Victoria. The Lighthouse Keepers recorded the readings for minimum and maximum temperatures at 9 a.m. every day from January 1865 until April 1994. The equipment was sheltered in a Stevenson Screen from 1902 until April 15 1994, when the mercury thermometer was replaced by a platinum resistance probe within an Automatic Weather Station (AWS). This Stevenson screen is one of the two screens that then became redundant. The other Stevenson screen was kept to display to visitors. Lightkeepers were no longer required at the Cape Otway Light station either, due to the automated system. The meteorological instruments donated with the screen were used for measuring temperature and humidity. They are mounted on a metal bracket that fits across the screw holes on the screen’s internal frame. The glass-covered Relative Humidity (RH) sensor was made by the renowned precision instrument maker, Rotronic AG of Switzerland, which was founded in 1965. The firm made its first electronic temperature and humidity instrument in 1967. Meteorological records have been collected in Australia from the 1800s. The records were collated, published and used as a basis for weather forecasts. Many sectors, such as maritime and agriculture industries, have relied on these figures for making important decisions. The quality and placement of the meteorological instruments used to measure temperature and humidity are of utmost importance for accuracy. In early colonial times, there were no national standards for meteorological instruments that would allow for accurate figures and comparisons. Once the Bureau of Meteorology was established (around 1908 to 1910) the department installed Stevenson screens throughout Australia, many at lighthouses and light stations, and the measuring instruments were standardised. The Stevenson Screen was named after its inventor, Scottish Civil Engineer Thomas Stevenson (1818-1887) who was also the father of Robert Louis Stevenson, author. Stevenson developed the small thermometer screen around 1867. It had double-louvred walls around the sides and a top of two asbestos sheets with an air space between them and was thickly painted with a white coating that reflected the sun’s rays. This design was modified in 1884 by Edward Mawley of the Royal Meteorological Society. Standards were set for the locations of the screens and instruments, including their distance above ground level and the direction the door faced.Stevenson screens played a significant part in providing a standardised shelter for all meteorological instruments used by the Australian Bureau of Meteorology from about 1910 until 1994. The readings from the instruments gave the meteorological statistics on which weather forecasts throughout Australia were based. This Stevenson screen was used locally at Cape Otway, along the Great Ocean Road in southwest Victoria, so contributed towards our local forecasts and weather warnings.Stevenson screen, original, from the Australian Bureau of Meteorology’s weather station at the Cape Otway Lighthouse. The screen is a white wooden cupboard with a slanted cover raised above the top. The top has ten drilled ventilation holes, and the sides and door are made of downward-slanting double louvres. Two brass hinges join the door to the lower edge of the screen and a metal fitting at the top edge allows for a padlock closure. The screen is supported on four short legs, each with a hole drilled from side to side for fitting to a frame. Inside the screen are two wooden frames fitted with hooks and screws. The floor has three boards; one across the back and one across the front at the same level, and a board wider than the space between these boards is fitted higher, overlapping them slightly. Inside the screen, a pair of electronic instruments with short electric cables is mounted on a metal bracket with drilled holes in it. One of the instruments is a Relative Humidity (RH) probe. It is 26 cm long and is a glass tube with a filter on one end and an electrical connection on the other. It has inscriptions on its label, showing that was made by Rotronic AG, Switzerland. The other instrument is a Resistance Temperature Device (RTD) thermometer. It is 22.5 cm long and has a narrow metal probe joined to a hexagonal metal fitting. A brass plate on the front of the screen has impressed inscriptions. The screen is Serial Number 01/C0032, Catalogue Number 235862.Stamped into brass plate "CAT. NO. / 253862 / SERIAL NO. 01/C0032" On instrument’s electrical fitting; “CD2” [within oval ‘+’ above S] “Serie693 op65 / 220/380V~16A” On instrument’s glass; “rotronic ag” “SWISS MADE” “CE / CH-8303 / Bassersdorf” Symbol for [BARCODE] “ART NO MP 101A_T4-W4W” “POWER 4.8.30VDC“ “OP. RANGE: 0-100%RH/-40+60° C” “OUT H 0-100% 0-1V” “OUT T -40+60°C -0.4..+0.6V” “SERIE NO 19522 009”flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, cotton region shelter, instrument shelter, thermometer shelter, thermoscreen, thermometer screen, measuring instruments, meteorological instrument, weather recording, weather station, lighthouse equipment, light station equipment, stevenson screen, marine instruments, mercury thermometer, platinum resistance probe, aws, automatic weather station, rotronic ag, swiss made, meteorological device, weather forecast, weather prediction, weather records, meteorological forecast, meteorological record, australian bureau of meteorology, bureau of meteorology, bureau, bom, relative humidity, rh, relative humidity probe, resistance temperature device, rtd, thermometer, temperature, humidity, cape otway, cape otway lighthouse, cape otway light station, rotronic, switzerland, swiss instrument, thomas stevenson, double-louvered walls, edward mawley, royal meteorological society, 01/c0032, serial number, cat. no. 235862, serial no. 01/c00323

In 1865 James Jones Elliott of 156 Cheapside in the City of London, was apprenticed to a clockmaker"Bateman" of 82 St John Street, Smithfield, London., to learn the art of clock making. Initially, J J Elliott specialized in producing pinions and balance shafts for clocks. He eventually progressed to making, and patenting, a weight-driven movement which had chimes on tubes. This clock was very successful and resulted in considerable trade with America. James Elliott's son, Frank Westcombe Elliott, when he was 17 years old, went into business with his father after his father had bought a partnership with a jeweler called “Walden” of Brompton Road, London. In 1904, JJ Elliott died and Frank succeeded his father in clock making business. In 1909 company of JJ Elliott amalgamated with Grimshaw Baxter, and the factory moved to Grays Inn Lane, London, in 1911, followed by a further move, in 1917, to larger premises in St Ann’s Road, Tottenham, London. In 1921 the partnership with Grimshaw Baxter was dissolved and Frank Elliott joined a well-known firm of Bell Founders and Clockmakers, Gillett and Johnson Ltd, in Croydon. In 1923, two years later, he took over their clock factory and formed the famous company of F.W. Elliott Ltd. He was joined by his two sons, Leonard and Horace Elliott, who had served their apprenticeships in the trade. The third son, Ronald, joined the company in 1929. Elliott's started to produce clocks for the armed forces when war was declared in 1939, together with test gear and apparatus for the Rolls Royce engines used in the RAF planes. In 1944, Frank Elliott died at the age of 69 and Horace Elliott assumed the role of Managing Director. Whilst Horace controlled sales from a showroom in Hatton Garden. In 1952, Horace Elliott was elected Chairman of the British Horological Institute in the same year as Tony, one of Horace's sons, joined the company after he had completed training as a cabinet maker. Ronald Elliott died suddenly in 1966, at the age of 54, his son Peter continued to manage the company until 1998 when it ceased trading. An item that is now regarded as vintage, sought by horology collector’s worldwide and is in excellent condition. The item is unique in that it was made specifically for ships by a well-known British clock manufacture. Its provenance is well established as the serial numbers on the clock indicate it was made in 1950. Production by F.W Elliott for this design of ships clock ceased in 1959. Clock has a gold color case with a 150 mm white painted dial and Roman numerals. The movement has a balance wheel escapement and a slow-fast timekeeping adjuster to the top of the dial. The back of the clock is stamped “made by F W Elliott Ltd of Croydon” and a serial number 21B/829, an additional number 994 is also stamped on the back casing. Thsi model clock finished production in 1959. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock, f w elliott, maritime clock

A blowtorch or blowlamp is a fuel-burning tool used for applying flame and heat to various applications, usually metalworking. Early blowlamps used liquid fuel, carried in a refillable reservoir attached to the lamp. Modern blowtorches are mostly gas-fuelled. The blowlamp is of ancient origin and was used as a tool by gold and silversmiths. They began literally as a "blown lamp", a wick oil lamp with a mouth-blown tube alongside the flame. This type of lamp, with spirit fuel, continued to be in use for such small tasks into the late 20th century. In 1882, a new vaporizing technique was developed by Carl Richard Nyberg in Sweden, and the year after, the production of the Nyberg blow lamp started. It was quickly copied or licensed by many other manufacturers. Carl Richard Nyberg (May 28, 1858, – 1939) was the founder of Max Sievert’s Lödlampfabrik, then one of the largest industries in Sundbyberg, Sweden. After school he started working for a jeweller and later he moved to Stockholm and worked with various metalworks. 1882 and set up a workshop at Luntmakargatan in Stockholm making blowtorches. However the business didn't work well because it took too long to both manufacture and sell them. In 1886 he met Max Sievert (1849 - 1913) at a country fair and Sievert became interested in Nyberg's blowtorch and started selling it. In 1922 the company was sold to Max Sievert who continued to own it until 1964 when it was bought by Esso. The blowtorch is commonly used where a diffuse high temperature naked flame heat is required but not so hot as to cause combustion or welding: soldering, brazing, softening paint for removal, melting roof tar, or pre-heating large castings before welding such as for repairing. It is also common for use in weed control by controlled burn methods, melting snow and ice from pavements and driveways in cold climate areas, road repair crews may use a blowtorch to heat asphalt or bitumen for repairing cracks in preventive maintenance. It is also used in cooking; one common use is for the creation of the layer of hard caramelised sugar in a crème brûlée. A brass blowtorch, 'Sievert' with a wooden handleSIEVERTtools, blow torches, blow lamps, welding, brazing, jewellery, cookery, soldering, nyberg carl, sievert max, stockholm, sweden, spirit fuel, kerosene, gas fuel, moorabbin, bentleigh, cheltenham, market gardeners, pioneers, early settlers, plumbing, carpenters,

Context: A brace is a hand tool used with a bit (drill bit or auger) to drill holes, usually in wood. The pressure is applied to the top and the tool is rotated with a U-shaped grip. Bits used to come in a variety of types but today the more commonly used Ridgeway and Irwin pattern bits also rely on a snail point (called the snail), which is a tapered screw point shaped the same as a wood screw thread, which helps to pull the bit into the wood as the user turns the brace handle and applies pressure. The designs used today come from an original idea and pattern invented by John S Fray. Company History: John S. Fray (1833 ) immigrated to Bridgeport Connecticut USA from England in the 1850s and established a working relationship with Nelson Spofford, who held an 1858 patent for a bit brace (the tool could be augured in a continuous circular motion by hand). He established the John S. Fray Co. around the same time and immediately began producing the Spofford bit brace. Fray himself held at least two patents: one awarded in 1869 for a boring brace attachment, and another awarded in 1883 for a tool handle. By 1889, the firm was located at the industrial complex that sits between the former International Silver Company and the former Bridgeport Chain Company on Crescent Avenue and is identified on the Sanborn Insurance Atlas as a manufacturer of Spofford bit braces, hollow handle awl, and toolsets. The company was in competition with Peck Stow and Wilcox Co. of Southington, and in 1898 was enjoined from making a ratchet bit brace for which the latter company held a patent. By the 1920s, the factory had been purchased by the Stanley Company of New Britain and leased to the American Tube and Stamping Company, a manufacturer of brass, copper, seamless, and bicycle tubing, which also ran a rolling mill to the south on Stafford Avenue (now demolished). The Stanley Company bought both mills in 1926, perhaps as a strategic move to be located along the Bridgeport Harbour, through which much of the raw material used in its operations throughout the state came. By the 1950s, the Crescent Avenue operations had been moved to other sites in Connecticut, and Stanley again leased the building to a company called Cornwall and Patterson, a manufacturer of piano hardware. Today the building appears to be vacant. An early carpenters tool made by a well known early manufacturer from America who instigated many innovations to the making of tools. His early pattern for the improvement of a tool that could be used for the boring of holes in wood was a significant step forward. His design for a boring brace attachment and later a specific handle is still in use today and his original brace and bit is now sought after by collectors of antique tools. Spofford Carpenter's Bit Brace metal has bit attached. Wing nut holds bit in place but nut missing. holds bit in place. 285mm long x 160mm Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

.1 - Book - 12 pages + brown covers, side stapled, issued by the Australian Standards Association, "AC Electric Arc Welding Plant - Transformer type", C97-1942, July 1942. .2 - Book - 40 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard B1 - "Brass water fittings - stop, bib, globe and ferrule or main taps", B1-1928, August 1928. .3 - Book - 20 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard B4 - "Vegetable tanned leather belting", B4 - 1929, January 1929. .4 - Book - 16 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard B3 - Rubber Conveyor and Power Transmission Belting", B3 - 1929, March 1929. .5 - Book - 8 pages + green covers, side stapled, issued by the Australian Standards Association, "Maintenance of Portable Chemical Fire Extinguishers of the Acid-Alkali and Foam Types", CA 18-1941, May 1941. .6 - Book - 16 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Tentative Australian Standard B2 - "Copper Tubes", B2 - 1928, July 1928. .7 - Book - 28 pages + grey covers, side stapled, issued by the Australian Commonwealth Engineering Standards Association, Australian Standard A2 - "Portland Cement", includes tests, A2-1926, December 1926. On top right hand corner has the date stamp of the "The Electric Supply Co. of Victoria Ltd Ballarat" .2 - 3 Sep 1928 .3 - 19 Jan 1929 .4 - 3 Apr 1929 .5 - SEC Stamp - ? 1941 .6 - 20 July 1928 .7 - 17 Apr 1934trams, tramways, power station, standards, materials

Paul Raphael MONTFORD (1868 - 1938) Paul Montford moved to Australia to carve four buttress groups in granite for the Melbourne Shrine of Remembrance. In 1924 he was teaching at Geelong Technical College. Professor Alfred Mica Smith was a long term lecturer at the Ballarat School of Mines. The sculpture was commissioned by former Students of the Ballarat School of Mines working in Western Australia. One of those former students, William Corbould, remembered his first encounter with the professor fondly:- 'From the Registrar's Office I was led to be introduced to the Professor of Chemistry, one Mica Smith. The initial encounter gave me little encouragement - his large laboratory was filled with hundreds of bottles bearing strange labels with queer symbols on them. My heart sank. At the first opportunity I grabbed my hat and made for the door, but the good professor called me back. I pointed out that I was never any good at school ... so it was no use pretending to be clever enough to understand all those weird symbols! The Professor told me not to worry about that and took me to one of the benches where he found a blowpipe and a charcoal block. Mixing together two powders from bottles on the shelf he transferred a sample to the charcoal and directed the bunsen flame onto it. Soon it began to melt and a white bead appeared in front of my eyes. He then took a test tube and added a little colourless liquid from each of two bottles. A beautiful dark blue colour appeared. My interest was won.' Alfred Mica Smith was the well-loved Professor of Chemistry and Metallurgy at the Ballarat School of Mines between 1881 and 1922. Upon reaching the age of 78 Mica Smith retired having influenced generations of miners. At the time of his death Ballarat School of Mines Students’ Magazine reported: "In the annals of the School, the year 1922 will be noted chiefly as the last year in which Professor Mica Smith taught here. With his retirement, a memorable epoch closed. The Professor has served the School for 42 years with a service, the length and thoroughness of which are unique. … It is not quite realised in this city how famous the School became throughout the world, nor to what extent the Professor was responsible for its high position in the mining and metallurgical world. … 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.Marble bust of Ballarat School of Mines Professor Alfred Mica Smith by Paul Montford. The bust is mounted on a jarrah pedestal made from timber donated by the Millar Timber and Trading Company. The bust was formally presented to the Ballarat School of Mines on Saturday 13 December1924 in front of Alfred Mica Smith and a large gathering. It is signed 'Paul R. Montford, Sc, 1924' at the back.Professor A. Mica Smith, 1924, Presented by His Old Students Associated with Western Australia as a Token of Affectionate Esteemart, artwork, ballarat school of mines, montford, paul montford, alfred mica smith, mica smith, marble, bust, sculpture

This bellows was used at the Warrnambool Racecourse by Master Farrier, Brian Chapman (1931-2017), during the 1970s but its history before then is still being investigated. The bellows have continued to be used from 1978 at Flagstaff Hill's blacksmith's workshop. Even today, in 2021, this same bellows are used by a volunteer blacksmith as he demonstrate the skills and tells of the importance of the blacksmith trade to colonial Australia. This 1860s double-action bellows is a typical form of blacksmith's or shipsmith's bellows. The end is forge-fitted with an iron nozzle or tube, called a tuyere or Tue iron, which concentrates the air to fan the fire or furnace. Tuyeres were traditionally made of cow horn. The double-action design of this bellows efficiently moves air both in and out of the chambers in the one movement of the long handle. The bellows was manufactured by John C. Onions of Birmingham, England, between 1862 and 1875. The stamp with the text, Gold Medal 1862, was also used on the business’ advertising. In 1875 the company was registered and began using the name John C. Onions Limited. JOHN C. ONIONS - John C. (Collingwood) Onions (1841-1904) was the son of a bellows maker of the same name. Onions (born 1841) and his wife Helen married in 1867 and they named one of their children John Collingwood Onions (1868-1913), as was the family tradition. He was well known as a Birmingham manufacturer of patented bellows and other forge-related equipment. He sold to the wholesale and retail markets for both local and overseas customers, including the British colonies. An 1862 advertisement points out that John C. Onions was a “Bellows manufacturer and contractor to Her Majesty’s Honourable Board of Ordinance” and His Imperial Majesty the Emperor of the French [Napoleon Bonaparte]”. The advertisement includes a sketched portrait of the Emperor Napoleon III, and an Imperial Autograph Letter dated May 23, 1854, from Napoleon, Palace of the Tulleries to Mr J C Onions of Bradford Street, Birmingham. In 1863 the company registered a patent on portable forges. In 1871 there were eight employees. John C. Onions Limited became a registered company in 1875. In 1876 an advertisements included that the company were smiths for hearths and tools in general and showed a row of six medallions including one with “Napoleon III, Emperor” and his portrait, and another “ _ _ _ 1862 MEDAL”. Their advertising motto was “For Excellence of Quality”. In 1885 the company merged with William Allday and Sons to become Allday and Onions. This mid-19th century bellows has local historical significance as it were once used by blacksmiths at the Warrnambool Racecourse in the annual racing event that continues today. This bellows is significant as a working example of equipment used in the 1800 and 1900s in the trace of blacksmiths and other metal working smiths. The bellows is technologically significant as it shows the progress from simple bellows to the double-action bellows, a time saving and efficient improvement. The manufacturer John C. Onions is historically significant as a family business that began in the 1600s and continued up until the 1980s.Bellows; large, oval, mechanical double-action smith’s bellows, manually operated, in working condition. The paddles of wood that form the top, middle sections and base of the bellows have flexible leather pieces attached firmly between them, forming airtight double lungs. Cut-outs in the panels allow the bellows to fill with air then force it out. A long handle is connected to pump the bellows and control the quantity and force of the air. The blasts of air are forced through the metal nozzle or tuyere at the end of the bellows and into the forge’s fire. Inscriptions are impressed into the wood on the upper paddle or board of the bellows. There are three circular stamps containing text. Text impressed in the wooden upper paddle of the bellows has been assumed to read “JOHN C. ONIONS, PATENTEES & MANUFACTURERS, BIRMINGHAM””?” “EXTRA” “AWARDED FOR EXCELLENCE OF QUALITY”, made from the following readable text :- “JOHN C ONIONS“ “PATENT - - - & MAN - - - - - - - - -“, “BIR - - - - HAM“, “ _ ERA - - - - “- XTRA-“, “- - - - - - - FOR EXCELL-“ “OF - - - - ITY” Text in the stamp “ - - ECE - - “, “ - - - - - / 1862 / MEDAL”, “- ITY” flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, john collingwood onions, john c onions, allday and onions, bellows, smith’s bellows, 19th century bellows, double-action bellows, double-acting bellows, double lung bellows, double chamber bellows, blacksmith tools, blacksmith trade, blacksmith craft, blacksmith equipment, forging equipment, john c onions patented double-action bellows, brian chapman, warrnambool racecourse, blacksmith, shipsmith, iron smith, mechanical bellows

Dark blue printed instructions on paper mounted on a buff coloured cardboard card.LAMPS, SIGNALLING DAYLIGHT, SHORT RANGE Lamp can be used either (1) on the spike and spike extension stuck in the ground or (2) in the hand if necessary, or (3) withe the adaptor provided on a standard helio stand. SIGHTING TUBE: It is important to see that the lamp is so aligned that the distant receiving station is at the centre of the cross slots and maintained in that position the whole time that signals are being sent. BULBS: when fitting a new bulb, insert the locating tongue on the washer to the front and push the stem right back in the slot. BATTERIES: The correct replacment unit for this set is 8 "S" cells connected "in series". Screw up both terminal nuts tightly, ans see thar all connectors are in position. NIGHT SIGNALLING: An adjustable screen is supplied for reducing the light and one of the colour discs should always be used in conjunction with it when signalling at night under enemy observation. KEY CONNECTIONS. Use the two-pin plug in No.1 socket as long as the light is good enough, then cahnge to No.2. This will greatly lengthen the life of bulb. Used bulbs and batteries should not be relaced in the box, but discarded and a fresh supply obtained. Get a copy of detailed instructions "How to Use" this signalling outfit. KEEP LENS, MIRROR, BULB AND FRONT GLASS CLEAN.instructions, lamp, signalling, daylight, short range

Two piece pink and white box with stylized butterfly on top and three sides of the lid. Label on one end of the lid reads, Berlei 1033, Full slip - long sleeve, stretch lace bodice, fashion - natural Qnty 2 16. 1. One piece of gold coloured net gathered in centre. Border of seeds scattered !8cm X 14 cms. 2. Wire decorative hair comb with gold lame ribbon attached to a band across top of comb. Twenty four wire teeth with loops at the tips, 15 cms X 7 cms. 3. Two sprays of plastic flowers in plastic bags, two white plastic flowers with two green plastic leaves 10 cms X 7 cms. 4. White fabric rose with green paper wrapped stem, 13 cms X 6 cms. 5. Coffee coloured fabric rose backed with four patterned fabric leaves - coffee coloured. Two green plastic tubes attached as stems. 16 cms X 9 cms. 6. Cream coloured fabric rose. Four petals of flocked fabric.Green paper wrapped stem. 16 cms X 9 cms. 7. Black fabric rose with four petals of flocked fabric.Three black fabric leaves. Black paper wrapped stem. 15 cms X 8 cms. 8. Pink fabric rose with six green fabric leaves attached to the back . 13 cms X 10 cms. (.Pale pink fabric rose backed with three green paper leaves, loops of pink ribbon, six small pink fabric flowers and two sprays of brown fern like leaves. 14 cms X 10 cms.ephemera, mementoes, box of flower brooches and pins

This small, portable 1930s Sanax First Aid Case has been strongly constructed, with corners reinforced with metal to take knocks and bumps, so it could be quickly transported to the site of an emergency. Having these supplies organised into a kit made them easily accessible and reduces time to take them to the site of the accident. It was possibly designed for use in factories because the booklet in the case states that the kit complies with “Part 1, Victorian Factories Regulations”. The text of the printed brand “Sanax First Aid Case” is right-way up when the case stands vertically on its hinged side. In modern times people are well aware of the importance of quick treatment when accident and injury occur. However, before the first commercial First Aid Kit was made by Johnson & Johnson in 1888, people had little knowledge about treating injuries and lacked information about suitable supplies to keep on hand for emergencies. They were often unaware of how to help in that critical time before the doctor or other assistance arrived, a particularly important time for the many people living in remote areas. A quote from Johnson’s & Johnson’s 1888 price list explains “It is a fact, which is everywhere being recognized, that many lives are lost and much suffering entailed in such accidents on account of the lack of the simple but necessary articles required to afford prompt assistance to the wounded.” One example of the value of First Aid assistance to community groups is shown in an article from the Weekly Times, 29th November 1930. It records a report from the Annuello Branch of the Younger Set (a Country Women’s Organisation), telling that on Armistice Day their president Mrs Jamieson, presented the Annuello School with the gift of a Sanax Red Cross First Aid outfit, which was accepted as being “of great practical use to the scholars.” (Annuello is a remote wheat growing area in the Mallee region of North Western Victoria, which became a soldier settlement area after World War I. There is a strain of wheat named ‘Annuello’ due to its suitability for that area. ) The Sanax Case in our Collection contains instructions, equipment and medical items suitable for use in emergency situations. The Case was one of 42 patterns available from Sanax that conformed to ‘Part 1, Victorian Factories Regulations’. It includes items made by Sanax Company and by Burroughs Wellcome & Co. (Australia) Ltd., Sydney, NSW. A quote at the back of the First Aid Emergency Instructions booklet says: “Sanax products are made in Australia by or under the supervision of qualified chemists, from the highest quality materials. They are dependable for the purposes written on labels.” BOOKLET included in First Aid Case: “SANAX” First-Aid Emergency Instructions has orange cover and white pages, joined in the centre by two staples. Booklet contains First Aid Instructions for general events listed in alphabetical order. It also contains an indexed sections headed “Poisoning, and what to do” written by S.A. Burrows, Ph.C., Vuc and N.Z. There are instructions and diagrams on how to perform Artificial Respiration. There are advertisement for Sanax products throughout the booklet that include; - Sanax Ambulance Stretcher for timber mills, mines, ships and quarries - Saw dust masks (porous rubber) for workers in dust, paint or duco sprayers Inside cover lists Sanax’s Australian made products including - tablets and powders for headaches, neuralgia, influenza, colds - snuff for Catarrh that is “quite harmless” - First Aid Cases that come in a range of 42 patterns - sunburn preventatives and treatments - healing salve for carbuncles, pock, pimples, boils, varicose ulcers etc. - snake bite outfits and kits LEAFLETS included in First Aid Case: (1) Tannafax Tannic Acid Jelly. Tannafax should be kept at hand in every home. It should be applied direct from the tube and used with neither oil nor grease. Where a large area has to be covered the clamped end may be torn or cut off to give a wider mouth to the tube. Collapsible tubes of different sizes. Made in Australia. Burroughs Wellcome & Co. (Australia) Ltd. (Incorporated in England). Sydney, NSW. Assorted Houses, London, New York, Montreal, Cape Town, Milan, Bombay, Shanghai, Buenos Aires. Copyright A. 1817, J. 9463 (2) Tabloid. The strong thing is the just - - . Tabloid marks the wor - - Burroughs Wellcome & Comp. The use of the word is to enab – the prescriber, dispenser and patient to get the right thing with one short word, instead of the firm’s long name. If another maker apply the word to his product, the act is unlawful. Tabloid is our trade mark and brand. If a vendor disregard it in dispensing or selling, the act is unlawful for the same reason. We prosecute both offenders rigorously, in the interest of prescribers, dispensers, patients and the owners of the trade mark. Please inform us of any instance of either offence. Burroughs Wellcome & Co. (Australia) Ltd. (Incorporated in England). Telephone Number - M 4184 (4 lines) All communications to G.P.O. Box No. 1185 DD. Copyright Sy. 20. & J 9894. Medicines and Equipment included in First Aid Case: - Absorbent Cotton, Sanax, for absorbing blood or drying a wound. As a swab for washing wounds; to place above a compress to keep the heat in: or as a pad to protect wounds or fractures. The Sanax Co. Manuf. Chemists, Melbourne. Regd. Office: 5 Brunswick St, Fitzroy. N.6. - ACHE tablets, Sanax, for all aches, pains, fevers etc. Dose: 2 to 3 tablets with a draught of water, every 3 hours. Children in proportion. For influenza or colds, take the bedtime dose with a hot lemon drink or toddy. Recommended for Headaches, Colds, Influenza, Fevers, Neuralgia, Rheumatism, Nerve Pains, Sleeplessness, and Seasickness. Three Sanax Ache tablets equals one Sanax Ache powder. Each tablet contains 1.75grs. each Phenacotinum and Acety acSzilcyl, and .75grs Ammon Brom. Etc.. Sanax brand specialties are prepared by highly qualified pharmaceutical chemists and may be accepted as safe and effective for the purpose indicated on the label. The Sanax Co. Melbourne - Eye lotion, Sanax, “in eye bath full strength or diluted with equal parts of water. Sanax Co. Brunswich St, Fitzroy, Melbourne. - Iodine, Sanax, POISON, with instructions for what to do if swallowed. - Kuraburn, Sanax, Applied to the burn and allowed to dry, the pain and heat instantly disappear, and blistering is prevented. If necessary, apply again in an hours. To safeguard against burning when sunbathing, apply before exposure to the sun. If already sunburnet, use Kuraburn as directions above. Safe and harmless. Sole makers, The Sanax Co. Brunswick St. - - Vic. - Sal Volatile, Sanax, - - stimulant for - - nervous aches - - or as smelling salts Dose - - - - Solution of A- - - 5%, . The Sanax Co. Brunswick St, Melbourne. - Tannafax, Burroughs Wellcome & Co. Australia Ltd. Sydney, N.S.W., 20gm. Approx., Tannic Acid Jelly, (Tannic Acid with 0.5% Phenol in a water-soluble base) for burns and scalds. A.N. 15050, p188, logo of a unicorn. Apply lightly, allow to dry, and bandage loosely. Do not apply oil or grease. - bottle wrapped in brown paper, unknown contents, paper adhered to bottle. - dish, kidney shaped, metal, white enamel with black rim - eye bath, green, plastic or Bakelite SANAX COMPANY The Sanax Company was at the address of 5 Brunswick Street, Fitzroy [Melbourne] at least as early as November 1924, as shown by its advertisement of Ache Powder in the Weekly Times, 8th November 1924. It was still at this address in September 1951, when it advertised First Aid outfits and components in the Post Master General’s section of the Commonwealth of Australia Gazette. REFERENCES: Annuello, Victoria; Wikipedia, https://en.wikipedia.org/wiki/Annuello,_Victoria Annuello Younger Set, Branch Activities and Local Reports, Country Women’s Organisations, Weekly Times, 29 November 1930, Trove http://trove.nla.gov.au/newspaper/article/224921009?searchTerm=%22sanax%22%20and%20%22melbourne%22&searchLimits=# Commonwealth of Australia Gazette, Issue 32, 24th April 1915, https://www.legislation.gov.au/file/1915GN32 [Johnson & Johnson Price List, September 1, 1888, p. 20. From our archives], Celebrating the 125th Birthday of the First Aid Kit , The Story of Johnson & Johnson, , http://www.kilmerhouse.com/2013/06/from-1888-to-2013-celebrating-the-125th-birthday-of-the-first-aid-kit/ Post Master General’s section of the Commonwealth of Australia Gazette, Issue No. 73, Thursday 27th September 1951 http://trove.nla.gov.au/newspaper/article/232185299?searchTerm=%22sanax%22%20and%20%22fitzroy%22&searchLimits= Sanax First Aid Emergency Instructions, by S.A. Burrows, publisher Sanax Ltd. Fitzroy, Victoria, 1930-1939 English, book, Illustrated edition, Trove http://trove.nla.gov.au/version/40948895 Access to emergency medical help in early settlement days of Victoria could take quite some time, especially in remote areas. From 1888 First Aid Kits and instructions became available for work sites, offices, community groups and individuals, helping to bridge the gap between the accident and the arrival of medical assistance. This portable Sanax First Aid Case is an example of portable medical equipment made in Melbourne, Australia, in the 1930’s and available to the public. It contains a range of items plus information to be used in a variety of injuries and emergencies in in factories, households, businesses and local communities, and instructions on their use. First Aid Case, portable, Sanax First Aid Case. First Aid kit in strong black cardboard carry case with metal reinforced corners, metal hinges on lid, metal catch and leather carry handle. Inside lid is a vertical strap with narrow gap behind it. Base is divided into two compartments. Manufactured by Sanax, Fitzroy, Melbourne, C. 1930-1939 Contents include "Sanax" First Aid instructions booklet, 2 leaflets, metal kidney dish enamelled in white with black trim on edge, green plastic or Bakelite eye bath, eye lotion, Tannafax tannic acid jelly, Sal Volitile, Kuraburn, Iodine, Argyrol, ACHE tablets, absorbent cotton in cardboard box, gauze bandage, and UNKNOWN wrapped bottle. Printed in gold on lid of case “SANAX” FIRST AID CASE. Most of the contents, as well as the case, show the “SANAX” brand. Some contents are inscribed Burroughs Wellcome & Co. (Australia) Ltd., flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, first aid items, first aid kit, emergency first aid, medical emergency kit, home emergency kit, industrial emergency kit, sanax company fitzroy melbourne, burroughs wellcome & co. (australia) ltd, thos. urquhart & son pty. ltd. melbourne, sanax first aid case, sanax first-aid emergency instructions, part 1 victorian factories regulations, tabloid medical supplies

This set of photos is from a leather bound album bearing the inscription "HUME RESERVOIR AUSTRALIA" plus 'The Rt. Hon. L. C. M. S. Amery, P. C., M .P.' all inscribed in gold. It was presented to The Rt. Hon. L. C. M. S. Amery, P. C., M. P, Secretary of State for Dominion Affairs on the occasion of his visit to the Hume Reservoir on 2nd November 1927. This album is of local and national significance as it documents the planning and development of the Hume Reservoir up to 1927. It was the largest water reservoir in the British Empire. The album records the pioneering engineering work that went into its construction.DEPARTMENT OF PUBLIC WORKS, N.S.W. RIVER MURRAY WATERS SCHEME. HUME RESERVOIR. 22. General View of Works from New South Wales end, Looking Upstream. Features: At the left, part of the North Wing Wall, the highest part of which is 26 feet below its ultimate height. Below in the foreground is the portion of the dam where provision is to be made for hydro-electric generation. The tubes, three in number, 13 feet in diameter, will be laid on the level shown and an early start will be made in laying them. The level for the other four regulating outlets, 9 feet in diameter, together with a part of the spillway section of the dam, is underwater at this stage and it may be remarked that at one point, about half way across the channel where the water is now flowing, the concrete foundations are about 80 feet below the level of the water. The broken surface of the water is due to the large “plums” in the concrete. The still water in the right foreground is the stilling pool over the concrete floor of which there is now more than 20 feet of water and by means of which the discharge from the outlet pipes will be quelled. The trestlework on the upstream side of the dam carries the concrete belt conveyor. It extends from the concrete mixer house, which is out of the picture, behind the wing wall, along almost the entire length of the concrete portion of the dam. The concrete is discharged from the belt at any desired point by means of trippers, one of which may be seen over the second trestle. On the other side of the flowing water is the coffer dam. A channel 300 feet wide involving about 140,000 cubic yards of excavation and dug for the temporary diversion of the river as it is flowing now. To the right top of the view beyond the Coffer Dam is the earth embankment being thrown across the major part of the valley by the Victorian Constructing Authority. The Mitta Mitta River flows into the Murray at the far end of the reach of water on the left. August 1927.hume reservoir australia, river murray waters scheme, hume reservoir construction

The theodolite was sold by T. Gaunt & Co. of Melbourne, a manufacturer, importer and retailer of a wide variety of goods including jewellery, clocks and watches, navigational and measuring instruments, dinnerware, glassware and ornaments. Thomas Gaunt photograph was included in an album of security identity portraits of members of the Victorian Court, Centennial International Exhibition, Melbourne, 1888. (See further details below.) History for Troughton & Simms: Edward Troughton & William Simms established a scientific instrument making business in London in 1826. Edward Troughton (1756-1835) had previously had his own scientific instrument business, inherited from his father. His achievement's included a transit telescope for Greenwich Observatory (1816) and the precision surveying instruments for the Ordnance Survey of Britain, Ireland and India. William Simms (1793-1860) had trained as a goldsmith and began to gain work dividing circles on fine astronomical instruments. When William Simms died in 1860, the business was taken over by his son James and nephew William. Troughton & Simms shop in Fleet Street became the hub of the finest scientific instrument made in London, in a period in which there was an expanding demand for precision instruments, for astronomy, surveying and precision measurement. They made instruments for Greenwich Observatory, for imperial surveys and exploring expeditions. When fire destroyed the Houses of Parliament in 1834, the firm was commissioned to create new standard lengths, this required 10 years of testing against the remaining old measurements. Troughton and Simms made several of the main instruments for Melbourne Observatory, including an 18 inch azimuth used of the Geodetic Survey, portable transit instrument (circa 1850), zenith sector (1860), a 4.5 inch equatorial telescope (1862), an 8 inch equatorial telescope (1874) spectroscope (1877) and an 8 inch transit instrument in (1884). While the firm had an excellent reputation for quality the company exasperated many of its customers with delays of years in delivering some instruments. History for Thomas Gaunt: Thomas Ambrose Gaunt (1829 – 1890) was a jeweller, clock maker, and manufacturer of scientific instruments, whose head office and showroom were at 337–339 Bourke Street, Melbourne, Victoria, Australia. Thomas Gaunt established Melbourne's leading watchmaking, optical and jewellery business during the second half of the 19th century. Gaunt arrived in Melbourne in 1852, and by 1858 had established his own business at 14 Little Bourke Street. Around 1869 he moved to new premises in Bourke Street on the corner of Royal Arcade, Gaunt's shop quickly became a Melbourne institution. Gaunt proudly advertised that he was 'The only watch manufacturer in the Australian colonies'. While many watches and clocks may have had Gaunt's name on the dial, few would have been made locally. Gaunt did make some watches for exhibitions, and perhaps a few expensive watches for wealthy individuals. Gaunt's received a telegraph signal from Melbourne Observatory each day to correct his main clock and used this signal to rate and repair ship's chronometers and good quality watches. Thomas Gaunt also developed a department that focused on scientific instrumentation, making thermometers and barometers (from imported glass tubes), telescopes, surveying instruments and microscopes. Significance: With the rapid urban expansion, one of the most important needs of the new colony was to survey and map the landscape of the Australian Colony’s interior. Theodolites, such as this one, made by Troughton and Simms, who were significant scientific instrument makers of the 19th century were instrumental to the colony's surveyors and would have played an important part in their everyday work. This transit theodolite remains of national significance due to its pioneering role in Australian science and its association with Australia's earliest surveyors and astronomers. It is also significant for its association with nineteenth-century surveying instruments and instrument makers. Theodolite, Vernier repetition theodolite with enclosed horizontal circle (of about 130 mm diameter). Vertical circle exposed and somewhat corroded (diameter about 115 mm). Plate level 20" per division. Altitude bubble 20" per division. Horizontal and vertical circle intervals 20". Original (blue/grey) paint. Altitude bubble setting screw disabled. Tribrach allows movement of theodolite by 15 mm inside tribrach (for centering).Inscribed on the inner mounting plate,“Specially made in England for T Gaunt & Co Melbourne” and inscribed a little lower “Troughton & Simms London”flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, theodolite, t. gaunt & co, troughton & simms, scientific instrument, measuring instrument, surveyor's instrument

William Corbould was the son of a Ballarat tailor. He attended Ballarat College, and obtained certificates in assaying and metallurgy at the Ballarat School of Mines (SMB) in 1883, studying under the revered Professor Mica Smith. Corbould was not a born student and remembered his first experience at SMB: 'From the Registrar's Office I was led to be introduced to the Professor of Chemistry, one Mica Smith. The initial encounter gave me little encouragement - his large laboratory was filled with hundreds of bottles bearing strange labels with queer symbols on them. My heart sank. At the first opportunity I grabbed my hat and made for the door, but the good professor called me back. I pointed out that I was never any good at school ... so it was no use pretending to be clever enough to understand all those weird symbols! The Professor told me not to worry about that and took me to one of the benches where he found a blowpipe and a charcoal block. Mixing together two powders from bottles on the shelf he transferred a sample to the charcoal and directed the bunsen flame onto it. Soon it began to melt and a white bead appeared in front of my eyes. He then took a test tube and added a little colourless liquid from each of two bottles. A beautiful dark blue colour appeared. My interest was won.' During Corbould's mining career he travelled to Europe twice, and visited most of Australia's main mining fields. Corbould started his career as an assayer at Pinnacle Silver Mine, Silverton, and was then a self-employed assayer at Broken Hill. Corbould became an assayer for the infant BHP mine, and later worked in Kalgoorlie and Coolgardie, including managing Hannan's Reward, the oldest gold mine on the Kalgoorlie gold field. He spent 13 years at the Mount Elliott copper fields as general manager. In 1923, at the age of 57, Corbould went to Mount Isa and reported on options, experimented with new metallurgical processes and floated a company. John Carden of CRA said: 'Corbould was the man who brought Urquhart to Mount Isa. He was the man who made it all possible. He is tremendously important in the Mount Isa story, because he was the first technical man, the first professional man on the scene. He was responsible as I said, for bringing finance to the place, but I think even more importantly he was the first man to recognise the need to put all the little claims in the Mount Isa discovery together. I think perhaps his major contribution to Mount Isa was this amalgamation on the various claims. He recognised that the ore bodies at Mount Isa were not as rich as Broken Hill and they would never have survived had it been fragmented, so he was terribly important.' After completing major financial negotiations for Mt Isa Mine from London in 1927 Corbould remained in Europe where he remained until his death. Corbould was awarded the Legion of Honour of the American Institute of Mining and Metallurigical Engineers for fifty years service. Corbould died at Monaco in 1949 at the age of 82. (http://guerin.ballarat.edu.au/curator/honour-roll/honourroll_Corbould,William.shtml)A white paper certificate with black printed and handwritten text, and a blue Ballarat School of Mines seal. The certificate is signed by Andrew Berry (Registrar) and James Oddie (Vice-President).Signed on the left 'W.H. Corbould'mining, ballarat school of mines, mining alumni, metallurgy, james oddie, andrew berry, william corbould, corbould, berry, oddie

Most were used in various capacities at Ballarat School of Mines or University of Ballarat.Assorted lamps including Edison Carbon filament light bulbs and other special purpose lamps, .1-3) Robertson, pear shaped 220 V 16, carbon filament? bayonet light bulb with 'nipple'. .4) Ediswan, standard shaped, 928, carbon filament? bayonet light bulb with 'nipple'. .5) (B in a circle) 280 V 32 oo1A, pear shaped, carbon filament? bayonet light bulb with 'nipple'. .6-7) Crompton? standard shaped, carbon filament? bayonet light bulb. Clear glass with an amber tint. .8) 230-240 V 40 W, pear shaped, wire filament bayonet light bulb. .9-10) Osram standard shaped, heavy spiral and disc electrodes, bayonet light bulb. (The disc is loose in 10) .11 a&b) Osram black glass, large standard shaped, 230-240 V 125 W, bayonet light bulb. .12) Philips tubular shaped projector lamp with instruction leaflet. .13) Philips tubular shaped projector lamp with instruction leaflet in original box. .14) EH JA 12 V 55 W small projector lamp. .15) Large special purpose, standard shaped, frosted bayonet light bulb. .16) Siemens, standard shaped, modern Edison screw light bulb. .17) Philips, standard shaped, modern Edison screw, frosted light bulb. .18) Crompton, gas filled 240 V 75 W, standard shaped, bayonet frosted light bulb in original box. .19) Crompton, gas filled 230 V 300 W. standard shaped, large modern Edison screw light bulb. .20) Probably an extension cord with a bayonet fitting at one end connected by a twisted cord of two fabric covered wires to a large socket. This socket has a copper Edison screw inner, surrounded by a ceramic tube and covered with a copper housing. The housing is cracked in two places.Some have makers brand and voltage and wattage stamped onto the glass.scientific instrument, ballarat school of mines, globes, edison, lamps, light bulbs, bayonet