Torch, plastic right angled, green, belt clip, glass globe, 2 spare glass gloves in base (did have red, green & yellow lens).lighting - batteries, military equpment - army, passchendaele barracks trust

from April Hamer Dredgegrey metal with a handle, glass lens housing on frontlighting, batteries

Historically this item was before electricity lighting was available. There is no protection around the candle to prevent wind or air movement from extinguishing the candle flame therefore this means of night illumination was used within a house environment. It could be easily moved from room to room but would have insignificant "candle power" to lighten more than a few metres around it. This item was before kerosene lamps, gas lighting and electric/battery lamps This candle holder would have been used within the homes of Kiewa residences to illuminate the way from room to room where there were no other forms of lighting available. As it is relatively light in weight and with a finger/s grip it is highly portable and was in time replaced by battery powered torches. It was used in a period where home, or local made candles were a necessity of living. This Item was used before battery powered torches were invented. Although candles are still used in the late 20th and after, their fundamental use has changed and they function more as a mood enhancement item or as a back up for an electrical power failure and the alternative battery powered torch also runs out of power.1. This small basin shaped candle holder is formed of metal and sealed with a pale grey enamel skin. It has a black painted edge and finger holder. It has a raised vertical spout for the securing of the candle. The bottom of the basin is contoured from the candle base to the outer edge to allow for melted candle wax to be safely held within the basin. 2. As above. The handle is rusty but otherwise in good condition. candle-holder, portable light enamel household goods

The period when kerosene was extensively used for indoor lighting was before electrical reticulation was installed in rural areas. In remote areas this was up to the mid 1900's. The kerosene lantern however was still in use, for camping and outdoor activities, well beyond this period and was eventually replaced by LPG and battery powered lighting. The transition phase to "modern" outdoor and domestic lighting lingered on the rural areas where the electrical reticulation suffered from reliable constant supply.In the Kiewa Valley, being a rural region, had reliable electrical domestic and farm supply only after the Kiewa Hydro Electricity Scheme had been fully operational. The supply was relative to how close the homestead was to the major electricity substation. This kerosene lamp was in use during the period when it was the only reliable source of domestic night time lighting. The strength of refractive light produced by this lantern/lamp hinged upon the size of the lamp(wick and glass bowl). The small size of this lamp suggests that it was for use in a small room(children's bedroom) or as providing a light for a safe walk to the outside ablutions (toilet) area. This small kerosene lamp has an enclosed "cup" body which would have contained the kerosene fuel. The top wick holder, made from brass, has an extended enclosed spout which raises the wick approximately 20mm from the bottom of the holder. The wick holder screws into the the top of the kerosene reservoir bowl and has a wick adjustment screw (light control) at one side. The small white glass light reflector bulb nestles securely onto the wick holder and is kept snug by snap designed extending "fingers". The section between the bottom of the refractive glass "light" bowl and the top of the kerosene bowl has perforations to allow air passage to feed directly to the wick.The light refracting bulb is open at the top to allow heat and smoke from the burning wick to escape upwards.On the wick control screw "CWB BRITISH MADE"kerosene reading lamp, domestic lighting, bedside light

Originally these mantles where produced to be used in gas street lights in Europe and North America cities.There use started in 1891. These mantles were used before electrical power street lighting was installed. They have been used ever since until safety concerns regarding radiation from their thorium infused particles made alternate mobile lamps more attractive. The age of open flame recreational lighting is fast coming to a close. The greater use of battery and generator powered lighting(ease of operation) has brought the costing of these alternative lighting to an acceptable level. The age of miniaturisation and volatility of the open flame has seen a greater swing to smaller and more stable lighting. These incandescent gas mantles were initially used in the Coleman White Gas LanternsThe Kiewa Valley, with its closeness to the Victorian Alps, allows greater opportunity for the "happy" campers to enjoy the outdoors. The lighting provided by the incandescent gas lamps allow the adventurer at heart to enjoy an alternative lifestyle and still having the comforts of "home" at their finger tips. The numerous camping facilities in the Kiewa Valley and the upper alpine region is testament that those living in the cities need a break from the day to day grind and go to a quieter and more spiritual environment. Artificial lighting, as provided by mobile apparatus, is highly valued by the urban gypsy. The outdoor recreational industry has significantly provided for, if only at holiday time, an industry that has a relatively high employment rate and beneficial to local communities.The gas mantle is in a fabric, pear shaped, of rayon fabric impregnated with cerium. It's appearance is similar to a very small fishing net. The fabric is very ply-able until it is heated by an open flame then it becomes more rigid and lets out an incandescent white light. Its colour is white to off white. It has a draw string fastened a t the bottom (to wrap around the flame source)lighting, gas, heating, camping, outdoor equipment lamp

This particular lamp was made for the dinner table or "parlour". This was the most effective indoor lighting before electrical lighting was introduced in the 1940's. These table lights would have still been used after this time as emergency lighting during electrical power shortages (outages). These emergency lighting lamps, including candles, were eventually replaced by battery power. The Kiewa Valley was supplied by electricity well before many other rural regions due to the State Electricity Commission constructing the Kiewa Hydro Electricity power turbines (late 1930's to mid 1950's). Petrol and diesel generators were used in other rural regions before state wide electricity was available.The significance of this kerosene lamp to the Kiewa Valley is that it provides the proof that before the Hydro electricity scheme was established in the valley, householder and commerce relied on candle/kerosene power. Although at certain times before battery and solar energy became the night time lighters the sole source of lighting was candle power and kerosene power. The supply of both however was still required by most of the population by supply from city and larger country town suppliers. This nearly fully glass made table lamp(kerosene) has a large glass bowl/basin like kerosene storage unit with a glass circular finger handle (similar to a ordinary cup). Formed single star like patterns (50mm apart) encircle the centre of the bowl. On top of the bowl sits the metal (brass) wick holder with a small wheel protruding out one side for adjusting the wick length(increasing or decreasing the strength(regulating) of the amount of light projected. Four prongs rise from the circular base light fixture holding the windproof and refractive glass "pot belly" shield. lamp table, kerosene lamp, household lighting (non electrical)

This box of matches was up until the 1980's the major source of lighting "small" fires, mainly for cigarettes, pipes (smoking), BBQs, gas/ kerosene heaters and "clearing" rural shrub by small fires. It was not until flint based battery and lighter fluid (hand held lighters) were introduced did the need for "matches" (a more dangerous application of instant fire starters) become relegated to a lower level "demand" item. The limited quality supplied in a box could also not compete with hand held gas and "lighter fluid" lighters. Box of matches belonged to the "yesteryear" fashion accessory's most important list. Matches had become obsolete for the major stream of users as cheaper, easier to use and longer lasting "cigarette" lighters were produced.This match box of Australian make and vintage in origin, was originally manufactured by a British Match Box Company (Bryant and May in Bow London), which expanded to the Australian "Colonies". The Australian subsidiary was at Cremorne, Melbourne. It was typical of goods, which had their "founding fathers" based in "the Mother Country" (England). The early settlers in the Kiewa Valley found these matches an important necessity for not only rural life but also for the recreational "smoko".This small box of "safety" matches has an inner "drawer" which can be slid open to reveal the "match" sticks. The small bowl shaped phosphorous at one end of a "match" is the fire starter(phosphorus) which when lit would "flare" up and provide a small flame. This typical box of matches held an average of sixty matches. The top of the match box has a "glued on" signage with manufacturer's details. In brown script and on a blue background "BRYANT & MAY'S and below this "CROWN" below this and on a red background with faded and worn letters "SAFETY MATCHES" On either side of the top side and in smaller print "MADE IN AUSTRALIA" and opposite "AVERAGE CONTENTS SIXTY"fire starters, cigarette lighters, bbq lighters, domestic fire starters

This slush lamp was used in the Newmerella Bakehouse ( Sederlan's Bakery) before electricity was connected. In the days before battery powered torches many used a slush lamp to provide the light they needed to carry out their duties. It held a flammable liquid like paraffin. When the wick was lit the slush lamp provided sufficient lightSlush lamps were designed to be carried around but they could be dangerous because they have flame as a source of light. This is an example of a portable lighting device in common usage before the use of batteries.A cast iron slush lamp. It is a a crude lamp or burning slush, tallow, or grease.It is a jug shaped container on a shallow dish that holds the fuel and a wick that draws the fuel by capillary action. There is some burnt hessian impregnated with fat. lighting lamp-slush newmerella-bakehouse

These lamps belonged to Ernie Eaton and were used for spotlighting rabbits. Carbide lamps, or acetylene gas lamps, are simple lamps that produce and burn acetylene (C2H2) which is created by the reaction of calcium carbide (CaC2) with water. Acetylene gas lamps were used to illuminate buildings, as lighthouse beacons, and as headlights on motor-cars and bicycles. Portable acetylene gas lamps, worn on the hat or carried by hand, were widely used in mining in the early twentieth century. They are still employed by cavers, hunters, and cataphiles Torches, candles, oil lamps and kerosene lamps were designed to be carried around but they could be dangerous because they have flame as a source of light. These lanterns are significant examples of lighting devices widely used used before the use of battery powered devices. A pair of Germania lamps. They have brass cases with steel bodied generators and convex lens. .1 is a metal carbide coach lamp. .2 is a similar lamp but has the chimney missing. .3 is a metal handle used to attach a lamp to the front of the vehicle.Germania Base has circle with three leaves.lantern lamp germania coach-lamp

In the days before battery powered torches many used a slush lamp to provide the light they needed to carry out their duties. It held a flammable liquid like paraffin. When the wick was lit the slush lamp provided sufficient light.Slush lamps were designed to be carried around but they could be dangerous because they have flame as a source of light. This is an example of a portable lighting device in common usage before the use of batteries.A black metal slush lamp with two glass panels and a stock. At the back is a hinged door. There is a hole on top caused by rust or being burned through. Kerosene or oil was probably the fuel used.On top of light - Serial No 339220slush-lamp lighting kerosene oil

This item is an example of a lighting device used before electricity and battery power were widespread.A small brass Elfin Reflector Night kerosene lantern with a reflector plate at the back. A handle runs around the middle. It has a small canvas wick. The glass is missing.On top of fuel tank-ELFIN REFLECTOR NIGHT LAMP On back-MADE IN U.S.A. BY EDWARD MILLER & CO USA On wicker winder (left) -E. MILLER -CO.U.S.A.lamp lantern kerosene oil lighting miller-edward

Information on trams. Includes small photo of Trams 24 & 26, Map of Bendigo Tram routes 1972and 1996, Ballarat No 26 tram, S 164 tram, and No 38 tram. Mentioned is the individual history and where they can be found, operating and non operating trams, different classes of trams. Geelong's Birney Cars, two of which came to Bendigo and the Type G (Birney Safety Cars). Other information includes Nos, First introduced, Last withdrawn, Electrics (motors), Size and Seating/Crush Load. (8 pages).bendigo, history, long gully history group, the long gully history group - bendigo's tram system, battery trams, steam trams, electricity supply company of victoria, toastrack trams, david bromage, bendigo tramways, state electricity commission of victoria, the bendigo trust, chris brownbill, bendigo talking tram, david hoadley, prahran and malvern tramways trust, hawthorn tramways trust, fitzroy northcote and preston tramways trust, melbourne brunswick and coburg tramways trust, north melbourne electric tramway and lighting co, sydney tramway museum, tramway museum of victoria, railpage australia, ballarat vintage tramway, andrew cox, russell jones, australian electric transport museum, birney cars, j g brill & co, bob hawke, adelaide municipal tramways trust, tim blythman, bill winn, john radcliffe

Situated at the end of Fraser Street, Diamond Creek. The Diamond Creek Gold Mine was the largest in the Diamond Valley Shire with a shaft depth of over 290 metres at the peak of its development in 1915. The surface plant was quite large with four boilers and five steam engines working the battery, winder, water pump, air compressor and lighting generator.This photo forms part of a collection of photographs gathered by the Shire of Eltham for their centenary project book, "Pioneers and Painters: 100 years of the Shire of Eltham" by Alan Marshall (1971). The collection of over 500 images is held in partnership between Eltham District Historical Society and Yarra Plenty Regional Library (Eltham Library) and is now formally known as 'The Shire of Eltham Pioneers Photograph Collection.' It is significant in being the first community sourced collection representing the places and people of the Shire's first one hundred years.Digital imagesepp, shire of eltham pioneers photograph collection, diamond creek, goldmine, gold mine, poppet head

Francis Powell (1861-) and Francis Hanmer (1858-1925) founded Powell and Hanmer Ltd in the Summer of 1885 for the manufacturer of bike and carriage lamps. Their first advertisements began to appear in November of 1885. Early models of the automobile, motorbike and bicycles used carbide lamps as headlamps. Acetylene gas, derived from carbide, enabled early automobiles to drive safely at night. Thick concave mirrors combined with magnifying lenses projected the acetylene flame light. These type of lights were used until reliable batteries and dynamos became available, and manufacturers switched to electric lights.Acetylene bicycle light carbide. Green and red side lens. 200 cm High. Inscription Powell & Hanmer Birmingham. Previous Catalogue Number 112.lighting, accessories, bicycle light

The Ellenborough mine was located on Snob's Hill in Eaglehawk, near Bendigo, Victoria, Australia. It was a notable mine operating on the New Chum line of reef in the Eaglehawk District. The Ellenborough Mine was the first mine in the world to use electricity to light above and underground. On 12th October 1882, the installation of the lighting system was completed by the Australian Electric Light Company. 'The whole of the levels and back have been lighted so that candles have been dispensed with ....the engine house, blacksmith''s shop and brace are also lighted at night' (Bendigo Advertiser, 13th October, 1882). 'The electricity is generated in an ordinary electric battery placed in the engine-house, and driven by a three horse power " Soho" engine. This engine is supplied with steam by a pipe leading from the steam pipe used to supply the air-compressor. It can be driven at full power with a pressure of 351bs of steam, with the engine wheel moving at the rate of 220 revolutions per minute; the battery wheel makes 850 revolutions. The plant occupies very little space. The battery is a to-light machine; that is, it can supply sufficient electricity for 35 lights. Whether there is only one light burning or 35, there is no necessity to alter the machine or the speed, and there is no danger of one light becoming too powerful because all the rest are put out. There is no danger, as many people suppose, in taking hold of the wires, even if uncovered, for the engineer last evening plainly demonstrated that where the shock was greatest it was very mild, and could hardly be felt'.Handwritten copy of a report in the Bendigo Advertiser 24/5/1907. ''Serious break in Water Main which is situated about 100 yards south of the mine. Main service pipe which supplies Harvey town has been leaking for some time past. Water soaking through old surface workings into the Belmont and Saxby shaft where it rose 60 feet and filled two x-cuts, one out west 208 ft, and the other out east about 45 ft. Ellenborough began baling on Sunday 26th May, and it will take many days before work can be resumed. The mine was only working one shift and no men were underground at time of in rush''. Document from Albert Richardson Collection of mining history.document, gold, drainage problems, ellenborough flooded, bendigo advertiser, 27/5/1907, harveytown, belmont & saxby, ellenborough, albert richardson, electricity

Handwritten notes on mining machinery sold at auction. South St Mungo - Winding Engine. Pair of 15 ? Cyl. Winding Engines. 7 ft Winding Gear. Also, Jackass Boiler. Feed Pump, Trucks, Rails, Flat Sheets, Poppet Heads, Housing, etc. Sold for 270 pounds. Purchaser H Ralph for Austral Drill Co. Lady Barkly Company - 12-inch Cylinder Winding Engine. 8 ft Winding Gear. Cornish Flue Boiler, Feed Pump, Rails, Poppet Heads, Housing, etc. Sold for 162 pound 10 shillings. Purchaser W. J. Sever, Mining Merchants, Melb. Crushing Battery - Complete 40 Head Battery. Tandem Compound Engine. 11 in & 22 in Cylinders. High Press, Boilers, Electric Lighting Plant. 6 in Cyl. High Speed Engine, Fire-proof, Feed Pump, Rails, Flat Sheets, Tools & Sundries. 1000 pound to R. Ralph. These three mining plants, complete. Sold by Messrs. Bell, Lambert and Nixon - Auctioneers. Ref; Bendigo Advertiser. July 14th, 1910, Page 2.document, gold, new chum & victoria lines of reef, mining machinery new chum line eaglehawk, south st mungo, h ralph, austral drill co, lady barkly company, w j sever, crushing battery, messrs bell, lambert and nixon

Francis Powell (1861-) and Francis Hanmer (1858-1925) founded Powell and Hanmer Ltd in the Summer of 1885 for the manufacturer of bike and carriage lamps. Their first advertisements began to appear in November of 1885. In 1890 they lodged a Patent for “velocipede” lamps to be used by lightweight wheeled vehicles propelled by a rider, such as a bike, tricycle and railroad handcar. In April of 1913, they were selling headlamps for cars and in 1914 built their second factory manufacturing dynamo lighting sets in Rocky Lane Birmingham, also for the production of dynamos for motor cars. Then in 1929 Powell and Hanmer Ltd, was acquired by the Lucas company which was at that time the main competitor for the manufacture of non-electrical equipment for cycles and motorcycles. When a director of Powell and Hanmer joined the board of Austin motor cars, Lucas feared that Austins might encourage Powell and Hanmer to start to produce electrical equipment for supply to the company and as a result this association might affect Lucas's business with other large vehicle manufacturers. As a result, Lucas made an offer to Powell & Hanmer and purchased the business for £500,000. Carbide lighting was used in rural and urban areas of Australia which were not served by electrification. Its use began shortly after 1900 in many countries and continued past the 1950s. Calcium carbide pellets were placed in a container outside the home, with water piped to the container and allowed to drip on the pellets releasing acetylene. This gas was piped to lighting fixtures inside the house, where it was burned, creating a very bright flame. Carbide lighting was inexpensive but was prone to gas leaks and explosions. Early models of the automobile, motorbike and bicycles used carbide lamps as headlamps. Acetylene gas, derived from carbide, enabled early automobiles to drive safely at night. Thick concave mirrors combined with magnifying lenses projected the acetylene flame light. These type of lights were used until reliable batteries and dynamos became available, and manufacturers switched to electric lights. Acetylene lamps were also used on riverboats for night navigation. The National Museum of Australia has a lamp made in about 1910 that was used onboard the PS Enterprise, an 1878 Australian paddle steamer, currently owned by the National Museum of Australia in Canberra. It is still operational, and one of the oldest working paddle steamers in the world, listed on the Australian Register of Historic Vehicles.Acetylene Carbide lamp, marine pattern burner housing and reflector missing Carbide Lamp, metal. Has plate for attaching to wall, & gimbal to allow lamp to remain vertical. Noneflagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, carbide lamp, motor vehicle, bike lamp, lighting, vehicle lighting, powell, hanmer, acetylene gas lamp, early lighting, marine lighting

Francis Powell (1861-) and Francis Hanmer (1858-1925) founded Powell and Hanmer Ltd in the Summer of 1885 for the manufacturer of bike and carriage lamps. Their first advertisements began to appear in November of 1885. In 1890 they lodged a Patent for “velocipede” lamps to be used by lightweight wheeled vehicles propelled by a rider, such as a bike, tricycle and railroad handcar. In April of 1913, they were selling headlamps for cars and in 1914 built their second factory manufacturing dynamo lighting sets in Rocky Lane Birmingham, also for the production of dynamos for motor cars. Then in 1929 Powell and Hanmer Ltd, was acquired by the Lucas company which was at that time the main competitor for the manufacture of non-electrical equipment for cycles and motorcycles. When a director of Powell and Hanmer joined the board of Austin motor cars, Lucas feared that Austins might encourage Powell and Hanmer to start to produce electrical equipment for supply to the company and as a result this association might affect Lucas's business with other large vehicle manufacturers. As a result, Lucas made an offer to Powell & Hanmer and purchased the business for £500,000. Carbide lighting was used in rural and urban areas of Australia which were not served by electrification. Its use began shortly after 1900 in many countries and continued past the 1950s. Calcium carbide pellets were placed in a container outside the home, with water piped to the container and allowed to drip on the pellets releasing acetylene. This gas was piped to lighting fixtures inside the house, where it was burned, creating a very bright flame. Carbide lighting was inexpensive but was prone to gas leaks and explosions. Early models of the automobile, motorbike and bicycles used carbide lamps as headlamps. Acetylene gas, derived from carbide, enabled early automobiles to drive safely at night. Thick concave mirrors combined with magnifying lenses projected the acetylene flame light. These type of lights were used until reliable batteries and dynamos became available, and manufacturers switched to electric lights. Acetylene lamps were also used on riverboats for night navigation. The National Museum of Australia has a lamp made in about 1910 that was used onboard the PS Enterprise, an 1878 Australian paddle steamer, currently owned by the National Museum of Australia in Canberra. It is still operational, and one of the oldest working paddle steamers in the world, listed on the Australian Register of Historic Vehicles.Acetylene Carbide lamp, Model “Panther” distinct patterned side red and green lenses. These lamps were also known as acetylene gas lamps. They work off a chemical reaction between calcium carbide and water.Model 75flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, carbide lamp, motor vehicle, bike lamp, lighting, vehicle lighting, powell, hanmer, acetylene gas lamp, early lighting

George Reed was a draftsman living in the City of Moorabbin c 1950 1899, David Misell, invented this "electric device" ( torch / flashlight) powered by "D" batteries laid front-to-back in a paper tube with the light bulb and a rough brass reflector at the end. Misell assigned his invention over to the American Electrical Novelty and Manufacturing Company owned by Conrad Hubert. In 1905, Hubert changed the name again to The American Ever Ready Company, selling torches / flashlights and batteries under the trademark Ever Ready. In 1906 the British Ever Ready Electrical Company was formed for export of batteries; it became independent in 1914. The American Ever Ready Company became part of National Carbon Company in 1914. The trademark was shortened to Eveready. In 1986, Union Carbide sold its Battery Products Division to Ralston Purina Company becoming the Eveready Battery Company, Inc. and in 1992, it bought the British Ever Ready Electrical Company. Prior to March 1, 1980, the company's alkaline battery had been called the Eveready Alkaline Battery (1959–1968), Eveready Alkaline Energizer (1968–1974) and Eveready Alkaline Power Cell (1974–February 29, 1980). On March 1, 1980, it was rebadged under its current name, Energizer. 2019 production plant in Portage, Wisconsin, but the majority of batteries are made in China and there are also numerous production facilities outside the US. This is an industrial strength Eveready Torch made in England and was used by George Reed, a draftsman, who lived in Bentleigh , City of Moorabbin in mid 20th CLarge 'Eveready' industrial hand torch/ flashlight with rubber protective coverEVEREADY /MADE IN ENGLAND clothing, manufactured lace, dressmaking, blouses, theatrical props, lights, torches, lighting, early settlers, moorabbin shire, mechanics institute cheltenham, postworld war 11 settlers, housing estates moorabbin 1950, bentleigh, ormond, moorabbin, cheltenham, , clark judy, reed gladys, reed george

In the 1890s, American Ever-Ready Company founder Conrad Hubert invented the electric flash light which worked with his dry cell batteries . The first Ever Ready flash light was patented in 1898. The first portable flashlights were hand-made from crude paper and fibre tubes, with a bulb and a rough brass reflector. Because batteries were weak and bulbs primitive, flashlights of the era produced only a brief flash of light- thus the name. This torch is named a Bullseye because of the glass lens at the top.This torch helps to interpret the development of lighting. The collection of whale oil lamps as well as gas and electric lighting. Silver coloured metal torch. It has a body and a lid/top. The body is hip flask shaped. On the side of the body is a silver coloured metal button which can be slid up and down. On both the front and back of the body and the top centre are tow small raised circles. The top, which can be removed has a glass dome on it. The inside of the body has a small piece of contact metal where the slide button on the outside turn the torch on and off. In the centre at the top there is the light bulb. The base of the body can also be removed. The base has the makers mark EVER READY stamped on it.Lid light: FY (within a diamond shape) / PATENT 40092 Base: EVER READYlight, torch, lighting, portland, glenelg shire

The 1st edition of this famous work, giving an excellent account of the machinery used in late 19th century metal mining in the UK and overseas is very rare. It covers a wide range of equipment - pumps, steam engines, drills, winding engines, stamps & concentration mills, aerial ropeways, tramways and early uses of electricity etc. Brown hard cloth covered book. xvi 564 pages with additional advertisements, with over 300 illustrations and drawings, some fold out. Chapters include Water as a motive power, Wind engines and ventilating machinery, Steam boilers/engines and oil engines, hoisting machinery, draining of Mines, pumping engines, rock drilling machinery, boring machinery, concentration machinery, sizing and classifications trommels, joggers and jigging, fine concentration, milling of gold ores, milling of silver ores, amalgamation plates and machinery, dry and roasting machinery, chlorination and cyandide processes for the extraction of gold, electricity as a motive power for mining, electric lighting and blasting, aerial wire ropeways, transport by rail and road. There a a number of lovely line illustrations in the book including: Poncelot's undershot waterwheel; Fromont furnace;Victor turbine; Pelton waterwheel; Root's positive blower;Cross section and front elevation of Lancashire boiler; Robey's Compound Mill Engine; Portable Winding Plant; Iron Pit Head Gear ; Loading Arrangement in an Incline Shaft; kibble; Worthington Pump; California Pump; Scram's Air Compressor; Rock drill Bits; Special Sharpening tools; Boring tools;Rotating Picking table; Ore Feeder; roller crusher; stamp battery; round buddle; slime table; vanner; amalgamating plant; belt elevator;roasting furnace;splicing wire rope; capel; tipping waggon;mining, cornish pump, linkenbach table, water wheel, ventilation, oil engine, california, america, water, steam boilers, steam engines, oil engines, pumpimg, rock drilling, boring, jiggers, milling, silver, gold, drying and roasting, chlorination, cyaniding, lead, zinc, copper, electricity, electric lighting, wire ropes, transport, wind engine, poppet head

The carbon rods were either used by 'Gem Pictures' or in the study of 'Electricity and Magnetism' at the Ballarat School of Mines. In electricity a current is conducted through carbon rod between the electrode holder and the arc in carbon arc lighting or welding. A carbon rod is also used in batteries. A tin full of carbon rodsOn box found with carbon rods: "Siemens-Planiawerke aktiengesellaschaft fur kohlefabrikate berline-Lichtenberg Made in Germany jede kohle trägt unseren vollen firmenstempel Translation: Siemens Planiawerke A corporation limited by shares producing carbon in Berlin-Lichtenberg Each carbon carries our full company stampballarat school of mines, carbon, carbon rod, arc lighting, electricity, henry sutton, theatre, projector, gem pictures

Bound copies of the Ballarat School of Mines Students' Magazine, 1898-1901 Vol 1, No. 1, September 1898 * News and Notes (Ballarat School of Mines Museum, J.F. Usher, New British Pharmacopoeia, excursion to Bendigo) * History of the Ballarat School of Mines * Current Topics (Federation, Gladstone, Anglo-American Alliance) * Of Custom * Discovery of Coolgardie * Mining Notes(Clunes, Pitfield, Birthday Mine, Western Australia, Transvaal, Mt Bischoff, Rand Drill Co.) * From the Journals * The Societies - (Student Association, Ballarat Field Club and Science Society, Ballarat Photographic Club) * Original Poetry * Sports * Students' Association Committee Meetings * On the Increase of Temperature of the Earth With Increased Depth Vol 1, No. 2, October 1898 * Notes about some of the Past Students (E.M. Weston, J.A. Porter, H.R. Sleeman, G.E. Sander, B.C.T. Solley, T. Rhys, C. Burbury, D. McDougal, J. Matsen) * Excursion to Daylesford, p.3 * History of the Ballarat School of Mines (continued) * The Soudan * Greater Melbourne * Image of J. Hopkinson, electrical engineer killed ascending the Alps * What is Science * Mining Notes (Pitfield Plains, Victoria United G.M.Co., Lithgow, Avoca, great Cobar, Mt Whycheproof) * Student's Association (women's franchise) * Sports Vol 2, No. 1, March 1899 * News and Notes * History of the Ballarat School of Mines (continued) * Notes of Victorian Geology, 1. Granites, by Thomas S. Hart * Sir William Crookes * Summaries and Notes from the Mining Journals * Students' Association * Sports * The Bush Assayer * Solubility of Gold-Silver Alloys in Potassium Cyanide * Correspondence Vol 2, No. 2, April 1899 * News and Notes (Smythesdale Excursion, New Buildings, A.S. Coyte, R.J. Allan) * History of the Ballarat School of Mines (Continued) * The New Students (J. Owen, A. Clayton Morrisby, A.S. Atkin, J. Alexander Reid, Alfred G. Johnston, L. Lowe, F.H. Dalton, W.M. Robertson, A. Hacke, H.L. Giles, W. Martin, E. Walshe, H.L. Krause, R. Sawyer) * Berringa by Oh'E Jay * Summaries and Notes from the Mining Journals * Mount Magnet to Victoria - A Long Bicycle Trip * 1898 Examination returns * Sports Vol 2, No. 3, May 1899 * Technical Education and the Proposed Affiliation of the Schools of Mines with the Melbourne University. * Laying of the Foundation Stone of the New Classrooms (now Administration Building). Alexander J. Peacock * News and Notes (Past Students - A.S. Lilburn, J.W. Sutherland, J. Richardson, E. Prendergast, J. Wallace, J. Kidd, J. Lake, Mathew Thompson), Coolgardie Exhibition. * Trip to Lal Lal * Students' Association * Summaries and Notes from the Mining Journals * Professor Henry Louis on Mining Education * Corrections Used in Chaining by C.W. Adams * The Black Horse Cyanide Plant * Sports * Completed List of 1898 Examinations Vol 2, No. 4, June 1899 * News and Notes * The Education Problem by D.N. McLean * A Few Hints on Histological Technique by Emil Gutheil * Summaries and Notes from the Mining Journals * Students' Association * A Visit to the Skipton Caves (Mount Widdern, Ormand Hill, volcano, Emu Creek, Mount Kinross, Mount Elephant, Mount Vite Vite, Mount Kinross, Mount Hamiston) * Mount Magnet To Victoria (cont) * The New Engines at the Ballarat Woollen Mills - includes image of the Compound 700 H.P. Engines constructed for the Ballarat Woollen Mills by Austral Otis Company and consulting engineers Monash and Anderson. * Sports * Original Poetry * Correspondence Vol 2, No. 5, July 1899 * News and Notes (E. Byron Moore, Visit to Britannia Gold Mine, J. Bryant, Visit to Last Chance Mine) * A Few Hints on Histological Technique (cont) by Emil Gutheil * Summaries and Notes from the Mining Journals * Professor Alfred Mica Smith (includes image) * Notes on Victorian Geology Part 2 The Trappean Rocks, by Thomas Hart * Origin of Diamonds * Hydraulic Mining by A.E.C. Kerr * Volcanoes by F.G. Bonney * Analytical Chemistry Notes by Daniel Walker * Some Things Out To Do * Sports * Correspondence Vol 2, No. 6, August 1899 *Summaries and notes from the Mining Journals * Some Regulations of the Academy of Mines at Freiberg * A visit to Mt Lyell Smelters * Professor Gilbert J. Dawbarn (includes image) * Air compressor and Transmission of Power by Compressed air by A.E.C. Kerr * Chemistry Notes by Daniel Walker * Mineralogical Notes, Ballarat by Thomas S. Hart * Kalgurli Gold Mines, W.A. * OUr New Lab Vol 2., No 7, September 1899 * Summaries and Notes from the Mining Journals * Some recent Steam Plants at Bendigo by Gilbert Dawbarn * Professor Thomas Stephen Hart (includes image) * Students Association * Notes on Victorian Geology by Thomas Hart * Centrifugal Pumps * A New Chum's Experience by E.M. Weston Vol 2., No 8, October 1899 * The institute of Chemistry Examinations * A New Method of Qualitative Chemical Analysis by Emil Gutheil * Steam Engine Valves and Valve-Gears by Gilbert Dawbarn * Daniel Walker (includes image) * Notes on Victorian Geology by Thomas Hart * Cyaniding Cripple Creek Tellurides (Metallic Extraction Company) * Notes on Two Ballarat Gravel Pumping Plants, G.A. Wilberforce (Eureka Jennings Co and Yarrowee Sluicing Co) * History of the School of Mines (concluded) Vol 3., No 1, March 1900 * A Journey from Natal to Mashomaland with the British Police * A Plea for Research * New Caledonia by C.A.M. Deane * Notes of Victorian Geology - Lower Palaeoroic Rocks by Thomas Hart * Mt Bischoff Mine and Mill * Summaries and Notes from the Mining Journals * Things we Eat and Drink * Farewell to A.S. Coyte Vol 3., No 1, March 1900 * Mining Education * Model Locomotive made by the apprentices of the Phoenix Foundry, p2 * Glimpses of Rhodesian Police Camp Life * New Caledonia (continued) * Summaries from the Mining and Engineering Journals * Boot and Saddle Vol 3., No 3, May 1900 * A Students' Common Room * Geological Excursion to Hardie's Hill * Notes on Victorian Geology by Thomas Hart * The Planet Venus by John Brittain * Summaries and Notes from the Australian Mining Standard * The Assay Ton * Zeehan Smelters * Electrical Notes by Ohe Jay * Trop of the Cricket Club to Stawell * Students' Association * Solid Hydrogen Vol 3., No 4, June 1900 * The Minister of Mines on Mining Education (Minister A.R. Outtrim) * Lal Lal Geology Trip (Thomas Hart) * Rifle Club now defunct, pg 3 * A Contribution to the Mining Geology of Kalgoorlie, W.A. by Ferdinand Krause (includes cross sections) (Wood's Point, Rand, Johannesburg, South Africa, Gaffney's Creek, Walhalla, Shady Creek, Sago Hill at Cardigan, Bunbury) * Summaries and Notes from the Australian Mining Standard (Buninyong Estate Mine) * Monthly Progress Reports of the Geological Survey * Electrical Notes by John M Sutherland (Telagraphone, phonograph, telephone receiver) * Students' Theatre Party (Gordon Todd, Ohe Jaeger, C.S. Wakley) * Opening of the New Buildings - Ministerial Speeches (Outtrim, W.H. Irvine, New Mining Laboratory, Old Chemistry Building, Battery, Model Mine) * Students' Association * Relief of Mafeking * A Critic Criticised * Things We Eat and Drink by Ohe Jay - Oatmeal, Coffee and Cocoa. Vol 3., No 5, July 1900 * Research * Adelaide Varsity Students at Ballarat * The Manchester-Liverpool Mono Railway * Students Association * *A Contribution to the Mining Geology of Kalgoorlie, W.A. by Ferdinand Krause (continued) (includes cross-sections) * Motive Power, address by Charles A. Parsons * Summaries and Notes from the Australian Mining Standard * Sugar Manufacturing by Sugna * Great Creswick Hydraulic Sluicing Plant (THomas Hart, Ballarat School of Mines Mining Class visit) * Reminiscences of a Students Life in Germany * Football - Ballarat School of Mines v Geelong Grammar School (Australian Rules Football) Vol 3., No 6, August 1900 * Cheap Mine Management * Library * Bendigo School of Mines, pg 3 * Notes on Ore Dressing by T, Vincent, Manager The Zeehan (Tas) Silver-Lead Mines Ltd) * Motive Power * Notes on Broken Hill - Its Mines and Minerals by J. Williams * The Concert * Summaries and Notes from the Australian Mining Standard * The Dandy Duke's Dreadful Demise * The Road Race Vol 3., No 7, September 1900 * Michaelmas Excursion (Melbourne University, Prof Kernot, Applied Mechanics) * Injury to School Property * Return of E. Ditchburn (Boer War) * Mt William Gold-Field visit, pg 3 * The Stoping of Wide Lodes by J.V. Lake (includes cross sections) * Summaries of Notes from the Australian Mining Standard * Notes on Broken Hill Part 2- Its Mines and Minerals by W.J. Williams * Motive Power from the Waves * Electrical Notes * Some Account of Italian Mining (Sarinia, Sicily, Peidmont, Lombardia) by Candido Maglione * Students Association * Should Women Have the Vote by Frank Bessemeres * The School Theatre Parly * Past Students * Poetry * Football * Surveying Rules Vol 3., No 8, October 1900 * Ballarat School of Mines Associateship * An Engineering Laboratory * Students' Practical Work * Notes on Broken Hill Part 3 by W.J. Williams * The Lake View Consols by F.S. Earp - Battery Treatment of Sulpo-Telluride Ore * Neglected Mineral Fields - Eurowie and Warrata * A Glimpse Ahead * News and Notes * A.W. G. McPherson, Boer War * Students Association * Ballarat School of Mines Melbourne Excursion to the Government Electric Lighting Station, Austral-Otis Co, Working Mens College * Ballarat School of Mines Concert in Aid of Soldiers Statue Balance Sheet * Football * Cricket Vol 3., No 8b, November 1900 * Position of the Ballarat School of Mines with Regards to Mining Education * Age Limit * Entrance Examination * Presentation t0 Professor Alfred Mica Smith * Image of a Group of Old Ballarat School of Mines Students in Coolgardie and Kalgoorlie. * Students Association Vol 4., No 1, March 1901 * Espirit De Corps * A few Notes on the Testing of Explosives * Round About Inverell, NSW by F. and J. Mawl * On the Choice of Drawing Instruments * Summaries and Notes From the Technical Journals * Annual Examinations 1900 * New Students * Sporting Notes * The Vale of Coolgardie Mine, Bonnievale, W.A. by G. Stephen Hart * News and Notes (Kerr Grant, C.L. Nash, R. Gordon Todd, Vial) * Editorial Notices Vol 4., No 2, Second Term 1901 * The Metallurgical Treatment of Sulpho-Telluride Ores by L.W. Grayson * Some Metallurgical Difficulties of Aluminium * Diehl's Sulphide Process by A.E. C. Kerr * A Californian Gold Mine by A.E. C. Kerr * New Express Locomotives for the Victorian Government (Phoenix Foundry) * An Excursion to Geelong (Electric Light and Traction Company of Australia) * The Linkenback Table for our New Mining Laboratory (Humboldt Company of Colgne) * Death of Thomas Bath * The Late Alfred G. Johnson (Boer War) * An Introduction to Natural Science by Emil Gutheil * The First Annual School Sports Meeting * Concert in Aid of Magazine Funds * The Men That Made the Concert (C.E. Denniston, W.H. Chandler, Mr White, William Litte Jnr, Marriott, Giles McCracken) * Sports * News and Notes Vol 4., No 2, Third Term 1901 * Bagging-Up - A Sketch * Concentration of Difficult Silver-Lead Ores * Estimation of Chlorine, Bromine and Iodine by D. Runting * Summaries of Notes from teh technical Journals * Notes on the Use and Care of Platinum Ware Common Sense * The Machinery at the Tasmania Gold Mine, Beaconsfield, Tasmania * Mining at Walhalla - The Long Tunnel Mine * Past Students * Mapping our of Agricultural Areas, etc, In Dense Vine Lands, North Queensland by R.A. Suter * News and Notes * Concert Balance Sheet e.m. weston, robert brough smyth, mcdougall, bruce, charles burbury, harrie wood, graham j. hopwood, emil gutheil, daniel walker, thomas hart, thomas stephen hart, m. hacker, schnitzler, f.a., ditchfield, l.h, alfred e.c. kerr, charles harvey, campbell, joseph bryant, campbell & ferguson, gilbert j. dawburn, irving, g.b., kerr, a.e.c., john walter sutherland, william robertson, herbert l. krause, alfred mica smith, binh pham, crosbie, d. jack, ditchburn, j., james hiscock, alfred johnston, reid, j.a., kidd, john, james bonwick, james, j.p, overall, d, e.h salmon, gaynor marquand, williams, w.w., williams, william, deane, c.m., vincent, tom, phillips, g.e., hart, d.w., jarnail suingh, rowlands, e., ferdinand m. krause,, easterby, f.l, parsons, r.g., partington, j.r., vial, s.b., meadows, h, atkins, arthur, john braisted burdekin, w.h. corbould, ditchburn, john, hill, john, otto e. jager, mcpherson, g.t, nicholls, c, thom, j.m., crafter, stewart, john brittain, peter lalor, hardy - commissioner, thomas bath, alf johnston, charles campbell, nash, llewellyn, watson, m.a, gardener, eddie, adamson, s.g, alford, l.c, allen, r.j, arthur, d.w.b., burge, a., willia, cairncross, cooper, i, maurice osric copland, maurice copland, dickinson, s., doepel, dunstan, john, loveday dunstan, eeles, terri, flegeltaub, israel, fletcher, a, fyrar, peter, kerr grant, w.kerr, green, gary, betty harris, harris, c.m., hay, a.l., hearn, hill, martin, james, david, johnston, alfred g, kilner, marion, kingston, thomas, lewin, f.c.k., lilburne, arthur m, linahan, colin, macready, w.h, major birlefco, markwald, henry, mccaffrey, mcfarlane, kaye, mciver, s.k, mellins, b, morton, felicity, w. kenneth moss, ken moss, nash, c.w., nash, neville, nickolls, berkeley, osborne, percy, philp, e., playford, william, reid, e, roberts, gordon, ross, f.c., royce, phillip, sawyer, basil, stewart, r.c., todhunter, i, vaisey, a., vincent, john, vinden, sue, wakley, cecil, watt, james, westcott, lewis, charles w. whyte,, vial, s browning, ballarat school of mines students in coolgardie and kalgoorlie, coolgardie, kalgoorlie, claude maitland, a.l. hay, a.s. lilburne, latham watson, arthur kildahl, thomas copeland, f.a. moss, w.a. hearman, cardoc james, alexander fraser, e.o. watt, g.m. roberts, j.j. dunstan, h.v. moss, j.a. hill,, john dunstan, c.m. harris, william h. corbould, j.w. sutherland, ballarat photographic club, ballarat field naturalists club, ballarat field club and science society, photography, geology, excursions, last chance mine, tasmania gold mine, beaconsfield, tasmania, rand, south africa, mount lyell, ballarat school of mines student excursion to mount lyell, h.l. krause, ferdinand krause, krause, hardie's hill, hardie's hill excursion, lal lal, lal lal excursion, lal lal geology excursion, smythesdale, smythesdale excursion, soudan, south african miners, south star mines, wynne and tregurtha battery, ananconda copper mining, arizona copper mining, boiler plates, british guinea, butte copper smelter, daylesford geology camp, daylesford excursion, diehl process, electric power house ballarat, electric pumps, geelong rope factory, gympie, golden horseshoe estate, c johnstone, jack nichol, c. macgennis, alec saunders, alfred g. johnstone, graeme jolly, william purdie, john mann, maxwell l gaunt, sale school of mines, freiberg school of mines, schools of mines, railway locomotive

Item used to switch on or off the red tail lights circuit on a tram. Made by the SECV. The board was located next to the 6V battery that was used to power the tram tail lights when the trolley pole was being reversed under a passenger seat.. Demonstrates an item fitted to a tramcar to switch an external lighting circuit.Softwood wood board with a bakelite two pole switch marked "on" and "off" and a Federal 250V 15A rewireable ceramic fuse attached. Has remnants of cloth covered copper wire on the rear. See item 9024 for an associated drawing."12" in blue pencil.fuse, tram 14, tramcars, tramcar maintenance, electrical switching

Item used to switch the power for the red tail lights circuit from the trolley pole to the battery circuit when the trolley pole was being reversed and not able to provide power to the internal and external lights. Made by the SECV. Salvaged from tram 14 during the project to renew the wiring and electrical arrangements of the tram. The box was located adjacent to the driver's windows and would click when the trolley pole was placed back on the overhead.Demonstrates an item fitted to a tramcar to switch an external battery tail lighting circuit.Wooden box made from softwood with bevelled corners, plywood top painted green containing an 8 Ohm "Post Office" type relay (see reference) fitted with two "break" contacts and associated insulated wiring soldered to the relevant contacts. See item 9024 for an associated drawing. Two examples held.fuse, tram 14, tramcars, tramcar maintenance, electrical switching

Booklet with blue Rexene cover and round corners on heavy card with sheet of paper glued on inside of covers and 32 printed pages stapled with in, titled "Instruction for the Guidance of Employees working on or within reach of Live Low Voltage Conductors". Also possibly known as the "L.V. Blue Book" - see top of definitions page. Dated 1949. Above title has name of the organisation - SECV - Electricity Supply Department. Inside front cover has space to record name and occupation of person issued to. In bottom left hand corner has form number "596-210 R2" Has been stamped "L. J. Denmead" by a hand stamped in blue ink and words "Departmental Tramway Supt." written in using blue ink. See image file 1854i2.jpg Book details procedure and rules for SEC employees working on or near low voltage conductors or Powerlines. Covers general matters, authorised employees, work on low voltage overhead lines, moving a conductor near live wires, public lighting, radio and carrier circuits, batteries, portable equipment, metering work on consumer premises, and definitions. Consists of 32 pages sheets of paper, printed and folded with one staple centrally and then stapled into the covers with paper inside pasted onto cover. Contents pages are not numbered. Covers blocked in blackSee issuing details above. On front cover in blue ink "L. J. Denmead / D. T. Supt"trams, tramways, sec, power lines, linesman, safety