This gas lamp light and stand came from the original manufacturer in Melbourne. Gas street lights such as this one were used in Melbourne from the mid-19th century. The lights enabled safer after-dark travel for pedestrians and vehicles and were a deterrent to crime. A lamp lighter was employed to keep the lamps lit, sometimes with little success due to weather conditions and the pranks of youths. WARRNAMBOOL Gasworks In Warrnambool prior to 1874 there were about twenty rare, individually lit street lights in Warrnambool, each with its own supply of kerosene. These lamps were in the central business area of Timor, Koroit and Liebig Streets. The Warrnambool Gas Company Ltd. was registered as an incorporated company in 1873. It was a private, locally owned business. It was located at 209-215 Merri Street, Warrnambool, on the land, which is just west of the later-built railway station. The first managers of the Gas Company lived in a substantial stone house on site, but later the managers lived in a residence in Henna Street between Merri and Timor Streets. The original home, which still stands, became a residence for the Railway Station Master from about 1890. In August 1874 the construction of the gasworks was complete and at the end of that month gas was supplied to all of the existing lamps in Warrnambool for the first time. The Warrnambool Gas Company wound up in 1880-1881 and was purchased by the Warrnambool Borough Council with money raised by a loan – the Borough’s first ‘loan transaction’. The Council established a piped network to supply gas to other street connections. The gasworks were privatised and upgraded in 1952. In 1972 the town supply was converted to liquid petroleum gas and by the early 1980s the gasworks were closed down. In 1986 Warrnambool was supplied with natural gas from a site near Port Campbell. The Warrnambool gasworks supplied all street and shop lighting and most domestic lighting until 1923 when electricity was available for lighting. Bromfield Street in Warrnambool was named after the director of the gasworks, James Astley Bromfield (1823-1903). He arrived in Warrnambool from Worcestershire, England, in 1852 and was very active in the local council and community. Cockman Street was named after the first secretary of the gasworks in 1874, Walter Cockman (c.1821-1892). He was a Mayor and businessman. The second Manager, Luther Rodgers, worked for the gas company for about twenty years and both Rodger Place and Rodgers Road in Warrnambool have been named after him. LAMP LIGHTS IN MELBOURNE In the 1820s Melbourne's innkeepers were legally required to have a lamp light outside their premises from sunset to sunrise. This was the first instance of street lamps being used in Melbourne. In 1847 the first oil lamp was used in the city. In 1849 a gas lamp was installed on the Swanston Street Bridge and much of the city had oil lamps installed by then. In August 1857 the installation of street gas lamps began in Melbourne. They were welcomed for the much brighter illumination they gave. By 1860 there were 414 lamp pillars. The phrase was quoted often - "A light was as good as a policeman". The first gas burners used for street lighting were called 'fishtail' gas burners. These were replaced in the early 1900s by gas mantles. The City of Melbourne Gas Coke Company was formed in 1850 but due to the Gold Rush the manufacture and distribution of the gas supply was delayed until January 1856. By the 1890s the gas supplying the lights was supplied by three companies in Melbourne. In 1879 a football match was played at the MCG under electric lighting and gradually electric arc lights were installed inside and outside buildings in the city. Lamp lights such as the one in Flagstaff Hill’s collection were no longer needed. (References: John Lindsay re Lamp Light history 2019-01-29, Former Warrnambool Gas Company Limited, Victorian Heritage Database Report, Heritage Number 149746 https://vhd.heritagecouncil.vic.gov.au/places/149746/download-report ) The lamp light is representative of the lamps used in Melbourne from the mid-nineteenth century to light the streets at night and make Melbourne a safer city. The lamp is also representative of the gas street lighting in Warrnambool from the mid-1870s-1920s.Lamp light or gas light. Street light, one of the last gas street lights removed from Melbourne. (Reconditioned by Friends of Flagstaff Hill, 2013)flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, lamp light, gas light, gas lamp, street lamp, street light, gas street light, melbourne street lighting, warrnambool street lighting, melbourne gas street light, warrnambool gas company, warrnambool gasworks, james bromfield, walter cockman, luther rodgers, city of melbourne gas coke company

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

This meat mincer was born in a period where hand operated mincing and blending machines were only available for household mincing meats and blending ingredients up to the 1960's. Electrical kitchen based whitegoods were rare in areas where the connection to electricity was intermittent or not at all.This kitchen aid is a very significant item in the Kiewa Valley before suitable electrically operated mincers became available and constant reliable electrical connections were installed. The Kiewa Hydro Electricity Scheme provide the stable supply of electricity which made most of the hand operated mincing machines obsolete. However large mincers for bulk supplies were still required eg. kitchens for SEC workers during the 50's and 60's.This heavy industrial type meat mincer(cast iron) has a top "rounded feeder cup" with a mincer screw blade at the bottom. A winder handle rotates the screw like mechanism to mince and express solid pieces of meat at the other end. There is a clamp below the main structure which permits the fastening of the hand driven mincer to a table or solid ledge. The hand grip of the handle is made from wood and fashioned like a clothes peg.On the rounded feeder bowl "MAJOR" and on the winder handle "A POPE PRODUCT"hand operated meat mincers, meat grinders, kitchen utensils

This resistor was part of the Hydro generator control metering system which displays what electricity is produced at the underground generators. The control centre can be hundreds of meters above the generators and this resistor reduces the large current to a small voltage entering a calibrated control monitor. This resistor is highly significant to the Kiewa Valley because it represents a major construction and ongoing operational industry dealing with the supply of hydro electricity to Victoria. Although it is relatively small in size it is part of the controlling mechanism for the supply of a non polluting energy source for home and industrial use.This mainly metal and wire resistor has been built of copper and brass and designed to carry a current of 2000 Amperes. Wires are wound around a non conductive cement block which has grooves on the top and bottom ledges to hold the wires snuggle into place. At the rear there are three connection rods which have long 5mm thick screws (to fasten cable ends)On one side it is scribed "0.2 OHMS" and underneath this "10 AMPS"kiewa hydro electricity scheme, victorian state electricity commission, transformers

This testing voltmeter recorder was last certified by SEC Vic laboratories on the 17/4/77. It was used extensively as mobile recorder placed for periods of one month at locations experiencing unacceptable fluctuations of power. These locations would cover the North East regions of Victoria. They cover voltage drops at domestic and business properties especially those that were experiencing regular fluctuations(daily) at approximately the same time of the day. As the electrical network is required to operate within a set level of voltage, fluctuations outside of this has to be investigated and necessary remedial action taken. This is especially so for rural properties where power "drainage" can occur through animal/bird and tree interference. It can also be the result of defective wiring and overloading at peek operational times (milking machines).This mobile voltage recorder is very significant to the Kiewa Valley because it highlights the difficulties that can occur in maintaining a power supply that experiences fluctuating power demands by the rural industries that it supplies. The requirement of a mobile testing apparatus to cover the various sections in the Kiewa Valley and other rural areas in the northeast region is one of necessity as electricity once connected to a rural property is a labour saving supply as generators on rural properties require a higher degree of maintenance an ultimately at a higher cost. The testing of the SEC Vic supplied electricity to rural properties,those who had previously run on generators, had to be quick and unassuming with certainty of correct supply levels.The mechanism of this voltage recorder has been installed(by the manufacturer) into its own protective wooden box. This box has a front (swing open) lockable section which permits direct access to the installed measuring equipment (for servicing and data collection). The top section of the box has two screw on terminals for access to the machine being tested. This tester has its own inbuilt ink supply facilities and a mechanical clockwork device that unwinds a roll of paper onto a second roll at a rate of 10 mm per hour. The recording chart is marked with time slots against voltage. There is a recording arm which has an ink pen at the end. Both arm and pen carry the ink supply from the ink reservoir, located on the left side of the cabinet door in specially constructed bottle holder( three small bottle capacity). To record a suspect power problem to a home or business establishment the voltmeter is connected to a power supply outlet being tested and wind the recording clockwork mechanism (gives a four week running time). Before leaving the recorder in situ the electrician checks to see if the chart is recording the correct voltage and that the clock mechanism is advancing correctly.On the front of the access "door" at the top a metal label "RECORDING AMMETER" below this "MURDAY SYSTEM" below this "ALTERNATING CURRENT" and below this the manufacturer's registered number "No. 139156" Below this is a metal tag with State Electricity Commission of Victoria Electrical Engineer's Section equipment number "338" Below these tags and above the viewing window is the manufacturer's dtails "EVERSHED & VIGNOLES Led LONDON"sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall, power outages

This case is for a testing voltmeter recorder. The last time it was certified by SEC Vic laboratories on the 17/4/77. It was used extensively in the transportation of the mobile recorder which was sometimes placed for periods of one month at locations experiencing unacceptable fluctuations of power. These locations would cover the North East regions of Victoria. They cover voltage drops at domestic and business properties especially those that were experiencing regular fluctuations(daily) at approximately the same time of the day. As the electrical network is required to operate within a set level of voltage, fluctuations outside of this has to be investigated and necessary remedial action taken. This is especially so for rural properties where power "drainage" can occur through animal/bird and tree interference. See KVHS 0302 (A) for the instrument.This case for a mobile voltage recorder is very significant to the Kiewa Valley because it highlights the difficulties that can occur in maintaining a power supply that experiences fluctuating power demands by the rural industries that it supplies. The requirement of a mobile testing apparatus to cover the various sections in the Kiewa Valley and other rural areas in the northeast region is one of necessity as electricity once connected to a rural property is a labour saving supply as generators on rural properties require a higher degree of maintenance an ultimately at a higher cost. The testing of the SEC Vic supplied electricity to rural properties,those who had previously run on generators, had to be quick and unassuming with certainty of correct supply levels.This heavy and thick all leather case for the "easy" transportation of the Volt meter recorder has a opening top which pop riveted to the main body(rivets are aluminium). The all leather top has a shaped carrying handle which is also riveted on. There are two straps on the side of the top which can be fastened to the main body by metal "shoe" buckles. The bottom end is secured to the main bag by large rivets.Tick grade stitching is on all corners.Nilsec vic kiewa hydro scheme, alternate energy supplies, alpine growth in electricity consumption

Supplied to S.E.C. workers. This equipment was distributed to State Electricity workers working on the Kiewa Hydro Electric Scheme during the 1940's and 1950's.Historical: S.E.C. workers worked in remote areas where they didn't have easy access to medical facilities. Shows the development of snake bite treatment and spider bites.Cardboard brown box without lid for holding two wooden cylinders. Each cylinder can be pulled apart showing one end with a lancet which is used to cut the skin after a snake or spider bite. Each wooden container has instructions in very small red writing. Also in the box are instructions for Snakebite and Spider Bite. This leaflet is written in red on white paper and has more detail than the instructions on the lancets. It is made up of a front and back page opening up to the middle page.Pamphlet: 'The / Treatment / of / Snakebite / and / Spider Bite' and at the bottom 'Sanax'first aid, snakebite, spider bite, sanax company, state electricity commission of victoria, workers, medical

Linesmen worked on the SEC power towers erecting the towers and supplying lines. They were also responsible for the maintenance of the lines. The article has photos of the men undergoing training with an emphasis on safety.The SEC constructed the Kiewa Hydro Electric Scheme and were resposible for the erection of the power towers and lines enabling the electricity to be distributed throughout the state of Victoria and beyond.Pages 6 and 7, S.E.C. News, April 28, 1966 Article 'Safe Working Paramount' with 9 photos including names of the men working.linesmen, power towers, electric power lines, sec training

The Bar Lock typewriter is a patented design by the inventor and lawyer Charles Spiro in 1888. The keys are easily recognised and well spaced. Used by the typists working in the office for the State Electricity Commission of Victoria during the construction of the Kiewa Hydro Electric SchemeLarge, heavy black typewriter with white letters on the keys. Green matt finish with gold printing. c 1921 Model 22?Bar-Lock / Manufactured by / Bar-Lock Typewriter Co. Nottingham England/Supplied by / Richard Williams Pty Ltd. 193/197 King St. Melbourne At the back in gold print: "Serial / Number' rest too hard to read. typewriter, bar-lock, office equipment

This item clearly shows the conditions covering both working conditions and housing in the construction of the Junction Dam in the 1940s. Working conditions were extreme and health and safety legislation was at its infancy. The residential buildings were intended to last only for the period of construction, however greater demand for longevity as a tourist haven prevailedThis photo of the construction of the Junction Dam, with The Bogong village as backdrop, details the harsh conditions faced by construction workers, building dams and villages to accommodate workers in the 1940s to the 1950s. Australia at this period in time, experienced a surge of population (influx of World War II refugees), which was the catalyst for developing and undergoing an enormous hydroelectricity program for the Alpine regions, both in Victoria and New South Wales. This program was initiated to supply electricity to the major southern Australian cities of Adelaide, Melbourne and Sydney. It was thought that these developments would reduce, if not eliminate, the requirement for coal driven power stations. However time has demonstrated that these power stations have not matched the demand required by the industries and the populations of the major urban and cities.Black and white photo of original photo with a flashlight reflection in the bottom centre. The photo is on Kodak XtraLife II paper. The paper is semi gloss.This photo is of the construction of the Junction Dam Wall with the Bogong Townshiip in the background.Back of photo is printed " Kodak XtraLite II paperdam construction, bogong village, alpine development, junction dam

This item appears to be a calendar which was in use for a multiple clientele office e.g. post office, commercial office or bank, school or educational administration area, small government office or hospital administration in the Kiewa Valley or its region. The time this item was first used, electrical or battery powered desk and office calendars did not exist for semi isolated rural regions. These type of perpetual calendars not only looked impressive but were not affected by power shortages. This was a time when not all of Victoria was adequately supplied by power. This item is quite relevant to the Kiewa Valley as it demonstrates that the time before the Hydro electricity generators where built (Mount Beauty to Falls Creek), power supplies were not keeping up to the ever increasing demand from city and rural customers. This item was in a period before mass produced automated date and time pieces were available and hand operated date and time pieces were both in a social and commercial sphere a necessity.Wooden box (varnished) with three openings (on the front) detailing ,the day(Monday to Sunday), the date (1st to 31st) and the month (January to December). On the right side of the calendar box are two winding screws (RHS 6 steel) for each opening. These permit the scrolling of the information i.e. day, number and month. This ability results in a desk calendar which is perpetual. On the back there is a steel (screwed on) hanger with a slot for wall screw.perpetual calendar, office calendars, desk calendars, desk furniture

Although this book revolves around the supply of power(Electricity) from brown coal it does cover the period 1937 onwards when the Kiewa Hydro Electricity Scheme was first mooted. This area was believed to be far away from aerial bombardment should the coastal power stations be attacked by air in World War II(1939 -1945). After the war, post 1945, the demand for a continual power supply, not affected by seasonal coastal flooding was together with a lower cost of hydro electricity power the major incentive for the Victoria Government of the day to proceed (in the 1940s) with The Kiewa Hydro Electricity Scheme. In 1946 Victorian government sought greater independence from the New South Wales black coal supplies.The significance of this book to the Kiewa Valley and its outlying regions is that it details why the development of an Alpine region was and now still is pocketed with a European flavour both in buildings and in town vegetation(trees and flowers). European (post World War II refugees) where attracted to these alpine areas not only for hard labouring positions but also for their technical skills and some street names offer a distinct European lineage rather than convict or of earlier English settler. The construction phase accommodation continued after completion of the Kiewa Hydro Electricity Scheme to become popular venues for an increasing winter tourism industry. This book has a brown hard cover encapsulated by a cream sleeve with brown and black print. On the front of the sleeve is an embossed circular motif with centre piece S.E.C. emblem and around this the words "50 YEARS OF SERVICE" and below this" STATE ELECTRICITY COMMISSION OF VICTORIA". The book contains 313 double sided pages of black print and black and white photographs.On front of paper sleeve "Brown Power A Jubilee History of the State Electricity Commission of Victoria Cecil Edwards". On the second page, below the Title "Brown Power" there is a pasted, printed presentation certificate, with the S.E.C. emblem and these printed words " Presented by the Chairman and Commissioners to A.G. MILLIST, ESQ. in recognition of long and valued service with the Commission"electricity, victorian power supplies, hydro electricity, brown coal, cecil edwards

At the time of manufacture, circa 1940's, the first aid treatment for snake bites, was to lance(cut) open the bite, wash it out and apply a ligature or tourniquet between the bite and the heart. This method was abandoned later after scientific evidence suggested that it was better to stop the blood system from carrying the poison to the heart (pressure immobilization). Australian snakes do not have long fangs therefore deep incisions into main arteries is rare. This research took many years to develop therefore the information supplied with the "Sanax" kits of this era is well outdated. Rural areas were more attuned to the possibilities of snake activity on farms, in sheds and in out houses and farm homesteads. This was not the case for mainly city and large townships environments. The mice plagues in wheat areas during the warmer month s has always been a high risk time for encountering snakesThese snake bite kits were issued to workers on the Kiewa Hydro Electricity Scheme. Some of these snake bite kits were kept at doctor's surgeries e.g. Bogong Village, House 13. The kit was carried by bushwalkers, scouts, farmers and high plains cattlemen. This item is of significance because it demonstrates the main dangers faced by all rural industries and towns, especially remote areas, and the portable remedies that where required as a necessity of the Australian bush environment. This item was in use at a time when the air ambulance and rescue facilities were not in existence and remote locations were more isolated and the availability of anti venom was hard to obtain locally.This item is a red coloured cardboard box(250 - 300 g/m) with white writing and containing the following 12 items. 7 clear red coloured capsules, 2 opaque red plastic capsules, 2 wooden capsules and 1 brass screw on capsule. The capsules are divided into two sections (compartments) horizontally. Each compartment has a screw lid. One compartment contains a lancet (for piercing the snake bite) and the other compartment contains the "Condy's" crystals compete with tightly rolled instructions.On top of the pull up lid, and flanked by two coiled snakes (at the strike position) is printed: "Trade Sanax Mark" below this " SNAKE and SPIDER BITE OUTFIT" and below this with instructions for use". Front side: "Sanax snake and spider bite outfit" underneath "Nepean Highway Morabbin" The later printing has been severely scratched but decipherable. The back side of the box has "Note to the retailer" and due to wear no more of the writing can be read. Each side of the box is printed "SANAX" snake, spider, first aid, kiewa hydro scheme, portable medical supplies

This extract from an advertisement in the Sydney Morning Herald newspaper of 1/12/1959 places the era in which this water bag was prolific throughout rural Australia. " ABERDEEN CANVAS GOODS for the man on the land here is Australia's most useful, convenient and hygienic water bag. Its special unbreakable plastic nozzle is fitted with a perforated filter strainer. Made from long flax canvas, its universal handle enables it to be hung on bumper bar, wire fence or on hook or nail" The availability of clean cool drinking water in remote rural locations was essential for survival under the blistering Australian summer sun. This was in a pioneer era when transport, roads and convenience stores were ,in a lot of "outback" Australia, in short supply and survival was dependent upon what could be carried by vehicle or pack horse.When the Kiewa Hydro Electricity Scheme became a reality, the use of the water bag was one of the essential personal items of survival given to each person working in the forests and on and in the high plains environment. Even in an outside stationary work place the availability of cool clean water was a prerequisite. The canvas water bag allowed any wind or airflow to cool down the water, even on very hot days, to provide a refreshing and throat quenching supply of water. These bags could be fastened onto the front of vehicles or hanging from shady tree branches thereby permitting air flow around the bag. During the "wearing in" period the residual taste from the canvas was fairly strong, this became considerably less as time and a half moved on. This "Aberdeen" long flax canvas water bag is held together on two sides and the top by strong heavy cotton stitching. The iron fashioned carrying handle has, protruding from its top elevation ,a very strong hook (well in excess of the bags' weight requirement). At the top, of the bag, and on one side only, is a brown coloured bakelite spout (with an inbuilt filter) protruding upwards. This spout has its matching , screw on, lid complete with attachment chain (not fixed at the handle end)On the front of the bad and stenciled in bold lettering, "ABERDEEN" and directly below "Travellers" and below this "FILTER BAG". Below this are two parallel black lines enclosing an ochre coloured band(12mm wide) running around the bottom section of the bag. Below this band is stenciled the number 14 in black (25mm high) figures. The spout lid has stamped on the top surface and within the outline of Australia, "ABERDEEN FILTER WATER BAG". Above this and close to the edge of the lid is pressed "PAT. No 9149/32 and down at the bottom rim is stamped "RD. No. 9870". canvas, water bag, water container, camping equipment, survival pack

The 1950's saw a revolution in small appliances for use in the average household. This hand held self heating(kerosene) iron was introduced as a time saving and more convenient iron for pressing clothes and other cloth fabrics. It replaced irons needing a separate fire source to heat the ironing plate. These irons continued to be in service, even when electricity was available in cities and larger rural towns (domestic electric steam irons were invented in 1938). This item was used before and during the electricity supplies available from the Kiewa Hydro Electricity Scheme. These irons remained in use within regional rural areas that had limited or unreliable electrical reticulation.In the 1950s and later the Kiewa Valley was still a relatively isolated region which was home to rural properties and small settlements. The availability of electricity and or the financial means to afford new types of electric hand irons ensured that older and sometimes less efficient ironing remained for an extended period covering the 1960s to 1970s. Kerosene products, such as this kerosene iron was a cheaper method for farm based domestic and other rural activities requiring a heat source. The use of kerosene as a heat/light source was able to be supplied in bulk and able to be used when floods severed vital roads into this region. The supply of electricity was in summer time subject to interruption from bush fire damaged wooden poles carrying the electrical cables. Self sufficiency by rural populations was the backbone of survival and the ability to store energy sources "on the farm" was a prerequisite of isolated regions, such as the Kiewa Valley, circa 1950s.This Coleman kerosene iron has a solid steel chrome plated(press) base with a painted (blue) wooden handle. The handle is stud fastened onto an oblong shaped rolled steel handle frame and screwed (two screws) onto the base plate. Both the heating plate and the top securing plate are shaped similar to a river boat. The main housing enclosing the heating element is enamel coated(blue in colour) steel and has a half hole for lighting the kerosene at the rear end. Behind the handle and protruding upwards is a stainless steel fully enclosed container (bowl shaped) for the main supply of kerosene to the burner or generator(enclosed within the main body of the iron. The bowl has an air valve and inlet for pressurised air intake (hand pump) On the bottom rear of the fuel bowl there is a screw regulated fuel pump. The fuel heated base plate provides the heat for this advertised "self heating iron(instant lighting). See KVHS 0347B- Instruction sheet; KVHS 0347C- Wrench; and KVHS 0347D Fuel can.Stamped on the base plate of the handle, front region "COLEMAN LAMP & STOVE CO." below this "WICHITA KAN" below this"TORONTO CAN". In the middle of the handle base and in larger print "COLEMAN Instant-Lite" At the rear location in large print "MODEL 4" in smaller print below "MADE IN U.S.A." below this "PAT#1718473"household appliances, alternative non electrical ironing appliances, domestic appliances, kerosene appliances

The 1950's saw a revolution in small appliances for use in the average household. This hand held wrench was provided exclusively for the Coleman self heating kerosene (KVHS 0347A) iron and used for the regular changing the kerosene used in it. The iron was used before and during the electricity supplies available from the Kiewa Hydro Electricity Scheme. These irons remained in use within regional rural areas that had limited or unreliable electrical reticulation. Kerosene supplies were cheaper than electricity but also more inconvenient than electric. Electrical appliances become cheaper to buy and maintain in the later part of the 1900's and the now older kerosene iron was faded out.This wrench was required to open the fuel container which stored kerosene in the Coleman hand iron(see KVHS 0347A). This item was part of the maintenance requirement of this particular hand iron. In the 1950s and later the Kiewa Valley was still a relatively isolated region which was home to rural properties and small settlements. The availability of electricity and or the financial means to afford new types of electric hand irons ensured that older and sometimes less efficient ironing remained for an extended period covering the 1960s to 1970s. Kerosene products, such as this kerosene iron was a cheaper method for farm based domestic and other rural activities requiring a heat source. The use of kerosene as a heat/light source was able to be supplied in bulk and able to be used when floods severed vital roads into this region. The supply of electricity was in summer time subject to interruption from bush fire damaged wooden poles carrying the electrical cables. Self sufficiency by rural populations was the backbone of survival(use of this wrench was a part of rural life). The ability to store energy sources "on the farm" was a prerequisite of isolated regions, such as the Kiewa Valley, circa 1950s.This item is a flat cast iron wrench, which has been specifically made for KVHS 0347A (kerosene iron). The wrench has four specific forms cut into the steel which fit firmly around their targeted nut and other fixtures. Also see See KVHS 0347B- Instruction sheet; and KVHS 0347D Fuel can.ironing, iron maintenance tool, domestic appliances, household

The 1950's saw a revolution in small appliances for use in the average household. The hand held self heating(kerosene) iron for which this filling can was provided ,was introduced as a time saving and more convenient iron for pressing clothes and other cloth fabrics. It replaced irons needing an external fire source to heat the ironing plate. These irons continued to be in service, even when electricity was available in cities and larger rural towns. This item was used before and during the electricity supplies available from the Kiewa Hydro Electricity Scheme. These irons remained in use within regional rural areas that had limited or unreliable electrical reticulation and the ability to service them from this filling can was an essential part.n the 1950s and later the Kiewa Valley was still a relatively isolated region which was home to rural properties and small settlements. The availability of electricity and or the financial means to afford new types of electric hand irons ensured that older and sometimes less efficient ironing appliances remained for an extended period covering the 1960s to 1970s. Kerosene products, such as the kerosene self heating (KVHS 0347A) iron and this kerosene filling item, was a cheaper method for farm based domestic and other rural activities requiring a heat source. The use of kerosene as a heat/light source was able to be supplied in bulk and able to be used when floods severed vital roads into this region. The supply of electricity was in summer time subject to interruption from bush fire damaged wooden poles carrying the electrical cables. Self sufficiency by rural populations was the backbone of survival and the ability to store energy sources "on the farm" was a prerequisite of isolated regions, such as the Kiewa Valley, circa 1950s.This specially spout fitted can was provided with the Coleman self heating kerosene iron (see KVHS 0347A). On one side of the half enclosed top of the can there is a small spout(for poring the appropriate liquid into the egg shaped fount container) at the rear end of the hand iron. The can is made from tin. See KVHS 0347B- Instruction sheet; KVHS 0347C- Wrench.On one side of the can in black print on yellow background is "FUEL MEASURING CAN" underneath is "For Coleman Instant-Lite Iron" underneath are four numbered paragraphs detailing the use of this can. Below this is the name and places of manufacture. On the other side of the can is printed "BE SURE" with filling and maintenance instructionskerosene can, ironing, domestic appliances, household appliances

Collected by Mary Gilbert. This folder belonged to Mary Gilbert and was probably used by her whilst teaching at Orbost High School and as a member of the Orbost Historical Society. Mary Isabelle Gilbert was born in 1905 in Orbost, Australia. She was born to John Gilbert and Annie Cameron Gilbert, and had seven sisters and one brother. Four siblings died at a young age. .She was a teacher historian loved and respected by her family and the wider community. This item is a useful research tool.A manila folder containing b/w newspaper cuttings relating to the progress of Orbost power, mail and water supply. The articles are from various newspapers.. 732.2 is a report by Mr A. Sambell. C.E. on the Orbost Water Supply. 732.3 is from the Weekly Times, July 17 1968 and is titled "Snowy River Mail Follows Our Ancient Track". 732.4 is from the Snowy River Mail, May 16 1962 and is titled " Power To Orbost in Keeping with State's Progress. 732.5 is from the Snowy River Mail, May 16 1962 and is titled " The Vital Power of Electricity".orbost-power-water-supply

Iron fountain used on open fires etc. Donated by Mrs Norah Osborne, wife of Bruce , principal of High School. Early homes often had an open fire containing a fountain, buckets and kettles that hung from a hook in the fireplace. These containers supplied hot water for cooking, washing and cups of tea. Fountain was placed on hob until needed and then hung over fire.This kettle is an example of a common domestic item used in early Orbost before electricity was widespread.Large black iron fountain with swing handle and hook for using over a fire. Large brass tap and handle. Lid - Clark & Co * 4 Galls. Bottom - Clark & Co - 4 Gallons FINEST QUALITY T & C CLARK & COcooking domestic kettle fountain-iron ironware

This guillotine is a hand operated machine specifically designed to cut through multiple sheets of paper or card. It has a very heavy and sharp single blade knife mounted between vertical guides or runners. The main users of a machine like this is in by the printing and publication binding industry. Book binding companies use a guillotine to evenly trim the pages of a book after it has been bound. The way the guillotine is used is - paper or card is stacked squarely on the flat table and pushed firmly against the back guide - the handle below the table at the front of the machine is wound around, which brings the back guide forward, pushing the paper stack forward and positioning the centre of the stack below the vertical frame - the upper wheel is wound around, which brings the clamp and firmly in position on top of the paper, to hold it very firmly - the large wheel on the side of the machine is turned around to lower the long sharp blade down onto the pages and cut them through. The sharp edge of the blade is protected somewhat from becoming blunt; a block of wood sits in the table under the stack of paper An early model of a guillotine was patented in 1837 by Thirault, who built a model with a fixed blade. Guillotines similar in principal to this one were patented by Guillaume Massiquot in 1844 and 1852. Over the years many improvements have been made and operation has moved from man power to electricity. Oscar Friedheim Ltd. was the importer and wholesaler of a large range of machinery and equipment for the printing and bookbinding industry. He sold most of his equipment under his own name. On this guillotine or paper cutter he refers to the origin of the guillotine’s manufacture only as “German Manufacrure”. A reference book “Commercial Bookbinding: a description of the processes and the various machines used" by Geo. Stephen, 1910, recommends Oscar Friedheim, amongst others, for the supply of “reliable cutting machines for hand or power”. It also recommends Oscar Friedheim’s for a wide range of other printing machinery and processes. OSCAR FRIEDHEIM LIMITED, LONDON Oscar Friedheim Ltd. was established in 1884 and operated from Ludgate in London. The company was an importer and wholesale supplier in the 1880’s, offering machinery and equipment for the printing and packaging industry for the UK and Ireland. The company became incorporated in 1913. An advertisement of 1913 includes a telegraphic code plus two telephone numbers for Oscar Friedheim Ltd and invites readers to call at the Ludgate, London, showrooms to see the machines working. The company later became Friedheim International Ltd. The book titled “Friedheim, A Century of Service 1884-1984 by Roy Brewer, celebrates Oscar Friedheim’s achievements. Friedheim International currently operates from Hemel Hempstead, on the northern outskirts of London UK. It promotes itself as “… the leading supplier of finishing, converting and packaging machinery to the printing, graphic arts, and highly varied packaging industries in the UK and Ireland. The company’s policy is simple – “employ the best people, work with the best equipment manufacturers in the world, and treat our customers as partners!” The company still sells guillotines. The guillotine is significant for its ability to represent aspects of the printing trade in Warrnambool and in a typical port town circa 1850 to 1910. It represents communication methods and processes used in the time before electrically powered equipment became common in industry.Guillotine (or paper cutter), hand operated. Metal framework with vertical guides, stand and metal mechanical parts including wheels and gears. Table with back guide; handle below front of table winds to move the back guide. A wheel at top of machine winds to adjust pressure of the clamp on the work on the table below it. The cutting blade fits between vertical guides; a timber insert in the table below the blade helps minimise the loss of sharpness of the blade. A handle on the side of the machine turns a large spoked wheel, which rotates a large gear, causing the blade to move up and down. Makers details are on a small oval plaque with embossed maker’s details is screwed onto main body. Maker is O Friedheim, London, and the machine is of German manufacture, circa late 1880’s.Maker’s plaque inscribed "O. FRIEDHEIM / London / German Manufacture"flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, printing machinery, printer’s guillotine, paper guillotine, paper cutter machine, oscar friedheim ltd london, friedheim international ltd, bookbinding industry, printing industry

The document confirms that the Tender for the supply of gas to the Warrnambool Light, also known as the Lighthouse, by the Warrnambool Gas Works was successful. The Tender was issued by the Engineer in Charge, Ports and Harbours, Melbourne, for a the period ending 30th June 1903, at the offered rate of 10/- (ten shillings) per 100.0 c/f (cubic feet). The Manager of the Warrnambool Gas Works expected to follow this acceptance with a visit to the Collector of Customs to sign the Conditions of Contract and Bond. The light of Warrnambool's Lady Bay Lighthouse was originally powered by oil. Later it was converted to gas, followed by electricity, then solar power, and finally to battery power. The Warrnambool Gas Company operated the gas works from the 1870's to the late 1920's.This document connects Warrnambool's Lady Bay Lighthouse to the Warrnambool Gas Works during the first decade of the 20th century. It documents to process of a Government department requesting Tenders for the supply of goods to operate a service, the the formal documentation required at that time.Pale green rectangular paper with template text printed in black and completed in black ink script. Letterhead of the Department of Ports and Harbours, Melbourne, and addressed to the Gas Works, Warrnambool, dated 24th June 1902, for the supply of gas to the Warrnambool Light until 30th June 1903 at the cost of Ten Shillings per 100 cubic feet."24th [June] 1902" Warrnambool [Light]" "Manager W'bool Gas Wks" "supply of gas to" "1903" "10/- per 100.0 c/f" "Collector of Customs" " The Manager / Gas Works / Warrnambool" [Signature] "for" [Engineer in Charge, Ports and Harbours]flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, department of ports and harbours, ports and harbours, ports and harbours melbourne, warrnambool light, warrnambool lighthouse, warrnambool gas works, w'bool gas works, gas works, gas supply, early 1900s, early 20th century, shillings, cubic feet, collector of customs, customs, warrnambool customs, engineer in charge, lady bay lighthouse, warrnambool gas company

The document confirms that the Tender for the supply of gas to the Warrnambool Light, also known as the Lighthouse, by the Warrnambool Gas Works was successful. The Tender was issued by the Engineer in Charge, Ports and Harbours, Melbourne, for a the period ending 30th June 1905, at the offered rate of 10/- (ten shillings) per 100.0 c/f (cubic feet). The Manager of the Warrnambool Gas Works expected to follow this acceptance with a visit to the Collector of Customs to sign the Conditions of Contract and Bond. The light of Warrnambool's Lady Bay Lighthouse was originally powered by oil. Later it was converted to gas, followed by electricity, then solar power, and finally to battery power. The Warrnambool Gas Company operated the gas works from the 1870's to the late 1920's.This document connects Warrnambool's Lady Bay Lighthouse to the Warrnambool Gas Works during the first decade of the 20th century. It documents to process of a Government department requesting Tenders for the supply of goods to operate a service, the the formal documentation required at that time.Pale cream rectangular paper with template text printed in black and completed in black ink script. Letterhead of the Department of Ports and Harbours, Melbourne, and addressed to the Gas Works, Warrnambool, dated 24th June 1904, for the supply of gas to the Warrnambool Light until 30th June 1905 at the cost of Ten Shillings per 100 cubic feet."24th [June] 1904" Warrnambool [Light]" "Manager W'bool Gas Wks" "supply of gas to" "1905" "10/- per 100.0 c/f" "Collector of Customs" " The Manager / Gas Works / Warrnambool" [Signature] "for" [Engineer in Charge, Ports and Harbours]flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, department of ports and harbours, ports and harbours, ports and harbours melbourne, warrnambool light, warrnambool lighthouse, warrnambool gas works, w'bool gas works, gas works, gas supply, early 1900s, early 20th century, shillings, cubic feet, collector of customs, customs, warrnambool customs, engineer in charge, lady bay lighthouse, warrnambool gas company

The document confirms that the Tender for the supply of maintenance to the Warrnambool Light, also known as the Lighthouse, by the Warrnambool Gasworks was successful. The Tender was issued by the Engineer in Charge, C. Maclean, Ports and Harbours, Melbourne, for a the period ending 30th June 1908, at the offered rate of 10/- (ten shillings) per 100.0 c/f (cubic feet). The Manager of the Warrnambool Gasworks expected to follow this acceptance with a visit to the Collector of Customs to sign the Conditions of Contract and Bond. The light of Warrnambool's Lady Bay Lighthouse was originally powered by oil. Later it was converted to gas, followed by electricity, then solar power, and finally to battery power. The Warrnambool Gas Company operated the gas works from the 1870's to the late 1920's.This document connects Warrnambool's Lady Bay Lighthouse to the Warrnambool Gas Works during the first decade of the 20th century. It documents to process of a Government department requesting Tenders for the supply of goods to operate a service, the the formal documentation required at that time.Pale cream rectangular paper with template text printed in black and completed in black ink script. Letterhead of the Department of Ports and Harbours, Melbourne, and addressed to the Gas Works, Warrnambool, dated 25th June 1907, for the supply of maintenance to the Warrnambool Light until 30th June 1908 at the cost of Ten Shillings per 100 cubic feet. A purple stamped signature is also added and initialled in red pen."25th [June] 1907" Warrnambool [Light]" "Manager W'bool Gasworks" "supply of gas to" "1908" "10/- per 100.0 c/f" "Collector of Customs" " The Manager / Warrnambool Gasworks" [Signature] "for" [Engineer in Charge, Ports and Harbours] Stamped " C. -. Maclean"flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, department of ports and harbours, ports and harbours, ports and harbours melbourne, warrnambool light, warrnambool lighthouse, warrnambool gas works, w'bool gas works, gas works, gas supply, early 1900s, early 20th century, shillings, cubic feet, collector of customs, customs, warrnambool customs, engineer in charge, lady bay lighthouse, warrnambool gas company, gasworks, warrnambool gasworks, maintenance, c. - maclean

Duncan McDougall was associated with the pioneering X-rays conducted by the Ballarat School of Mines in 1896. He was in the Mendelssohn Choir, and was associated with Professor Ross from University of Western Australia. The Ballarat Courier reported on 20 July 1896:"The Ballarat Courier reported on 20 July 1896 Thanks to the energy of the staff of the School of Mines Ballarat and particularly to Messers F J Martell and Duncan McDougall the assistance of Roentgen xrays will soon be available, for the relief of suffering at this institution. On Wednesday evening 22 July 1896 a number of ladies and gentlemen witnessed a series of experiments with the Roentgen x rays." Duncan McDougall later worked at the Kalgoorlie School of Mines as a lecturer in physics and mathematics. on 19 February 1905 the 'West australian' newspaper announced: " Mr Duncan McDougall, formerly of the Ballarat, and later of the Maryborough Schools of Mines, was appointed to succeed Mr. Hart. Mr. McDougall had also charge of the branch class at Midland Junction. In both cases his work proved thoroughly good. The alterations in the trades class regulations will cause all the students in these classes to take up the study of this subject. I have every confidence that Mr. McDou gall will handle these large classes as successfully as the classes he had last year." By 1925 McDougall is being reported in the Perth Daily News: "Duncan McDougall, lecturer on electrical engineering and physics at the W.A. School of Mines, put forward a scheme for reducing the cost of mining in Kalgoorlie. He contended it was the duty of the State and Federal Governments to establish a central electricity generation plant in Kalgoorlie and supply power to the mines at not more than 1/2d a unit, at 3/4d per unit for winding only, and at 2d per unit for lighting. He suggested, the transmission of this power over a radius of 25 miles from Kalgoorlie." (06 May 1925)Photograph of a man in a shirt, bow tie and jacket, holding a scroll and wearing glasses. He has two books beside him on a table. The man is Duncan McDougall, and is portrait was taken in the Charlie Farr studio at Maryborough, Victoriaduncan mcdougall, mcdougall, x-ray, xray, xray, ballarat school of mines, choir, mendelssohn, kalgoorlie

Information from Norman F. Dalton: Ballarat had a reticulated DC supply in the early part of last century and in 1905 had sufficient generating capacity to enable the trams to be changed from horse drawn to DC electricity. The use of electricity increased with the main power station located on Wendouree Parade, near Webster Street, under the ownership of The Electric Supply Company of Victoria. AC generating plant was installed in 1925 and conversion to AC proceeded. In 1934 the company was taken over by the State Electricity Commission Victoria (SECV) and more AC generation was installed and the changeover of customers was accelerated. This is around the time that the Synchronome Frequency Checking Mast Clock was installed at the Wendouree Parade Power Station. The SECV Annual Report of 1921 states: ::Section 11 of the act directed the COmmission to enquire into the question of securing the adoption of such standards of plant and equipment of a system, frequency and pressure for the generation and distribution of electricity as will admit of the efficient interconnection of undertakings throughout the State. In 1934 when the SECV took over the Ballarat operations the question of linking with the State grid had been a planned operation for some years but due to financial considerations had hindered it and in fact would continue to do so for a further 10 years. So while the need for close frequency control for interconnection was hardly an issue, the need to keep electric clocks correct was important, particularly as this item was a frequent sales point to cover the inconvenience and sometimes expense of converting from DC to AC. The clock is a very accurate pendulum clock with provision for varying effective length during operation for precise time regulation. There are two normal time dials and one is controlled by the pendulum and the other is operated by the system frequency. When the clock was in use it was installed by the MEter and Tests Laboratory and the time was checked daily by radio time signals. The two dials were repeated in the operators control panel in the Power Station. A maximum deviation between the two dials was set in the operating instructions (eg 5 seconds) and the operator would correct this when necessary by remote manual alteration of the turbine governor set point. The clock was used to drive and regulate a system of "slave" clocks which were used to display the time in various locations around the power station. A slave clock is a simple clock which is driven by a small electric motor, its accuracy is regulated by the master clock every 30 seconds to ensure that it and all the other slave clocks in the station are on exactly the right time; slave clocks were placed in various locations, from common rooms to workshops. A master clock could potentially run thousands of slave clocks at one plant. The clock also contains a rectifier. A rectifier is a device that is used to convert AC power to more stable DC current.Two clocks in a timber case. Both are electric, one is powered by the main pendulum mechanism, the other is a self contained electric clock. The main mechanism is of the gravity arm and roller type, which sends an impulse to the slave clocks every 30 seconds. The This Synchronome Frequency Checking Master Clock was used at the Ballarat Power Station. Below the main section of the case is a smaller cabinet containing a rectifier to provide consistent DC power for the clock. The rectifier was made by the Victorian company Hilco, which was located in Burwood. There is a high chance this is not the original rectifier from this clock as there appears to be brackets to hold a larger device in the space the rectifier occupies.Front below main clock face on front of case: "Patented Sychronome Brisbane" Lower left-hand clock face: "Frequency time" Lower right-hand clock face: "Standard Seconds" Synchronous electric clock mechanism on door (Frequency time clock): >200/250 V. 50~ >"Synchronomains" Made in England >Direction indicator for clock starting switch >"To start move lever in direction of arrow and release" >"Patent applied for" Mechanism for "standard seconds" clock: >"English Made" >"Patented" >Serial number "321" >0 above right-hand pillar on front-plate Mechanism for "standard seconds" clock: >"English Made" >"Patented" >Serial number "321" >0 above right-hand pillar on front-plate Mechanism for main clock face: >"English Made" >"Patented" >Serial number "8751" >0 above right-hand pillar on front-plate Inside case, back panel, top enamel plate: >Seconds Battery + Pos. > Battery Common or - Neg. >1/2 min dials Inside case, back panel, bottom enamel plate: external seconds dial Inside case, right hand side, electrical knobs: two switches, both "A.C. mains" Pendulum rod, below suspension spring: Serial number (?) 0000005 Rectifier in bottom cabinet: >"Hilco Rectifier" >"A.C. Volts 230/240" >"Model 1060/S" >"A.C. Amperes" >"Serial No. 1060/S >"Phases 1" >"D.C. Volts 6" >"C.P.S. 50" >"D.C. Amperes 1" >"Made in Australia by Hilco Transformers McIntyre St., Burwood, Victoria." Bakelite electrical plug: makers mark Lower cabinet, RH side panel, pressed tin plate: "AC" (upside down) Brass speed adjustment, outer right RH side: "S" and "F" Ivory and wood pendulum beat ruler: >Ruler, with 0 in centre and numbers 1-5 in ascending order from centre on left and right. > "Synchronome Patent." Steel plate, back panel, inside case, right hand side: >N R A" (descending) >"2191" serial number/part number Face of main clock: "Synchronome Electric" synchronome frequency checking master clock, electricity, state electricity commission, wendouree parade power station, secv, clock, time, pendulum, electric supply company of victoria, norman f. dalton, ballarat power station, rectifier, slave clock

A blue, soft, illustrated covered book.state electricity commission of victoria, anniversary, monash house, w.h. connolly, alexander fitzgerald, t.p. scott, b.j. callinan, yallourn, hazelwood power station, morwell power station, briquettes, morwell briquette works, water power, hydro-electric supply, rocky valley reservoir, electricity network, transmission statins, yallourn "w" power station, eildon reservoir

Graham Beanland's logbooks for the Electrical Branch Hydro-Design Section. Beanland was later the Principal of the Ballarat School of Mines. Four foolscap books with handwritten notes. .1) includes Richmond Power Station, Midworth Statino Load Indicator Transmitter, Thomastown Experimental Line (220v), The story of Richmond, Power factor curves, dryout of 6.6. KV motor, etc .2) Pressure Tests at Mt Waverly Pump Station, Shunt capacitor Bank for Bendigo, Shepparton Main Substation, Boronia Level Crossing - Supply continuity. commissioning Warragul Main Sunstatin, Tests carried out on Sedgewick installation, Bendigo Main Substation, MMBW Instalation at McVeighs, The South-Western Story, etc .3) History of Kiewa Hydro Scheme, Kiewa Scheme Layout Plan, Kiewa No. 4 Main Transformers, Motor operatied Power-Station lift, etc (included flyers "Power From Kiewa" and "White Coal", etc .4) Newport B and C Power Station, Yarraville Maintenance Workshops, Richmond and Brusnwick Terminal Stations, Rubicon-Eildon Area, Kiewa No.3 Power Station, etc.graham beanland, electricity, kiewa power station, newport power station, yarraville, richmond terminal station, brunswick terminal station, white coal, coal, boronia level crossing lights

Used at the Ballarat School of Mines and the Ballarat Technical Art SchoolThis collection of examinations is significant because of its completeness with the full range of examinations between 1914 and 1950.Large leather bound books, with leather spine, containing all examinations held at the Ballarat School of Mines (including the Ballarat Technical Art School and Ballarat Junior Technical School). The examination papers were supplied and printed by the Education Department, Victoria. Examinations include: Agriculture, Algebra, Architecture, Arithmetic, Applied Mechanics, Assaying, Biology, Botany, Boilermaking, Building Design, Blacksmithing, Bricklaying, Carpentry and Joinery, Coachbuilding, Cabinet Making, Civil Engineering, Cabinet Making, Commercial, Chemistry, Engineering Drawing, Economics, English, Electrical technology, Electricity and Magnetism, Electric Wiring, Electric Welding, Electrical Fitting, Electrical Trades, Food Analysis, Geology, Geological Mapping, Graphics, Geometry, Heat Engines, Heat Treatment, Hydraulics, Hand Railing, Instrument Making, Millinery, Milling and Gearouting, Machine Shop Practice. Metal Founding, Mining, Metallurgy, Mineralogy, Mathematics, Motor Mechanics, Mine Surveying, Mining Mechanics, Petrology, Physics, Painting and Decorating, Pattern Making, Plastering, Plumbing and Gasfitting, Printing, Refrigeration, Spelling, Science , Shorthand, Surveying. Signwriting. Sheet Metalwork, Toolmaking, Ladies Tailoring, Trigonometry, Typewriting, Welding, Commercial Geography. Millinery, Dressmaking, Needlework, Decorative Needlework, Architecture, Building Design and Construction, Art (Composition in Form and Colour), Art (Casting Clay MOdels) Art (Drapery), Art (Drawing the Human Figure From Casts), Art (Drawing the Antique from Memory), Art (Drawing from Memory); Art (Drawing Plant Forms from Nature, Art (Drawing Plant Forms From Memory), Art (Drawing from Models and Objects), (Drawing From a Flat Example). Art (Drawing in Light and Shade from a Cast of Ornament or Lower Nature), Art (Drawing Ornament from the Cast), Art (Drawing from Models or Objects), Art (Drawing fro Dressmakers' and Milliners' Fashions), Art (Drawing With the Brush), Art (Drawing from a Flat Example); Art (Modelled Design), Art (General Design), Art (Embossed Leatherwork), Art (Practical Plane Geometry), Art (Practical Solid Geometry), Art (Geometrical Drawing), Carpentry and Joinery, Art (Human Anatomy), Art (Historic Ornament), Art (House Decoration), Art (LEttering), Signwriting, Art (Light Metalwork), Art (Modelling), Art (Modelling the Human Figure from a Life), Art (Stencilling); Art (Wood Carving) Refrigeration, Teaching, Boilermaking, Blacksmithing, Carpentry and Joinery, Coachbuilding and Carriage Drafting, Electric Wiring, Electrical Fitting, Graining and Marbling, Instrument Making , Machine Shop Practice, Metal Founding, Milling and Gear Cutting, Motor Mechanics, Painting and Decorating, Sheet Metalwork, Toolmaking, Printing, Pattern Making, Plumbing and gasfitting, examinations, ballarat school of mines, ballarat technical art school, trades, education department victoria, agriculture, algebra, architecture, arithmetic, applied mechanics, assaying, biology, botany, boilermaking, building design, blacksmithing, bricklaying, carpentry and joinery, coachbuilding, cabinet making, civil engineering, commercial, chemistry, engineering drawing, economics, english, electrical technology, electricity and magnetism, electric wiring, electric welding, electrical fitting, electrical trades, food analysis, geology, geological mapping, graphics, geometry, heat engines, heat treatment, hydraulics, hand railing, instrument making, millinery, milling and gearouting, machine shop practice, metal founding, mining, metallurgy, mineralogy, mathematics, motor mechanics, mine surveying, mining mechanics, petrology, physics, painting and decorating, pattern making, plastering, plumbing and gasfitting, printing, refrigeration, spelling, science, shorthand, surveying, signwriting, sheet metalwork, toolmaking, ladies tailoring, trigonometry, typewriting, welding., dressmaking, needlework, decorative needlework, architecture, building design and construction, art (composition in form and colour), art (casting clay models), art (drapery), art (drawing the human figure from casts), art (drawing the antique from memory), art (drawing from memory), art (drawing plant forms from nature, art (drawing plant forms from memory), art (drawing from models and objects), (drawing from a flat example), art (drawing in light and shade from a cast of ornament or lower nature), art (drawing ornament from the cast), art (drawing from models or objects), art (drawing for dressmakers' and milliners' fashions), art (drawing with the brush), art (drawing from a flat example), art (modelled design), art (general design), art (embossed leatherwork), art (practical plane geometry), art (practical solid geometry), art (geometrical drawing), art (human anatomy), art (historic ornament), art (house decoration), art (lettering), art (light metalwork), art (modelling), art (modelling the human figure from a life, art (stencilling), art (wood carving), teaching, coachbuilding and carriage drafting, graining and marbling, milling and gear cutting, commercial geography, exams, examination book