“Sundial 2hp engine, open crank, 600rpm, serial number 6420.” These small 4 stroke engines were widely used on Australian farms through the 20th century to power chaffcutters, grinders, saws, lighting plants, pumps, shearing plants, milking machines and cream separators easing much of the drudgery of farm work. They were also used in garages and workshops and by bush fire brigades. The engine was made by H.V.McKay Massey Harris. At one time Hugh Victor McKay’s Sunshine Harvester Works was the largest factory in Australia but in 1930, to ensure survival during the Great Depression, elected to merge with the Australian arm of a Canadian firm, Massey Harris. The Sundial is fitted with twin flywheels, making it a compact and convenient power source as either wheel could double as a drive wheel. Its connecting rod, crankshaft and flywheel spokes are covered, a safety measure that was not standard at the time. These engines were advertised as simple, dependable, low in price and cheap to run. They had the additional advantage that a bolt-on kit was made by the manufacturer to convert them to run on kerosene. ‘The engine's output is two horsepower (1.5 kW) at 600 rpm. The compression ratio is 5:1 and the spark plug is activated by a high tension magneto. The fuel tank holds 3.3 litres and the cooling water hopper holds 6.6 litres. Cylinder bore is 101 mm and piston stroke is 115 mm.’ In a catalogue of HV McKay Massey Harris agricultural machinery published in March 1942, the engine is described as follows: 'The cylinder head is of the hot, turbulent type, giving the finest fuel atomisation and heat distribution. The carburettor, of special design, has an automatic air valve controlling the amount of air. The supersensitive, high speed, flyball-type governor provides an ample range of speed.'Typical of units used on local farms. RepresentativeSundial 2 h.p. engine, open crank 600 rpm Seral number 6420, red. Attached to yellow grain grinderSunshine McKay, 1939 Serial no. 6420farm machinery, stationary, machine operated, belt driven

Until 1960 there were no telephones in Falls Creek. The only access to a phone was at Rocky Valley Camp where the State Electricity Commission (SEC) had an extensive network to Mount Beauty, Bogong and the other camps such as Clover power station and Howman's Gap. There were test points with a phone beside the road where contact could be made to the office in Mount Beauty. The SEC was unconcerned about Falls Creek, so no power was connected until 1960 when Tom Mitchell aired the matter in parliament. Tom was a keen skier. He applied to the Post Master General who was then responsible for telephones as well as mail. The PMG staff came up from Bright and installed an exchange in Diana Lodge. There were only about 15 lines to a post across the road uphill about 20 metres. It was from here that you could put a line from the building into a box where connections were possible. You had to buy a cable from the disposal store. It needed to have an alloy of copper and steel in the wire similar to what the army had used during the war. If the phone failed the owner would have to find the break in the wire, not an easy task in the heavy snow. Then came the telephone itself. Falls Creek was given old-fashioned sets with a hand wound magneto to ring the bell at the exchange. When the operator answered she could then plug a line into another phone line or the exchange in Bright. In the phone were two dry cell batteries that carried the spoken word to the other phone connected. Trunk lines were expensive then, so each trunk call was timed by the minute. The operator would disconnect you after a minute if you did not reply to her question "are you extending?". These telephones were donated by Julian Newton Brown. Julian's Lodge Arundel was known as Falls Creek 11.These telephones are significant because they illustrate the earliest form of technology available to connect Falls Creek Village to other areas.Telephones constructed of polished wood, brass bell, handles and cabling. Designed to operate through a telephone exchange. They operated on two dry cell batteries.Attached to front of telephone: Instructions on how to make or receive a call.falls creek village, falls creek communicaton

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

Promoting the Graphic Design/Multimedia program being offered by the University of Ballarat at the Mt Helen Campus. Promoted course as "one of the smallest and arguably the best three year programs of its kind in Australia and the South Pacific region." The brochure lists student awards received including Platinum and Gold in the AGFA International Young Designer Contest, 1999; two meritorious awards in The Art Directors Club Student Awards, New York, USA 1999; Graphis New Talent 1999; two Gold in Souther Cross Packaging Awards, 1998. At time of publication, the School of Arts, Visual Arts reportedly had 210 students with majors in Graphic Design/Multimedia, Ceramics/3D, Painting, Drawing, and Multidiscipline. Minors studies included Printmaking, Photography, 3D, 2D, and Graphic Communication. ___ Course aimed to train "independent, flexible thinkers". The course promised to "Promote creativity, originality and imaginative thinking; Develop self-directed learners, displaying initiative in the formation of ideas and the confidence to construct personal responses; Develop appropriate conceptual, technical and professional skills; Develop the student's critical process: ability to undertake research, and to make informed decisions; Clarify thinking, concepts and understanding and deep knowledge, attitudes and skills enabling the designer to respond to community needs." Studio and working environment described as "one open space with working facilities for approximately 75 students across 3 year levels. The area is divided up into work stations where 1st, 2nd and 3rd year students intermix, allowing a natural interaction. These workstations are configurations of six, consisting of two students from each year level. This reinforces the area's ongoing development with an open ethos and cross-level delivery and learning. This maximises the use of information in order for it to be applied throughout all levels of the learning process, whilst allowing a natural mentor arrangment to be developed for all first year students, " "The open ethos approach also encourages students and staff to freely express their opinions in relation to design via cross-level critiques, whilst allowing for a liberal arts approach and structure to the development of the creative process." "Emphasis is placed on experimentation, innovation, expression and the development of the individual's design philosophies, concepts and style." Also notes the 24 hour access Macintosh laboratory, with 34 Power Macintosh computers, ratio of one for every 2.5 students. Each with a Fujitsu Dyna Magneto Optical drive for file storage and transport. Two Sharp scanners, Phaser Dye-Sublimation Extra Tabloid colour printer and Ricoh A3 colour printer. Two large format printers. Digital and video cameras. Software: Adobe Photoshop, Illustrator, Acrobat; QuarkXpress; Macromedia Freehand; Pagemaker; Premier; Director; 3D Extreme; Sound Eidt, Shockwave, Infinite 3D and After Effects. Approx 4.5 staff, "all of whom are practicing designers. They have a full understanding of industry requirements and trends which assists in the development of industrial contacts when specialists are required." Prospective students interviewed in late Nov/ early Dec, face to face. Present a "comprehensive folio of work", academic records, references. "Selection is determined by the perceived potential of the student, their motivation and reason for study within the field as well as their previous experience in the Visual Arts. Folio work should be representative of the individual's ideas and abilities. Qualities of importance are: originality, innovation, imagination, experimentation and a competent display of the basic skills associated with visual arts [evidence of drawing skills should be included]." Demonstration of GD/MM computer skills an advantage. Students also asked to bring sketch books. Promotional brochure for prospective students. 8pp Double fold brochureuniversity of ballarat, federation university, graphic design, multimedia, bachelor, degree

The Lister Auto-Truck was a small monowheel tractor built for moving light loads around factories, railway yards and similar sites. They were built by R A Lister and Company of Dursley, Gloucestershire, well known for their range of small stationary engines The Auto-Truck was one of several monowheel tractors to appear in the 1920s and '30s, with the availability of small, reliable petrol engines, as developed for motorcycles and the stationary engines for which Lister were already known. These were tricycle vehicles, with the single leading wheel used for both drive and steering. Their simple construction carried most of the mechanism on this wheel as a single unit, the chassis with the trailing wheels being little more than a trailer for balance. Simplicity was a key feature. The engines were single-cylinder and air-cooled. Ignition was by magneto, rather than requiring a battery and electrical system. One of these designs was produced in the 1920s by George Grist of the Auto Mower Co., Norton St Philip, Somerset. The engine was a JAP 600 cc four-stroke air-cooled sidevalve, a typical small engine of the time. The Auto Mower Co. were Lister agents and when Lister heard of this 'Auto-Truck' they bought one for use in their own factory. It was used to carry heavy engine castings from the foundry to the machine shop. Lister customers saw them and there was such interest in wanting to buy them that Lister negotiated with Auto Mower to build them under licence. Although Lister were already well known for their small petrol stationary engines, these were heavy cast-iron engines with water hopper cooling and unsuitable for vehicle use. Lister remained with the JAP engine for the Auto-Truck. The Auto-Truck was designed for use in factories or other places with smooth surfaces of concrete or tarmac. This allowed the use of small solid-tyred wheels with only simple suspension, making the vehicle simple, cheap and lightweight. They had little ability on soft surfaces though and could even topple over if driven carelessly across slopes. Their design was a compromise between the top-heavy nature of the tall engine grouping above its wheel and a well thought-out chassis for stability. The bearing between them was a large diameter ring roller bearing, mounted at the lowest part of the chassis. This gave rigidity and stability, even after long wear. A ring of rolled channel girder was attached to the engine group and rollers on the chassis carried the load upon this. On early Auto-Trucks this bearing is set very low, in line with the chassis members, and is covered by thin steel plates. The front panel of the engine cover is distinctive with large ventilation holes and a Lister signature cut through it. Strangely this panel is made of thick cast iron, providing substantial weight high on the engine and only adding to its top heaviness. To improve visibility of moving vehicles in noisy factories, this panel was often painted white, the rest of the vehicle being Lister's usual brunswick green. The driver was seated on a Brooks bicycle saddle, which in recognition of the lack of vehicle suspension, was carried on the end of a cantilevered bar that acted as a leaf spring. A wide handlebar on the engine group was used for steering. A squeeze bar the width of this handlebar engaged the clutch. Controls included a hand throttle, a gear lever with two forward and one reverse gears, and a large handbrake lever. The engine unit rotated freely for a full 360° rotation. When used in reverse, the Auto-Truck could either be driven from the saddle, looking backwards over the driver's shoulder; or they could dismount, swivel the engine unit around and control it as a pedestrian-controlled truck from behind. Under the engine cover were two equal diameter tanks, a fuel tank for petrol and a shorter oil tank. Engine and chain-drive lubrication used a total-loss oil system, controlled by a small pump and needle valve. Info Ref: Lister Auto-Truck - Wikipedia https://en.wikipedia.org/wiki/Lister_Auto-TruckHistoric - Industrial monowheel tractor for moving light loads around factories, railway yards and similar sites.The Lister Auto-Truck - small monowheel tractor Made of steel with three wheels. Powered by a J.A.P single cylinder petrol motor which is Hand Cranked to start.Lister puffing billy, lister, lister auto truck, monowheel tractor

Experimentation with electricity for medical purposes has its origins in the late 18th Century. Throughout the 19th Century it became more common, including as a proposed treatment for 'nervous' disorders. This device is a small, portable, 'at-home' device.Device for administering electric stimulation to patients. Consists of a wooden box containing a hand driven generator, with terminals for the attachment of electrodes that may be held by the patient or placed against the patient's skin. The directions for use include information about wetting the sponges and the patient's hands before cranking the machine to produce a small electric shock.