Train World poster for use in roof ad of a Ballarat tram, consisting of wording and three cut out (Diesel locomotive power bogie, a VR train and a cartoon by David Frost and colour in water coloured wash, and colour pencil, mounted onto a sheet of cardboard. Image added 20-12-2016.trams, tramways, posters, train world, roof ads

Sign regarding the operation of a Melbourne suburban train door that has been fitted with power closing doors, three colours, adhesive back with the name of the manufacturer "JBC" on the rear. Has two sheets of paper split in the middle that protected the sign until use. Possibly dates from the time of the introduction of power doors on Harris Trains.trams, tramways, victorian railways, melbourne

Until 1925 Beech Forest saw three trains or six train movements each day, from 6.50,am until 3.05 pm, and the railway personnel reflected this movement. A Station Master, porter, goods clerk, train crew, engine cleaner and track gang were employed. While economic activity slowed a little bit after this it still remained vigorous for another three years. However, the frequency of goods trains started to decrease from 1926 when the small NA class locomotives were partly replaced by a Garratt engine that had greater hauling power. Three regular train services continued to run each day, two of these being NA drawn and the other a Garratt train.B/W. Beech Forest Railway Station, a group of two men and a single man standing outside. On No.2 Road an NA locomotive, the single man watching. On No.3 Road a line of NQR open wagons.beech forest; railways; loco na;

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) The car immediately behind the locomtive is State Car No. 2 (Melville) which was used as a power unit for the train. https://www.pjv101.net/cd/pages/c160v03.htm Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballan, train of knowledge, x48, x-class diesel locomotive, state car no.2 (melville)

Digital scanFrom Vicrail News magazine, April 1983. “Duplication of the five-kilometre section of line between Ringwood and Croydon is on the way. Several major works will be undertaken over the next few months so the two tracks can be brought into service later this year. Intensive work on this section follows completion of duplication works between Ringwood and Bayswater on the Belgrave line last December. The completion of this 5.17 kilometre section between Ringwood and Bayswater means that this Belgrave line is now duplicated as far out as Ferntree Gully. Commuters using the Belgrave line now have an improved service with the intro duction in January of an additional evening peak train to Upper Ferntree Gully, two additional peak hour services in the morning from both Belgrave and Upper Ferntree Gully, and with the additional tracks delays on one line will not affect trains travelling in the opposite direction. Commenting on the completion of this stretch of track the Minister of Transport, Mr. Crabb, said a further improvement had been made with the commissioning of boom barriers at the Bedford Road level crossing in Ringwood. "The installation is part of the State Government's $9.4 million four-year plan to equip 70 dangerous level crossings throughout the State with boom barriers", he said. Works to be carried out on the Ringwood/ Croydon section include laying of new track, station works at Croydon and installation of boom barriers at East Ringwood. Already completed are bridge works to cater for double tracks at both Mt. Dandenong and Eastfield Roads between Croydon and East Ringwood and construction of an island platform at East Ringwood station. At several locations alignment of the existing track will be slightly relocated. The new line is being constructed with concrete sleepers and heavyweight rails. The existing line will also be reconstructed using these heavy 60kg per metre rails. Engineering works to be completed include installation of overhead wiring necessary to supply power to trains, construction of two new station buildings and a new platform at Croydon, provision of boom barriers, and pedestrian boom barriers at Dublin Road level crossing. East Ringwood, and replacement of existing timber overhead wire support structures with steel structures. Other works in this program included installation of boom barriers at Bedford Road, Ringwood and Scoresby Road, Bayswater and provision of a new platform for trains going to Melbourne and Heathmont. A new timetable on the Lilydale and Belgrave lines will commence when the Ringwood—Croydon duplication track work is completed.”

The origin of the fusee is not known. Many sources credit clockmaker Jacob Zech of Prague with inventing it around 1525. The earliest dated fusee clock was made by Zech in 1525, but the fusee appeared earlier, with the first spring-driven clocks in the 15th century. The idea probably did not originate with clockmakers, since the earliest known example is in a crossbow windlass shown in a 1405 military manuscript. Drawings from the 15th century by Filippo Brunelleschi and Leonardo da Vinci also show fusee mechanisms. The earliest existing clock with a fusee, also the earliest spring-powered clock, is the Burgunderuhr (Burgundy clock), a chamber clock whose iconography suggests that it was made for Phillipe the Good, Duke of Burgundy about 1430. Springs were first employed to power clocks in the 15th century, to make them smaller and portable.[1][5] These early spring-driven clocks were much less accurate than weight-driven clocks. Unlike a weight on a cord, which exerts a constant force to turn the clock's wheels, the force a spring exerts diminishes as the spring unwinds. The primitive verge and foliot timekeeping mechanism, used in all early clocks, was sensitive to changes in drive force. So early spring-driven clocks slowed down over their running period as the mainspring unwound. This problem is called lack of isochronism. Two solutions to this problem appeared with the first spring-driven clocks; the stack freed and the fusee. The stack freed, a crude cam compensator, added a lot of friction and was abandoned after less than a century. The fusee was a much more lasting idea. As the movement ran, the tapering shape of the fusee pulley continuously changed the mechanical advantage of the pull from the mainspring, compensating for the diminishing spring force. Clockmakers empirically discovered the correct shape for the fusee, which is not a simple cone but a hyperboloid. The first fusees were long and slender, but later ones have a squatter compact shape. Fusees became the standard method of getting constant force from a mainspring, used in most spring-wound clocks, and watches when they appeared in the 17th century. Around 1726 John Harrison added the maintaining power spring to the fusee to keep marine chronometers running during winding, and this was generally adopted. The fusee was a good mainspring compensator, but it was also expensive, difficult to adjust, and had other disadvantages: It was bulky and tall and made pocket watches unfashionably thick. If the mainspring broke and had to be replaced, a frequent occurrence with early mainsprings, the fusee had to be readjusted to the new spring. If the fusee chain broke, the force of the mainspring sent the end whipping about the inside of the clock, causing damage. The invention of the pendulum and the balance spring in the mid-17th century made clocks and watches much more isochronous, by making the timekeeping element a harmonic oscillator, with a natural "beat" resistant to change. The pendulum clock with an anchor escapement, invented in 1670, was sufficiently independent of drive force so that only a few had fusees. In pocketwatches, the verge escapement, which required a fusee, was gradually replaced by escapements which were less sensitive to changes in mainspring force: the cylinder and later the lever escapement. In 1760, Jean-Antoine Lépine dispensed with the fusee, inventing a going barrel to power the watch gear train directly. This contained a very long mainspring, of which only a few turns were used to power the watch. Accordingly, only a part of the mainspring's 'torque curve' was used, where the torque was approximately constant. In the 1780s, pursuing thinner watches, French watchmakers adopted the going barrel with the cylinder escapement. By 1850, the Swiss and American watchmaking industries employed the going barrel exclusively, aided by new methods of adjusting the balance spring so that it was isochronous. England continued to make the bulkier full plate fusee watches until about 1900. They were inexpensive models sold to the lower classes and were derisively called "turnips". After this, the only remaining use for the fusee was in marine chronometers, where the highest precision was needed, and bulk was less of a disadvantage until they became obsolete in the 1970s. Item is an example of clock mechanisms used until 1910 for many different styles of clocks and went out of fashion in the 1970s due to improvements in clock and watch making.Brass fusse clock movement, It has very heavy brass plates and wheels, high-count machined pinions, and a fusee. The mounting of the pendulum is missing and It has a recoil escapement. A fusee is a conical pulley driven through a chain by the spring barrel. As the spring runs down, the chain acts at a larger and larger radius on the conical pulley, equalising the driving torque. This keeps the rate of the clock more even over the whole run. It has motion work to drive an hour hand as well as a minute hand and the centre arbor is extended behind the back plate to drive some other mechanism.Inscription scratched on back"AM 40" flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock mechanism, fusee mechanism, horology

The breeches buoy and traveller block are part of the beach rescue apparatus used by lifesaving crew overseas and in Australia in the 1860s to 1960s. The breeches buoy (or chair bucket or petticoat breeches) were invented by Lieutenant Kisbee by the 1850s. It looks like a pair of canvas shorts with a cork lifebuoy ring attached around the top. The set-up works similar way to a zip wire and allows for two-way travel. Saving lives in Warrnambool – The coastline of South West Victoria has had over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it, followed in 1864 by a rocket house to safely store the Rocket Rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost one hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain and improve their skills, summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The first use of a lifesaving rocket rescue system is often credited to Captain Manby and his invention of a life mortar, first used in 1808 to fire a line onto a ship to rescue lives. Henry Trengrouse’s invention of 1820 was the first to use a sky rocket’s power to throw a line, and his invention included a chair for carrying the shipwrecked victims to shore. In 1832 John Dennett invented a rocket specifically for shore to ship rescue. It had an iron case and an 8 foot pole attached and could shoot the line as far as 250 yards (about 230 metres). From the 1860s the rocket rescue apparatus was in use. It comprised a breeches buoy and traveller block that was suspended on a line and manually pulled to and from the distressed vessel carrying passengers and items. Colonel Boxer, who had invented an early line-thrower, designed a rocket in 1865 with a range from 300 to 470 yards. It was the first two-stage rocket, with two rockets placed one in front of the other in a tube that carried the rescue line. The hemp line was faked, or coiled, in a particular way in a faking box to prevent twists and tangles when fired, and the angle of firing the rocket was measured by a quadrant-type instrument on the side of the rocket machine. Schermuly invented the line-throwing pistol around 1920, which used a small cartridge to fire the rocket. Victoria’s Government adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain, which used Colonel Boxer’s rocket apparatus rescue method. The British Board of Trade published instructions in 1850 for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a light-weight line attached, then firing it across the stranded vessel. A tally board was then sent out with instructions in four languages. The ship’s crew would haul on the line to bring out the continuous whip line and attach the whip block to a mast or sturdy part the ship. The rescue crew on shore then hauled out a heavier hawser line, which the ship’s crew fixed above the whip block. The hawser is then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the buoy to and from the vessel, rescuing the stranded crew one at a time. The rocket system could also be used from one ship to another. This item is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Breeches buoy and traveller lock; white canvas breeches (shorts) with lifebuoy ring attached to its waistband, with ropes for attaching it to the traveller block. Wooden traveller block has double brass inline sheaves and brass rollers on each cheek of the block, and each shell is scored for the strop. The thimble attached to the strop has a wooden slat for quick release of the breeches buoy. The ropes comprise of two equal lengths of rope that have been bunched together to form two loops, then bound together just below the loops, while the four hanging ends are looped around the lifebuoy, equally spaced, with each end finished in an eye-splice. The apparatus is suspended by the loops at the top and attached to the traveller block, which has a quick release device.flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, petticoat breeches, breeches buoy, rocket house, rocket shed, lifeboat men, rocket equipment, rocket machine, rocket head, rocket launcher, rocket line, marine technology, william schermuly, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, beach rescue set, traveller, block, running block, pulley, hawser, faking, faking box, faked line, rescue boat, lifeboat, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, volunteer lifesavers, volunteer crew, breakwater, lifeboat warrnambool, rocket rescue method, rocket rescue apparatus, captain manby, mortar, henry trengrouse, sky rocket, john dennett, shore to ship, colonel boxer, two-stage rocket, italian hemp, quadrant, schermuly, line-throwing pistol, line throwing cartridge, rocket apparatus rescue, stranded vessel, tally board, light line, whip line, endless whip, petticoat buoy, traveller chair, traveller block, her majesty’s coast guard, harbour board, line thrower, line throwing, beach cart, hand barrow, sand anchor, hawser cutter, life jacket, faking board, irish hand barrow, government of victoria

These photographs are of the final train to leave Orbost railway Station on August 21 1987 signalling the closure of the line. 3105.12 shows Locomotive T408 and on the side is written "LAST TRAIN EX ORBOST 24.8.87". These photographs are associated with the history of the Orbost-Bairnsdale railway line and therefore reflects the role that the rail line played in the social and economic history of Orbost. The closure of the line was a significant event in Orbost's history.Fifteen black / white photographs of the last train to leave Orbost Railway station.3105.1 - on back - "Last Train leaving Orbost Railway Station on Friday August 21. 1987. SRM August 26 1987 Last train from Orbost, Friday last saw the end of an era when the last freight train to pull out of Orbost Station at about 4.co pm. A symbolic wave from engineer, Bill Buckley, was the only ceremony to mark the passing of rail transport for East Gippsland." 3105.2 - on back - " Last train prepares to leave from Orbost on August 21, 1987." 3105.3 - on back - " The Orbost railhead following the departure of the last train on Friday August 21, 1987. Shows spectators who farewelled the last train." 3105.4 - on back - "From Grandview, Newmerella, shows the last train from Orbost crossing the timber Trestle (sic) viaduct across the Snowy River flats on Friday August 21, 1987" 3105.5 - on back - " A pair of Series 3 "T" Class Diesel Electric locomotives which were used to haul the final train from the Orbost Rail Head on Friday, August 21, 1987. Goods shed on right" 3105.6 - on back - " VFTY Timber Wagons at the Orbost Railway Station. 30 of these large wagons were built for the timber traffic between Orbost and Melbourne. Part of last train to leave Orbost on August 1, 1987." 3105.7 - on back - "The Fordson powered Rail Tractor which was used during shunting at the Orbost railway station, hooked up behind the second locomotive for its final journal from Orbost on Friday August 21, 1987." 3105.8 - on back - "Two Series 3 "T" Class Locomotives (Diesel Electric) were used to haul the final train from Orbost - T408 and T347, T408 was the leading locomotive. Orbost Goods Shed is on the left. Last train left on Friday August 27, 1987." 3105.9 - on back - " 3 "T" Class Diesel Electric locomotives often used in pairs to haul the timber trains out of Orbost. This locomotive was used to lead (haul) the final train from Orbost on Friday August 21, 1987" 3105.10 - on back - "The Gantry at the Orbost Railway Yards - capacity 10 tons. The last wagons before being hooked up to the locos for their last trip out of Orbost on Friday August 21, 1987" 3105.11 - on back - " Station Masters Office and Goods Shed at Orbost Railway Station. The two Series 3 "T" Class Diesel Electric locomotives waiting to haul the final train from Orbost on Friday 21 1987" otrbost-bairnsdale-railway east-gippsland-railway orbosr-railway-closure

Educational book for teaching mathematics in Form 2 in Victoria. Kerrie Davies lived in the Kiewa Valley on a dairy farm.Historical: Comparison of the teaching of Mathematics in Victorian schools. Provenance: Davies family.Dark green hard covered book with sketch of power line, bridge, multi storey building and train in yellow and re. Writing in white.Education Department of Victoria (in white but coloured in) / Form Two / Mathematics / Technical Schools Branch Inside back of cover some scribbled maths. On first page: Kerrie Davieseducation. schools. davies family. mathematics.

In this picture can be seen steam locomotive J-521 and tender to which is attached State Car No. 5. It is believed that the other support carriages have been de-attached and the train has pulled up at the front of the platform allowing room for other trains to pull in. Immediately behind on the same track at the platform is a Diesel Electric Rail Motor (DERM) and C-class bogey (luggage) then a small (articulated) rail car (articulated) then a cattle van. On the adjacent track is State Car No. 2 (Melville) and a C-van. State Car No. 2 (Melville) was used a power generation car for special trains and the Train of Knowledge. State Car No. 5 is in the design of the Spirit of Progress. George Coop advised that the occasion is the visit of the Governor of Victoria, Sir Rohan Delacombe to Echuca in 1963. Delacombe had replaced Sir Dallas Brooks in May 1963 who had departed for England on the liner Iberia,11 April 1963 (1963 'SIR DALLAS ON WAY TO U.K.', The Canberra Times (ACT : 1926 - 1995), 9 April, p. 9. , viewed 27 Jan 2020, http://nla.gov.au/nla.news-article104249252) George believes the Governor was doing a considerable formal train ride around the State and Echuca was on the schedule. The ‘platform’ was a special creation for such purposes, located on the wharf spur line that ran behind the Echuca Civic Centre. The large notice board commemorates the Queen’s visit on March 5th, 1954 for which the platform was initially built. From time to time it would get spruced up with pot plants, fresh paint and repaired hand rails for formal functions. George attended the Civic Reception held for the Governor. A picture of His Excellency Sir Rohan Delacombe, Governor of Victoria, and Lady Delacombe about to entrain at Spencer Street for a visit to western Victoria is available on page 4 of VICTORIAN RAILWAYS REPORT OF THE VICTORIAN RAILWAYS COMMISSIONERS FOR THE YEAR ENDED 30th JUNE, 1963. (http://www.victorianrailways.net/vr%20history/annual_reports/vrar1963.pdf) More information about the Victorian Railways Royal Train https://en.wikipedia.org/wiki/Victorian_Railways_Royal_Train State Car No. 5 https://www.pjv101.net/cd/pages/c160v06.htm State Car No. 2 (Melville) https://www.pjv101.net/cd/pages/c160v03.htmDigital TIFF file Scan of 35mm Ilford FP3 black and white negative transparencycattle van, c-van, diesel electric rail motor (derm), echuca, echuca rail yard, echuca railway station, george coop collection, governor of victoria, j-521, rail car, royal train, power car, sir rohan delacombe, state car no. 2 (melville), state car no. 5, train of knowledge, victorian railways

In WW1 the Australian Light Horse served from the Suez Canal right around through Palestine - Syria.1. Memorial Card. Black cardboard with gold printing. It is a religious article with images and prayers. In the top centre is an oval shaped hole with a B & W portrait of an Aust soldier. Slouch hat with side up. 2. Set of 31 B & W photos depicting scenes of light horse activity. Beaches - Middle East buildings - locals - repairing train lines - daily life - campsites - ships off shore etc.Thomas McGinty, Beloved son of Catherine Power. "Who gave his life for the Empire. At Gallipoli, Turkey, August 13 - 1915. Aged 33 years.ww1, middle east, light horse

George Rose was well known Australian photographer and postcard maker in the first half of the 20th century. This sterograph shows recruits training at Geelong during the First World War. Soldiers were trained to attack in short rushes rather than advancing in line due to the lethal power of the machine gun. The stereograph was an early technology that used double images to achieve a three dimensional image. Rectangular piece of cardboard with a stereograph image attached to the front. The image is a double reproduction of a black and white photograph. the photograph depicts a line of soldiers lying on the ground. AUSTRALIAN EXPERDITIONARY FORCE, GEELONG. Training Recruits in the Art of Attacking in Short Rushes. Copyright by Geo. Rose.wwi, rose series, postcard, lara, geelong, rsl, training, stereograph

The steam engine indicator, or dynamometer, is an instrument used on a steam engine (such as that of a vessel or train) to measure and record the change in the pressures of the engine’s cylinders during their operating cycle. The engineer would use it to identify problems or defects such as bad valve settings or constricted steam pipes. It could indicate the difference in efficiency caused by adjustments made to the engine, being able to instantly measure the variation of pressure from the engine stroke at any given time. This force of power would be registered by a pencil, fitted to the adjustable arm, which would trace a line on paper wound around the cylinder. The recorded information could be used in conjunction with mathematical tables. This particular instrument was made by T.S. Mc Innes, one of the better manufacturers of engine indicators. Mc Innes engine indicators were still being used in the mid 1900’s. This specific instrument was used by Mark Forsythe of North Berwial, Scotland and late of Ararat, Victoria when he was chief engineer on the “SS Talawena” in 1892. The Port of Warrnambool, in Victoria, harboured steam ships that carried both passengers and cargo along the south west coast in the late 1800’s and into the 1900’s. The engineer of a steam ship was responsible for reaching and maintaining the optimum level of steam energy to serve the locomotion and efficiency of the steam ship. The engineer would use a steam engine indicator to measure and record information to achieve this purpose. Engine Dynamometer or Steam Engine Indicator in square, fitted oak case. This brass instrument is used to measure and record steam pressure for setting up and adjusting valves on a steam engine. It has an oscillating recording drum with vertical, silver clip attached for holding paper in place around the drum. The drum oscillates left to right. There is a pulley attached to a length of cord, which is attached to the drum. Beside the drum is a fine metal arm, vertically adjustable, small hole in the end to hold a pencil. Inscription stamped into bracket of the arm. The engine indicator is mounted on a hinged side of the case that swings out ready for use. Attached chains prevent the side from opening past vertical. There is storage for other accessories and an empty compartment in the base (where a scale or ruler may have been located). The case has a collapsible wooden handle, brass hinges and two brass, hook-shaped catches. There is a code stamped inside the lid. It contains a brass, ‘T’ shaped steam-cock (or stop cock) with two open ends made of metal pipe with different sized threads. (Turning the handle on top opens and closes the space in the pipe and would close off the flow of steam from one end to the other.) Also inside the case are three different spiral springs, each with a threaded nut on the end that has a threaded hole inside it. Used by Mr Mark Forsythe when chief engineer on the SS Talawena in 1892 “T.S. MC INNES PATENT” and “522 _ _” (last 2 digits are unreadable) pressed into the arm of the brass indicator. “[ ] X ’ stamped inside the lid of the case. The 3 springs all have a number stamped into them: (1) “32” and “12” (2) “12” and “16” [above] “12” (3) “64” and “150” Card that came with instrument “This instrument was used by Mark Forsythe of North Berwial Scotland and late of Ararat, Victoria when chief engineer on the SS Talawena in 1892" dynamometer, steam engine indicator, t.s. mcinnes, glasgow, dobbie mcinnes, port of warrnambool, warrnambool, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, maritime museum, shipwreck coast, great ocean road

This rescue line-throwing rocket set was made for the Dennett rocket system, which was used by the Rocket Rescue crews in South West Victoria from around the 1860s to the 1890s. John Dennett - John Dennett was from Carisbrooke, in the Ilse of Wight, UK. In 1826 he invented, patented and demonstrated an improved method of rocket powered, line firing rescue equipment for saving lives. The rockets had a longer range than the mortars being used, they were lighter, needed less preparation time, only needed one line for repeated shots, and fewer people were needed to move the equipment. Very favourable reports of Dennett’s rockets were received by those in charge of His Majesty’s Naval and Military services. In 1832, Dennett’s rocket-thrown line was sent out to the wreck of the ‘Bainbridge’, and was responsible for nineteen survivors coming ashore in two boatloads, along the fired line. Dennett’s rocket received national fame, and a one-year contract to supply rockets to the Coastguards. He became known as ‘Rocket Man’ and his rockets were used in rescues at least until 1890, when his son Horatio was running the business. A rocket weighing 23 lb would have a range of about 250 yards (228 metres), on average. Saving lives in Warrnambool – The coastline of South West Victoria has had over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it, followed in 1864 by a rocket house to safely store the Rocket Rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost one hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain and improve their skills, summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The first use of a lifesaving rocket rescue system is often credited to Captain Manby and his invention of a life mortar, first used in 1808 to fire a line onto a ship to rescue lives. Henry Trengrouse’s invention of 1820 was the first to use a sky rocket’s power to throw a line, and his invention included a chair for carrying the shipwrecked victims to shore. In 1832 John Dennett invented a rocket specifically for shore to ship rescue. It had an iron case and an 8 foot pole attached and could shoot the line as far as 250 yards (about 230 metres). From the 1860s the rocket rescue apparatus was in use. It comprised a breeches buoy and traveller block that was suspended on a line and manually pulled to and from the distressed vessel carrying passengers and items. Colonel Boxer, who had invented an early line-thrower, designed a rocket in 1865 with a range from 300 to 470 yards. It was the first two-stage rocket, with two rockets placed one in front of the other in a tube that carried the rescue line. The hemp line was faked, or coiled, in a particular way in a faking box to prevent twists and tangles when fired, and the angle of firing the rocket was measured by a quadrant-type instrument on the side of the rocket machine. Schermuly invented the line-throwing pistol around 1920, which used a small cartridge to fire the rocket. Victoria’s Government adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain, which used Colonel Boxer’s rocket apparatus rescue method. The British Board of Trade published instructions in 1850 for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a light-weight line attached, then firing it across the stranded vessel. A tally board was then sent out with instructions in four languages. The ship’s crew would haul on the line to bring out the continuous whip line and attach the whip block to a mast or sturdy part the ship. The rescue crew on shore then hauled out a heavier hawser line, which the ship’s crew fixed above the whip block. The hawser is then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the buoy to and from the vessel, rescuing the stranded crew one at a time. The rocket system could also be used from one ship to another.The Dennett rocket set is quite rare - there are not many examples in existence and little information is available. This Dennett's rocket set is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.A Dennett rocket set in six parts; the rocket head, three shafts (poles) and two rocket-head toting boxes. The rocket head, mounted on one of the shafts, is a long, red painted, iron tube with rounded ends and a protruding fitting around each end. The wooden rocket shafts are octagonal, with a metal sheath at the ends, carved elongated slots towards each end, and a scribed channel above the black foot. The rocket head toting boxes are thick timber, covered in fabric and painted black. They have a hinged wooden lid that slants downwards from back to front, and a metal closure. Small deliberate holes, in groups of four, on the box’s sides, indicate missing attachments, likely to have been handles. Impressed one a shaft "8"flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, petticoat breeches, breeches buoy, rocket house, rocket shed, lifeboat men, rocket equipment, rocket machine, rocket head, rocket launcher, rocket line, marine technology, william schermuly, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, beach rescue set, traveller, block, running block, pulley, hawser, faking, faking box, faked line, rescue boat, lifeboat, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, volunteer lifesavers, volunteer crew, breakwater, lifeboat warrnambool, rocket rescue method, rocket rescue apparatus, captain manby, mortar, henry trengrouse, sky rocket, john dennett, shore to ship, colonel boxer, two-stage rocket, italian hemp, quadrant, schermuly, line-throwing pistol, line throwing cartridge, rocket apparatus rescue, stranded vessel, tally board, light line, whip line, endless whip, petticoat buoy, traveller chair, traveller block, her majesty’s coast guard, harbour board, line thrower, line throwing, beach cart, hand barrow, sand anchor, hawser cutter, life jacket, faking board, irish hand barrow, rocket head toting box, explosives, rocket shaft, rocket pole

This rocket launching machine is used in conjunction with the Dennett Rocket Set. Both are part of the rocket rescue equipment that launches the line-throwing rescue rockets. A light line is threaded through the carved holes in the 8 foot long shaft and attached to the scribed channel at the base of the shaft. The rocket head is fitted to the shaft and inserted into the machine. The machine is set at an angle determined by the person in charge of the rescue crew, and the legs and base of the machine are adjusted accordingly with the use of the quadrant, or protractor, and plumb-bob on the side of the machine. The rocket is then ignited and fired across the vessel in distress. John Dennett - John Dennett was from Carisbrooke, in the Ilse of Wight, UK. In 1826 he invented, patented and demonstrated an improved method of rocket powered, line firing rescue equipment for saving lives. The rockets had a longer range than the mortars being used, they were lighter, needed less preparation time, only needed one line for repeated shots, and fewer people were needed to move the equipment. Very favourable reports of Dennett’s rockets were received by those in charge of His Majesty’s Naval and Military services. In 1832, Dennett’s rocket-thrown line was sent out to the wreck of the ‘Bainbridge’, and was responsible for nineteen survivors coming ashore in two boatloads, along the fired line. Dennett’s rocket received national fame, and a one-year contract to supply rockets to the Coastguards. He became known as ‘Rocket Man’ and his rockets were used in rescues at least until 1890, when his son Horatio was running the business. A rocket weighing 23 lb would have a range of about 250 yards (228 metres), on average. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it. In 1858 the provision of rocket and mortar apparatus was approved for lifeboat stations in Victoria, and in 1864 a rocket house was built to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy and traveller block rocket rescue apparatus was in use. It was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a light-weight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. This rocket launcher machine is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Rocket launcher, named a Rocket Machine, and storage box. Launcher has a long open metal channel with a spike at the base, and narrow, rectangular device, which is the line-firing rocket machine, at the top, all painted blue. Two hinged wooden legs are attached where the channel and machine meet. The side of the machine has an oval cut-out window and an attached quadrant, or protractor, with a plumb-bob on it. The quadrant has angles marked in degrees. The long protective box has white stencilled letters along the side. Its lid has three hinges and is fastened with two metal latches.On box “ROCKET MACHINE” On quadrant “10” “20” “30” “40”flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, petticoat breeches, breeches buoy, rocket house, rocket shed, lifeboat men, rocket equipment, rocket machine, rocket head, rocket launcher, rocket line, marine technology, william schermuly, line-firing pistol, line throwing gun, schermuly pistol, pistol rocket apparatus, beach rescue set, traveller, block, running block, pulley, hawser, faking, faking box, faked line, rescue boat, lifeboat, lady bay, warrnambool harbour, port of warrnambool, tramway jetty, volunteer lifesavers, volunteer crew, breakwater, lifeboat warrnambool, rocket rescue method, rocket rescue apparatus, captain manby, mortar, henry trengrouse, sky rocket, john dennett, shore to ship, colonel boxer, two-stage rocket, italian hemp, quadrant, protractor, schermuly, line-throwing pistol, line throwing cartridge, rocket apparatus rescue, stranded vessel, tally board, light line, whip line, endless whip, petticoat buoy, traveller chair, traveller block, her majesty’s coast guard, harbour board, line thrower, line throwing, beach cart, hand barrow, sand anchor, hawser cutter, life jacket, faking board, welsh hand barrow, rocket set

The horizontal water canteen has been carefully designed to fit snugly on the hip when worn with the straps diagonally across the body. The ladle allows quick and easy scooping of the contents to refresh the lifeboat and rocket launching crew, and the survivors of the disaster Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to a rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy apparatus was in use. The apparatus was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a lightweight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part of the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. Beach apparatus equipment - In the mid-1800s the equipment could include a line throwing set, coiled line in wooden carrying case, rockets, cartridges, breeches buoy, hawser and traveller block, line-throwing pistol, beach cart, hand barrow, sand anchor, crotch pole, and tools such as spade, pick, mallet and hawser cutter. Around the 1860s Warrnambool had a Rocket House installed beside the Harbour. This water canteen is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Water canteen and ladle; blue painted oval metal cylinder with a removable round threaded lid. Two adjustable leather shoulder straps are attached to the canteen through metal rings on the sides of the lid. A blue-painted copper ladle with a fixed, 45-degree angled handle is attached to the canteen with a length of string. The water canteen is designed to be carried horizontally.flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, lady bay, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, survival canteen, rescue canteen, dipper, cup, canteen and dipper, canteen and ladle, water canteen

This drawstring canvas bag is amongst the Rocket Rescue equipment. It could have been used to carry equipment, clothing or provisions between the crew on the shore and the victims of a shipwreck or other rescue need. It could be worn on the shoulder or as a backpack or winched out to a vessel on the block and pulley system. The strong canvas could be weatherproof and waterproof to a large extent, provided the drawstring was pulled tight. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay, there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. Victoria’s Government responded to the need for lifesaving equipment and, in 1858, the provision of rocket and mortar apparatus was approved for the lifeboat stations. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built for it on the Tramway Jetty, followed by a rocket house in 1864 to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater (constructed from 1874-1890), and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifesaving and rescue crews, mostly local volunteers, trained regularly to rehearse and maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. In July 1873 a brass bell was erected at Flagstaff Hill specifically to call the rescue crew upon news of a shipwreck. Some crew members became local heroes but all served an important role. Rocket apparatus was used as recently as the 1950s. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to a rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy apparatus was in use. The apparatus was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a lightweight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part of the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. Beach apparatus equipment - In the mid-1800s the equipment could include a line throwing set, coiled line in a wooden carrying case, rockets, cartridges, breeches buoy, hawser and traveller block, line-throwing pistol, beach cart, hand barrow, sand anchor, crotch pole, and tools such as spade, pick, mallet and hawser cutter. Around the 1860s Warrnambool had a Rocket House installed beside the Harbour. This canvas bag is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Canvas bag; thick beige canvas bag, cylindrical with a round base. The top has a thin rope in a drawstring closure. flagstaff hill maritime museum and village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, lady bay, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, rocket crew, lifeboat men, beach rescue, line rescue, rescue equipment, volunteer lifesavers, volunteer crew, life saving rescue crew, lifesaving rescue crew, rocket apparatus, survival kit, rescue kit, canvas bag, storage bag, carry bag, equipment bag, drawerstring bag

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballan, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballan, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballan, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballan, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballan, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballarat railway station, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballarat railway station, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballarat railway station, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballarat railway station, train of knowledge, x48, x-class diesel locomotive

X48 entered service in 1977 (Wikipedia https://en.wikipedia.org/wiki/Victorian_Railways_X_class_(diesel)) Train of Knowledge https://en.wikipedia.org/wiki/Train_of_Knowledge The Train of Knowledge was an Australian school camp on wheels, allowing students and teachers to visit multiple locations around Victoria without having to organise accommodation or transport. The train was formed originally with whatever rolling stock was available, but within a few years it had settled to a standard consist made up to carry between 80 and 90 school children, 6 teachers and four railway staff members. As of 1976, the consist used up to five of the six available E type sleeping cars, each with 20 berths, plus the shower car Carey, formerly a horsebox, Melville, a former royal carriage used to provide power for lighting, heating and cooking, 43BPL (a former sitting carriage) used as a classroom, and Avoca as the dining car for the train, with 48 seats allowing serving the whole train meals in two sittings.Digital TIFF file Scan of 35mm Ilford FP4 black and white transparencyballarat railway station, train of knowledge, x48, x-class diesel locomotive