This oar is from the Lifeboat Warrnambool, which is on sit at Flagstaff Hill Maritime Village. The construction of the lifeboat ‘Warrnambool’ began 15th September 1909 and was completed almost 12 months later, 1st September 1910. It was built at the Government Dockyard in Williamstown, Victoria, along the lines designed by the Great Britain’s Royal Lifeboat Institution, and included whaleback decks fore and aft, mast and centreboard, and rudder and tiller hung from the sternpost. It could be propelled by both sail and oar. At that time Captain Ferguson was Chief Harbour Master and Mr Beagley was foreman boat builder. Mr Beagley built the lifeboat with his fellow workmen. The boat was described as “… a fine piece of workmanship and does credit to her builders and designers…” It had all the latest improvements in shape, disposition of weight and watertight compartments, and it had space for a large number of people in addition to the crew. It appears that 'H Meiers' whose signature was on the plaque that was found concealed in the hull, was involved with the building of the lifeboat. His signature and the dates of the start and finish of the boat’s construction are pencilled on the raw timber 'plaque' found in the hull in the early 1990’s when the lifeboat was being restored. It is interesting that the ‘Melbourne Directory’ of 1911, published by Sands and MacDougal, lists McAuley and Meiers, boat builders, Nelson Place foreshore, between Pasco and Parker Streets, Williamstown, (Victorian Heritage Database, ‘Contextual History, Maritime Facilities’), It is quite possibly the business of the person whose name is inscribed on the lifeboat plaque. Flagstaff Hill’s documentation also mentions that the keel was laid at ‘Harry Myers, boat builders, Williamstown, Melbourne’ – the name ‘Myers’ can also be spelled ‘Meiers’, which could be the same person as the Meiers in “McAuley and Meiers” (as mentioned in genealogy lines of Myers). The new lifeboat, to be named ‘Warrnambool’ was brought to town by train and launched at the breakwater on 1st March 1911 using the Titan crane (the old lifeboat built in 1858, was then returned to Melbourne in 1911). This new lifeboat was stationed at Warrnambool in a shed located at the base of the Breakwater, adjacent to the slipway. A winch was used to bring it in and out of the water. The lifeboat ‘Warrnambool’ was similar in size to the old lifeboat but far superior in design, build and sea-going qualities such as greater manoeuvrability. The ‘self-righting, self-draining’ design was “practically non-capsizeable” and even if the boat overturned it would right itself to an even keel and the water would drain away. The hull was built of New Zealand Kauri, using double diagonal planking, laid in two layers at right angles, with a layer of canvas and red lead paint between the timbers to help seal the planking. It has “… plenty of freeboard, high watertight spaces between the deck and bottom… through which pipes lead…” The backbone timbers were made of Jarrah. The lifeboat Warrnambool was one of several rescue boats used at Port Fairy and Warrnambool in early 1900's. In late 1914 the Warrnambool lifeboat and crew were used to help find what was left of the tragic wreckage of the Antares, and were able to discover the body of one of the crewmen, which they brought back to Warrnambool. Between 1951 and 1954 the lifeboat was manned under the guidance of Captain Carrington. He held lifeboat practice each month on a Sunday morning, to comply with the Ports and Harbour’s request that lifeboats be manned by a strong and competent crew, ready for action in case of emergency. In the early 1960’s it ended its service as a lifeboat and was used in Port Fairy as a barge to help dredge the Moyne River, bolted to the Port Fairy lifeboat. Flagstaff Hill obtained the Warrnambool in 1975. In 1984 it was on display at Flagstaff Hill Maritime Village, Warrnambool. On 23rd May 1990 she was lifted from the water and placed in a cradle for restoration. The name ‘WARRNAMBOOL could be seen faintly on the lifeboat before it was restored. It was during the restoration that Flagstaff Hill's boat builder discovered the 'plaque' inside the hull. A copy of the blueprint plans has the name “V.E.E. Gotch” printed on it. His advertisement in Footscray’s ‘Independent’ newspaper of Saturday 11th May 1901 states he is “Principal and Skilled member (Naval Architect) to the Court of Marine Inquiry of Victoria and holds classes for naval architectural drawing and arithmetic.” The oar is significant for its association with the lifeboat WARRNAMBOOL, which is significant for its half century service to the local community as a lifesaving vessel. She was also used to help retrieve the body of a shipwrecked crew member of the ANTARES. Large wooden oar, shaped two handgrip with tapering shaft to large flattened blade, (2) copper reinforcing strips on blade. Sweep oar is from the Lifeboat Warrnambool. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, oar, lifeboat warrnambool, sweep oar

The plans were used for the construction of the lifeboat ‘Warrnambool’, which began 15th September 1909 and was completed almost 12 months later 1st September 1910. It was built at the Government Dockyard in Williamstown, Victoria, along the lines designed by Great Britain’s Royal Lifeboat Institution, and included whaleback decks fore and aft, mast and centreboard, and rudder and tiller hung from the sternpost. It could be propelled by both sail and oar. At that time Captain Ferguson was Chief Harbour Master and Mr Beagley was the foreman boat builder. Mr Beagley built the lifeboat with his fellow workmen. The boat was described as “… a fine piece of workmanship and does credit to her builders and designers…” It had all the latest improvements in shape, disposition of weight and watertight compartments, and it had space for a large number of people in addition to the crew. It appears that 'H Meiers' whose signature was on the plaque that was found concealed in the hull, was involved with the building of the lifeboat. His signature and the dates of the start and finish of the boat’s construction are pencilled on the raw timber 'plaque' found in the hull in the early 1990s when the lifeboat was being restored. It is interesting that the ‘Melbourne Directory’ of 1911, published by Sands and MacDougal, lists McAuley and Meiers, boat builders, Nelson Place foreshore, between Pasco and Parker Streets, Williamstown, (Victorian Heritage Database, ‘Contextual History, Maritime Facilities’), It is quite possibly the business of the person whose name is inscribed on the lifeboat plaque. Flagstaff Hill’s documentation also mentions that the keel was laid at ‘Harry Myers, boat builders, Williamstown, Melbourne’ – the name ‘Myers’ can also be spelled ‘Meiers’, which could be the same person as the Meiers in “McAuley and Meiers” (as mentioned in genealogy lines of Myers). The new lifeboat, to be named ‘Warrnambool’ was brought to town by train and launched at the breakwater on 1st March 1911 using the Titan crane (the old lifeboat built in 1858, was then returned to Melbourne in 1911). This new lifeboat was stationed at Warrnambool in a shed located at the base of the Breakwater, adjacent to the slipway. A winch was used to bring it in and out of the water. The lifeboat ‘Warrnambool’ was similar in size to the old lifeboat but far superior in design, build and sea-going qualities such as greater manoeuvrability. The ‘self-righting, self-draining design was “practically non-capsizeable” and even if the boat overturned it would right itself to an even keel and the water would drain away. The hull was built of New Zealand Kauri, using double diagonal planking, laid in two layers at right angles, with a layer of canvas and red lead paint between the timbers to help seal the planking. It has “… plenty of freeboard area, high watertight spaces between the deck and bottom… through which pipes lead…” The backbone timbers were made of Jarrah. The lifeboat Warrnambool was one of several rescue boats used at Port Fairy and Warrnambool in the early 1900s. In late 1914 the Warrnambool lifeboat and crew were used to help find what was left of the tragic wreckage of the Antares and were able to discover the body of one of the crewmen, which they brought back to Warrnambool. Between 1951 and 1954 the lifeboat was manned under the guidance of Captain Carrington. He held lifeboat practice each month on a Sunday morning, to comply with the Ports and Harbour’s request that lifeboats be manned by a strong and competent crew, ready for action in case of emergency. In the early 1960’s it ended its service as a lifeboat and was used in Port Fairy as a barge to help dredge the Moyne River, bolted to the Port Fairy lifeboat. Flagstaff Hill obtained the Warrnambool in 1975. In 1984 it was on display at Flagstaff Hill Maritime Village, Warrnambool. On 23rd May 1990, she was lifted from the water and placed in a cradle for restoration. The name ‘WARRNAMBOOL could be seen faintly on the lifeboat before it was restored. It was during the restoration that Flagstaff Hill's boat builder discovered the 'plaque' inside the hull. A copy of the blueprint plans has the name “V.E.E. Gotch” printed on it. His advertisement in Footscray’s ‘Independent’ newspaper of Saturday 11th May 1901 states he is “Principal and Skilled member (Naval Architect) to the Court of Marine Inquiry of Victoria and holds classes for naval architectural drawing and arithmetic.” The line drawing is significant for its connection with the lifeboat WARRNAMBOOL. The lifeboat is very significant to local and state history for its use in the lifesaving rescues of seafarers, particularly in Lady Bay. It was part of the local rescue equipment. It gave a half-century of service to the local community as a lifesaving vessel, including its involvement in retrieving the body of a shipwrecked crew member of the ANTARES. Line drawing in black ink and pencil on rectangular parchment or waxed linen. Drawing has diagrams of three profiles of a vessel, with measurements and connecting pencil lines on the left quarter. The plan is for the lifeboat named “Warrnambool”, which was built in Melbourne and completed in 1910. Old blue copies of the Lifeboat plan are archived also.“LIFE BOAT / FOR / WARRNAMBOOL” “Scale, One Inch to One Foot” “ “Length as shown 30’ – 8” “ “Breadth “ “ 8’ – 6 ½ “ “ “Depth “ “ 3’ – 4 ¾” “flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lifeboat, warrnambool lifeboat, boat plans, lifeboat plans, boat construction, boat building, line drawing, plan for lifeboat, life boat, life boat 'warrnambool', clinker design, 1910 lifeboat, life saving equipment, shipbuilding

Rowlock from the Lifeboat Warrnambool, which is on site at Flagstaff Hill Maritime Village. The construction of the lifeboat ‘Warrnambool’ began 15th September 1909 and was completed almost 12 months later, 1st September 1910. It was built at the Government Dockyard in Williamstown, Victoria, along the lines designed by the Great Britain’s Royal Lifeboat Institution, and included whaleback decks fore and aft, mast and centreboard, and rudder and tiller hung from the sternpost. It could be propelled by both sail and oar. At that time Captain Ferguson was Chief Harbour Master and Mr Beagley was foreman boat builder. Mr Beagley built the lifeboat with his fellow workmen. The boat was described as “… a fine piece of workmanship and does credit to her builders and designers…” It had all the latest improvements in shape, disposition of weight and watertight compartments, and it had space for a large number of people in addition to the crew. It appears that 'H Meiers' whose signature was on the plaque that was found concealed in the hull, was involved with the building of the lifeboat. His signature and the dates of the start and finish of the boat’s construction are pencilled on the raw timber 'plaque' found in the hull in the early 1990’s when the lifeboat was being restored. It is interesting that the ‘Melbourne Directory’ of 1911, published by Sands and MacDougal, lists McAuley and Meiers, boat builders, Nelson Place foreshore, between Pasco and Parker Streets, Williamstown, (Victorian Heritage Database, ‘Contextual History, Maritime Facilities’), It is quite possibly the business of the person whose name is inscribed on the lifeboat plaque. Flagstaff Hill’s documentation also mentions that the keel was laid at ‘Harry Myers, boat builders, Williamstown, Melbourne’ – the name ‘Myers’ can also be spelled ‘Meiers’, which could be the same person as the Meiers in “McAuley and Meiers” (as mentioned in genealogy lines of Myers). The new lifeboat, to be named ‘Warrnambool’ was brought to town by train and launched at the breakwater on 1st March 1911 using the Titan crane (the old lifeboat built in 1858, was then returned to Melbourne in 1911). This new lifeboat was stationed at Warrnambool in a shed located at the base of the Breakwater, adjacent to the slipway. A winch was used to bring it in and out of the water. The lifeboat ‘Warrnambool’ was similar in size to the old lifeboat but far superior in design, build and sea-going qualities such as greater manoeuvrability. The ‘self-righting, self-draining’ design was “practically non-capsizeable” and even if the boat overturned it would right itself to an even keel and the water would drain away. The hull was built of New Zealand Kauri, using double diagonal planking, laid in two layers at right angles, with a layer of canvas and red lead paint between the timbers to help seal the planking. It has “… plenty of freeboard, high watertight spaces between the deck and bottom… through which pipes lead…” The backbone timbers were made of Jarrah. The lifeboat Warrnambool was one of several rescue boats used at Port Fairy and Warrnambool in early 1900's. In late 1914 the Warrnambool lifeboat and crew were used to help find what was left of the tragic wreckage of the Antares, and were able to discover the body of one of the crewmen, which they brought back to Warrnambool. Between 1951 and 1954 the lifeboat was manned under the guidance of Captain Carrington. He held lifeboat practice each month on a Sunday morning, to comply with the Ports and Harbour’s request that lifeboats be manned by a strong and competent crew, ready for action in case of emergency. In the early 1960’s it ended its service as a lifeboat and was used in Port Fairy as a barge to help dredge the Moyne River, bolted to the Port Fairy lifeboat. Flagstaff Hill obtained the Warrnambool in 1975. In 1984 it was on display at Flagstaff Hill Maritime Village, Warrnambool. On 23rd May 1990 she was lifted from the water and placed in a cradle for restoration. The name ‘WARRNAMBOOL could be seen faintly on the lifeboat before it was restored. It was during the restoration that Flagstaff Hill's boat builder discovered the 'plaque' inside the hull. A copy of the blueprint plans has the name “V.E.E. Gotch” printed on it. His advertisement in Footscray’s ‘Independent’ newspaper of Saturday 11th May 1901 states he is “Principal and Skilled member (Naval Architect) to the Court of Marine Inquiry of Victoria and holds classes for naval architectural drawing and arithmetic.” The rowlock is significant for its association with the lifeboat WARRNAMBOOL, which is significant for its half century service to the local community as a lifesaving vessel. She was also used to help retrieve the body of a shipwrecked crew member of the ANTARES. Rowlock, iron, upper ends scroll over, from the Lifeboat Warrnambool.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, life boat, life saving vessel, 1910 vessel, port fairy, boat builder plaque, rescue boat, beagley, government dockyard, williamstown, v.e.e. gotch, royal lifeboat institution, captain ferguson, non-capsizeable lifeboat, self-righting lifeboat, antares shipwreck, double diagonal planking, captain carrington, rowlock, lifeboat rowlock, lifeboat warrnambool

This deck cannon is believed to be a replica Carronade as it has no foundry mark, year of manufacture, proof marks or weight of carronade on it. However, its design matches the design of Carronades used in the early to mid 19th century. History: The carronade was designed as a short-range naval weapon with a low muzzle velocity for merchant ships, but it also found a niche role on warships. It was produced by the Carron iron works and was at first sold as a complete system with the gun, mounting, and shot altogether. Carronades initially became popular on British merchant ships during the American Revolutionary War. A lightweight gun that needed only a small gun crew and was devastating at short range was well suited to defending merchant ships against French and American privateers.   Its invention is variously attributed to Lieutenant General Robert Melville in 1759, or to Charles Gascoigne, manager of the Carron Company from 1769 to 1779. In its early years, the weapon was sometimes called a "mellvinade" or a "gasconade". The carronade can be seen as the culmination of a development of naval guns reducing the barrel length and thereby the gunpowder charge. The Carron Company was already selling a "new light-constructed" gun, two-thirds of the weight of the standard naval gun and charged with one-sixth of the weight of the ball in powder before it introduced the carronade, which further halved the gunpowder charge. The theory of its design was to use less powder and had other advantages that were advertised in the company's sales pamphlet of the time, state. The smaller gunpowder charge reduced the barrel heating in action, also reduced the recoil. The mounting, attached to the side of the ship on a pivot, took the recoil on a slider, without altering the alignment of the gun. The pamphlet advocated the use of woolen cartridges, which eliminated the need for wadding and worming, although they were more expensive. Carronades also simplified gunnery for comparatively untrained merchant seamen in both aiming and reloading that was part of the rationale for adopting the gun. Other advantages promoted by the company were. The replacement of trunnions by a bolt underneath, to connect the gun to the mounting, reduced the width of the carriage that enhanced the wide angle of fire. A merchant ship would almost always be running away from an enemy, so a wide-angle of fire was much more important than on a warship. A carronade weighed a quarter as much as a standard cannon and used a quarter to a third of the gunpowder charge. This reduced charge allowed Carronades to have a shorter length and much lighter weight than long guns. Increasing the size of the bore and ball reduces the required length of the barrel. The force acting on the ball is proportional to the square of the diameter, while the mass of the ball rises by the cube, so acceleration is slower; thus, the barrel can be shorter and therefore lighter. Long guns were also much heavier than Carronades because they were over-specified to be capable of being double-shotted,(to load cannons with twice the shot, for increased damage at the expense of range). Whereas it was dangerous to do this in a carronade. A ship could carry more carronades, or carronades of a larger caliber, than long guns, and carronades could be mounted on the upper decks, where heavy long guns could cause the ship to be top-heavy and unstable. Carronades also required a smaller gun crew, which was very important for merchant ships, and they were faster to reload. Additional notes: Cannon cast in England, Wales and Scotland had their imperial weight chiselled or engraved in the format of 4-2-0 on the bottom of the cascabel, indicating the weight of the cannon as 4 hundredweight, 2 quarters and 0 pounds. Since a hundredweight equals 112 pounds and a quarter weight is 28 pounds the total weight is 504 pounds or about 228 kilograms. The small bore replica carronade and carriage is part of a collection of nineteenth Century Flagstaff Hill Guns and cannons, and is a representation of carronades used from the early 18th up to the 1850s on merchant and military ships particularly the British Royal Navy until 1850. This example is not significant in the historic sense but demonstrates the type of artillery used aboard vessels of the time for protection & offensive military actions. Cannon, cast iron, small smooth bore cannon on the stepped wooden carriage with wooden wheels. It appears to fire a 12-pound cannonball. The Cannon barrel can have its elevation adjusted via a sliding sloped block at the rear of the cannon. Gun carriage has loops for locating and holding the carriage in position with the use of ropes. It is believed this carronade is a replica of a mid-to-late 19th-century Carronade cannon.Cast into metal; [Royal emblem of Queen Victoria (VR "Victoria Regina")]warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, cannon, naval cannon, cannon on carriage, 19th century cannon, fortifications, smooth bore cannon, 12 pounder, carronade, artillery, replica, deck cannon, cannon in carriage, ship cannon

The construction of the lifeboat ‘Warrnambool’ began 15th September 1909 and was completed almost 12 months later, 1st September 1910. It was built at the Government Dockyard in Williamstown, Victoria, along the lines designed by the Great Britain’s Royal Lifeboat Institution, and included whaleback decks fore and aft, mast and centreboard, and rudder and tiller hung from the sternpost. It could be propelled by both sail and oar. At that time Captain Ferguson was Chief Harbour Master and Mr Beagley was foreman boat builder when he and his fellow workmen built the boat. The boat was described as “… a fine piece of workmanship and does credit to her builders and designers…” It had all the latest improvements in shape, disposition of weight and watertight compartments, and it had space for a large number of people in addition to the crew. It appears that 'H Meiers' whose signature, along with building dates, is pencilled on a concealed timber 'plaque' in the hull, was involved with the building of the lifeboat. It is interesting that the ‘Melbourne Directory’ of 1911, published by Sands and MacDougal, lists McAuley and Meiers, boat builders, Nelson Place foreshore, between Pasco and Parker Streets, Williamstown, (Victorian Heritage Database, ‘Contextual History, Maritime Facilities’), It is probably the company of the person whose name is inscribed on the lifeboat plaque. Flagstaff Hill’s documentation also mentions that the keel was laid at ‘Harry Myers, boat builders, Williamstown, Melbourne’ – the name ‘Myers’ can also be spelled ‘Meiers’, which could be the same person as the Meiers in “McAuley and Meiers” (as mentioned in genealogy lines of Myers). The new lifeboat, to be named ‘Warrnambool’ was brought to town by train and launched at the breakwater on 1st March 1911 using the Titan crane (the old lifeboat built in 1858, was then returned to Melbourne in 1911). This new lifeboat was stationed at Warrnambool in a shed located at the base of the Breakwater, adjacent to the slipway. A winch was used to bring it in and out of the water. The lifeboat ‘Warrnambool’ was similar in size to the old lifeboat but far superior in design, build and sea-going qualities such as greater manoeuvrability. The ‘self-righting, self-draining’ design was “practically non-capsizeable” and even if the boat overturned it would right itself to an even keel and the water would drain away. The hull was built of New Zealand Kauri, using double diagonal planking, laid in two layers at right angles, with a layer of canvas and red lead paint between the timbers to help seal the planking. It has “… plenty of freeboard, high watertight spaces between the deck and bottom… through which pipes lead…” The backbone timbers were made of Jarrah. The lifeboat Warrnambool was one of several rescue boats used at Port Fairy and Warrnambool in early 1900's. In late 1914 the Warrnambool lifeboat and crew were used to help find what was left of the tragic wreckage of the Antares, and were able to discover the body of one of the crewmen, which they brought back to Warrnambool. Between 1951 and 1954 the lifeboat was manned under the guidance of Captain Carrington. He held lifeboat practice each month on a Sunday morning, to comply with the Ports and Harbour’s request that lifeboats be manned by a strong and competent crew, ready for action in case of emergency. In the early 1960’s it ended its service as a lifeboat and was used in Port Fairy as a barge to help dredge the Moyne River, bolted to the Port Fairy lifeboat. Flagstaff Hill obtained the Warrnambool in 1975. In 1984 it was on display at Flagstaff Hill Maritime Village, Warrnambool. On 23rd May 1990 she was lifted from the water and placed in a cradle for restoration. The name ‘WARRNAMBOOL could be seen faintly on the lifeboat before it was restored. It was during the restoration that Flagstaff Hill's boat builder discovered the 'plaque' inside the hull. A copy of the blueprint plans has the name “V.E.E. Gotch” printed on it. His advertisement in Footscray’s ‘Independent’ newspaper of Saturday 11th May 1901 states he is “Principal and Skilled member (Naval Architect) to the Court of Marine Inquiry of Victoria and holds classes for naval architectural drawing and arithmetic.”The lifeboat WARRNAMBOOL is significant for its half century service to the local community as a lifesaving vessel. She was also used to help retrieve the body of a shipwrecked crew member of the ANTARES. Lifeboat "Warrnambool", a wooden, clinker hull, 'self-righting, self-draining design, single mast, pivoting centreboard. Complete with sail and yardarm. A 'plaque' was found inside the hull of the lifeboat, made of untreated wood, disc-shaped with one straight edge (Diam 15.5cm), inscribed by one of the boat builders in pencil script "Life Boat Start building / 15/9/09 - complete 1/9/10 / (signature looks like H Meiers) / Boat Builder)."'Plaque' inside body of boat is inscribed in pencil, script writing "Life Boat Start building / 15/9/09 - complete 1/9/10 / (signature looks like H Meiels) / Boat Builder)." flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, lifeboat, life boat, vessel, life saving, 1910 vessel, port fairy, boat builder plaque, rescue boat, beagley, williamstown, government dockyard, v.e.e. gotch, royal lifeboat institution, captain ferguson, meiers, nelson place, non-capsizeable, self-righting, titan crane, double diagonal planking, captain carrington, barge, antares, self righting, crew of twelve, capacity of 30 survivors

Nimons Bridge was built in 1890, as part of the then Ballarat-Linton railway. The bridge is 17 spans with tall timber piers of four driven piles each, with triple sets of diagonal cross-bracing and walers and a single row of longitudinal horizontal bracing between piers. The spans are of a uniform twenty feet (6.1 metres), originally supported by four 21-inch x 9-inch (535 mm x 230 mm) Kauri timber beams per span, following the standard V.R. design of the period. When the superstructure was rebuilt after the 1953 fire, the timber beams were replaced with two 24-inch (610mm) deep rolled-steel-joists on each span. These are marked 'Lancashire Steel Co., Scotland' and are believed to have been second-hand. The deck of transverse-timber planks is 103.6 metres in length. Overall the bridge has an impressive appearance with its exceptionally tall triple-cross-braced piers creating a 'three-tiered' effect, with the deck 19.2 metres above the Woady Yaloak River. The Ballarat-Skipton line closed in 1985. Nimons Bridge has been recently restored, as part of the Ballarat-Skipton Rail Trail. How is it significant? Nimons Bridge is significant for technical, historic and aesthetic reasons at a State level. Why is it significant? Nimons Bridge is technically significant as Victoria's fourth-tallest timber trestle bridge when built, and as the third-tallest surviving example. It is also the second-largest composite bridge combining traditional timber piers with RSJ spans and a timber deck and falls within a select group of fewer than ten timber railway bridges with horizontal longitudinal bracing between the piers and three sets of double cross-bracing on its tallest piers, creating a visually striking 'three tiered' effect that enhances its viaduct form. Nimons Bridge is historically significant as having served initially the mining community at Linton, then the Western District agricultural area and in later years a kaolin quarry at Pittong. Nimons Bridge is historically significant as a representative of the 'light' branch line methodology that stimulated the explosion of railway construction in Victoria during the 1880s, and provides an interesting contrast with the more solid and vastly more expensive railway viaducts built in similar terrain on Victorian main lines, at Moorabool and Taradale, in the late 1850s. Approached by a deep cutting and high embankment at either end, the bridge represents a very cost-effective late 19th century engineering solution to the characteristic physiography of western Victoria with flat basalt plains intersected by deep wide valleys occasionally subject to severe flooding. Nimons Bridge is aesthetically significant for its visually impressive viaduct form, crossing a deep and steep-sided valley that is part of a rich cultural landscape. Within close proximity of the bridge are mullock dumps, tailings, shaft sites and other relics of the deep-lead alluvial mining era. The bridge is the most visually spectacular timber-trestle rail bridge in Western Victoria and is among the most spectacular timber-trestle rail bridges surviving anywhere in Victoria. It is part of the Ballarat-Skipton Rail Trail. Classified by the National Trust :02/10/2000 (http://vhd.heritagecouncil.vic.gov.au/places/67986)Colour photograph of a log bridge known as Nimon's Bridge.ballarat-linton, nimons bridge, nimon's bridge, log bridge, viaduct, timber-trestle rail bridge

The Bethanga Bridge was built between 1927 and 1930 as a joint venture between Victoria and New South Wales and was a key element of the River Murray Waters Agreement. It consists of nine spans of 82 metres long. Each span is supported between double reinforced concrete pylons and a riveted steel camel back Pratt truss. The overall span of the bridge is a length of 752 metres. It was completed in 1929 at a cost of £194,000. The road deck was initially constructed from timber but was replaced in 1961 with a concrete waffle slab deck 7.7metres wide. In 1961 the bridge deck and truss structure were raised 300 millimetres to allow for the enlargement of the lake. The bridge was designed in NSW by road engineer Percy Alan and the trusses were built by the Charles Ruwolt Pty. Ltd. Charles Ruwolt Pty. Ltd. was originally established by Charles Ruwolt as a foundry at Wangaratta in 1902 and transferred its operations to Richmond, Melbourne in 1914. By 1938 it had become one of the biggest engineering companies in Australia. After Charles Ruwolt’s death in 1946, Vickers Ltd. acquired the company and in 1948 the firm became known as Vickers Ruwolt Pty. Ltd. Because of the Bethanga Bridge’s unique location, over the waters of a dam with the border running down the centre of the body of water, the Bethanga Bridge is the only built structure shared by both Victoria and New South Wales. As the border of New South Wales aligns with the southern bank of the Murray River all of the other bridges along its length are deemed to be in New South Wales. The Bethanga Bridge is listed on both the New South Wales State Heritage Register and the Victorian Heritage Database. In 2015 the Bethanga Bridge was nominated for a heritage award by the Institution of Engineering Australia.These images are significant because they document the construction of a bridge which links Victoria and New South Wales and has been recognised for its historical, technical and engineering significance.A collection of photos documenting the construction of the Bethanga Bridge which links the States of Victoria and New South Wales as part of the construction of the Hume Dam .bethanga bridge, hume dam constuction, charles ruwolt, percy allan engineer

Newspaper article: A sustainable award, Diamond Valley Leader, 1 November2006, Architect and building Llewellyn Pritchard won resource Efficiency Housing Award, finalist in HIA Greensmart Building of the Year Award. House – Environmental Leader (Published: Nillumbik Now and Then /​ Marguerite Marshall 2008; photographs Alan King with Marguerite Marshall.; p186) In 2006 environmental awareness was mushrooming in the community, which is reflected in the award-winning house at Main Road near Wattletree Road, Eltham. At first sight, the building appears a mix of a classic Eltham mud-brick house and an avant-garde building style. The crown of solar panels stretching along the width of the curved roof, indicates that this is no ordinary house. In fact it signals a new building trend of minimal impact on the environment. Yet it utilises the environment with high technical expertise to achieve comfort and cut running and maintenance costs. In recognition of this, its designer/builder, Conscious Homes, won the 2006 National HIA Greensmart Resource Efficiency Award. For Conscious Homes director, Llewellyn Pritchard, this house reflects a philosophy, strengthened by his connection with Aboriginal culture, through his foster siblings. Pritchard believes the sustainable way indigenous Australians lived and their spiritual connection with land, demonstrates how humanity is part of the ecology. His interest in environmental design stemmed from growing up in bushy Eltham Shire, with its mud-brick tradition. This was followed by studying Architecture at RMIT in the early 1980s, and learning about passive solar design. Pritchard says this house demonstrates that environmental sustainability is not about sacrifice, but about exceptional levels of occupant comfort, savings in running costs and modern fittings and appliances.1 The solar panels on the north roofs are intentionally obvious to make a statement about what the building is doing. But inside the systems are hidden and interactive with conventional services, such as the underground water tank. The house is water and energy self-sufficient and at 12 squares is much smaller than conventional houses, to minimise resources. Yet it accommodates his family of four with three bedrooms, a living/dining and kitchen area and a bathroom/laundry. Importantly the building is designed to last hundreds of years, by being able to be modified as the need arises, such as for commercial use. In this way the structure minimises its environmental impact. The solid double mud-brick walls (which are insulated) include steel beams and supporting frame, allowing the future removal or alteration of any section. The materials are local, recycled and of low toxicity where possible.2 Inside and out, the mud-brick is rendered and sealed with a combination of cement and sand and a mud-based coating in a soft golden hue increases its life. Inside, the golden-brown timber is plantation Mountain Ash and the concrete floors throughout – of local stone aggregate with a clear seal – have a natural looking random stone appearance. The house sustains a stable temperature of around 20 degrees, assisted by the concrete slab floor. The many large double-glazed windows and highlights (windows set high on walls) provide cross-flow ventilation. The north-facing living area maximises heating from the lower winter sun and is cooler in summer, because the sun is higher. Heating comes from a solar hydronic slab system. All appliances and fittings are high efficiency energy or water rated. Appliances in the timber kitchen include a gas stove and a dishwasher, using the building’s own power and water. French doors open from the living area to a deck, concealing the treatment system for all waste water. This is pumped through sub-soil drippers to the indigenous garden beds and no-dig vegetable patch. Below the carport is the 80,000-litre rainwater tank and at the back, the boiler room houses the solar boiler, water tank access, domestic water supply pump, filter gear and hydronic slab heating controls. The solar system is backed up with gas, which is needed to heat water only in winter. Gas used is less than one quarter of that for an average home with ducted heating. Excess power is fed back to the grid and the building uses about one quarter of the mains electricity of an average home. Other local builders have followed Pritchard’s lead in resource efficiency for minimal environmental impact.main road, eltham, businesses, llewellyn pritchard, hia greensmart building of the year award., efficiency housing award, conscious homes australia pty ltd

Decorations were for Centenary celebrations. Lakes Entrance VictoriaBlack and white photograph of Hoopers Maranui Guest House, showing a timber double storied building decorated with flags. Timber fence at front in herringbone design. Boat deck seat on veranda, man in doorway, man and boy at right of photo. Part of fibro cement picture theatre is visible at right of Maranui. guesthouses, celebrations, architecture, cinema, fences