[article by Bettina Woodburn in EDHS Newsletter No. 109, July 1996:] ON THE TRAIL OF HUME AND HOVELL - REPORT ON THE AUTUMN EXCURSION - On a green and fresh morning (Sunday 26th May 1996) the Cobb and Co coach (driven by the most obliging Peter Tampion) set off in a north easterly direction from Eltham to connect with Hume and Hovell's route on their 1824 explorations of central Victoria. The Society would follow a series of monuments erected for the 1924 centenary of the expedition from King Parrot Creek (Tuesday 7th December 1824), through Strath Creek, over Sunday Creek (Sunday 12th December 1824) at Broadford, Tullamarine, St Albans, Deer Park, through Werribee, skirting east of the You Yangs to Lara and Avalon Beach. Because their distance-measuring wheel had broken and a one degree mistake was made in calculations, the two leaders of the original group of six convict-companions arrived at Corio Bay, instead of the expected Western Port, discovered earlier by Flinders. From below Mt. Disappointment (Hume and Hovell's difficulties in "scrambling over brush and rock", "leeches in forest, as well as no water", "cutting grass 4-5 ft. high", dreadful scrub", "devil flies") we took an easier route, saw the Strath Creek memorial in ground fog and a wonderful "field of dreams", the Hume-Hovell privately owned cricket ground with its white picket boundary fence. Now, after a steep climb, in sunshine under gums we stretched and viewed magnificent rolling hills and fog-filled valleys - not "smoke from Aborigines' bush fires". After morning tea at Broadford we followed the Sunday Creek valley beside the Hume Freeway, passed the Wallan Wallan Rest Area (more appropriately Hume and Hovell Rest Area) to tum right at Beveridge. In Gellibrand Hill Park, near the headwaters of the Moonee Ponds Creek, we experienced the landscape the first European settlers saw - huge river red gums and rolling pastures. The gardens and sheltered courtyard of the 1840s, timber, brought from .....[?] prefabricated Woodlands Homestead, provided a pleasant lunch stop. We enjoyed a private tour, panoramic views over Melbourne and surroundings and the excitement of arriving and departing aircraft. Our next river crossing was at Werribee, "in a vast treeless plain", then we drove on by-ways no coach had previously travelled, to find "an immense sheet of water" salty Corio Bay, off-course to the west. In late afternoon of a super, calm, late autumn day we headed homewards. Back at Eltham we were rather surprised to find that we had travelled a total of 347 km. Thanks again to Russell Yeoman for his research and organization. What a wonderful day! Colour photographactivities, hume and hovell, murchison valley, murchison gap, strath creek

[article by Bettina Woodburn in EDHS Newsletter No. 109, July 1996:] ON THE TRAIL OF HUME AND HOVELL - REPORT ON THE AUTUMN EXCURSION - On a green and fresh morning (Sunday 26th May 1996) the Cobb and Co coach (driven by the most obliging Peter Tampion) set off in a north easterly direction from Eltham to connect with Hume and Hovell's route on their 1824 explorations of central Victoria. The Society would follow a series of monuments erected for the 1924 centenary of the expedition from King Parrot Creek (Tuesday 7th December 1824), through Strath Creek, over Sunday Creek (Sunday 12th December 1824) at Broadford, Tullamarine, St Albans, Deer Park, through Werribee, skirting east of the You Yangs to Lara and Avalon Beach. Because their distance-measuring wheel had broken and a one degree mistake was made in calculations, the two leaders of the original group of six convict-companions arrived at Corio Bay, instead of the expected Western Port, discovered earlier by Flinders. From below Mt. Disappointment (Hume and Hovell's difficulties in "scrambling over brush and rock", "leeches in forest, as well as no water", "cutting grass 4-5 ft. high", dreadful scrub", "devil flies") we took an easier route, saw the Strath Creek memorial in ground fog and a wonderful "field of dreams", the Hume-Hovell privately owned cricket ground with its white picket boundary fence. Now, after a steep climb, in sunshine under gums we stretched and viewed magnificent rolling hills and fog-filled valleys - not "smoke from Aborigines' bush fires". After morning tea at Broadford we followed the Sunday Creek valley beside the Hume Freeway, passed the Wallan Wallan Rest Area (more appropriately Hume and Hovell Rest Area) to tum right at Beveridge. In Gellibrand Hill Park, near the headwaters of the Moonee Ponds Creek, we experienced the landscape the first European settlers saw - huge river red gums and rolling pastures. The gardens and sheltered courtyard of the 1840s, timber, brought from .....[?] prefabricated Woodlands Homestead, provided a pleasant lunch stop. We enjoyed a private tour, panoramic views over Melbourne and surroundings and the excitement of arriving and departing aircraft. Our next river crossing was at Werribee, "in a vast treeless plain", then we drove on by-ways no coach had previously travelled, to find "an immense sheet of water" salty Corio Bay, off-course to the west. In late afternoon of a super, calm, late autumn day we headed homewards. Back at Eltham we were rather surprised to find that we had travelled a total of 347 km. Thanks again to Russell Yeoman for his research and organization. What a wonderful day! Colour photographactivities, hume and hovell

[article by Bettina Woodburn in EDHS Newsletter No. 109, July 1996:] ON THE TRAIL OF HUME AND HOVELL - REPORT ON THE AUTUMN EXCURSION - On a green and fresh morning (Sunday 26th May 1996) the Cobb and Co coach (driven by the most obliging Peter Tampion) set off in a north easterly direction from Eltham to connect with Hume and Hovell's route on their 1824 explorations of central Victoria. The Society would follow a series of monuments erected for the 1924 centenary of the expedition from King Parrot Creek (Tuesday 7th December 1824), through Strath Creek, over Sunday Creek (Sunday 12th December 1824) at Broadford, Tullamarine, St Albans, Deer Park, through Werribee, skirting east of the You Yangs to Lara and Avalon Beach. Because their distance-measuring wheel had broken and a one degree mistake was made in calculations, the two leaders of the original group of six convict-companions arrived at Corio Bay, instead of the expected Western Port, discovered earlier by Flinders. From below Mt. Disappointment (Hume and Hovell's difficulties in "scrambling over brush and rock", "leeches in forest, as well as no water", "cutting grass 4-5 ft. high", dreadful scrub", "devil flies") we took an easier route, saw the Strath Creek memorial in ground fog and a wonderful "field of dreams", the Hume-Hovell privately owned cricket ground with its white picket boundary fence. Now, after a steep climb, in sunshine under gums we stretched and viewed magnificent rolling hills and fog-filled valleys - not "smoke from Aborigines' bush fires". After morning tea at Broadford we followed the Sunday Creek valley beside the Hume Freeway, passed the Wallan Wallan Rest Area (more appropriately Hume and Hovell Rest Area) to tum right at Beveridge. In Gellibrand Hill Park, near the headwaters of the Moonee Ponds Creek, we experienced the landscape the first European settlers saw - huge river red gums and rolling pastures. The gardens and sheltered courtyard of the 1840s, timber, brought from .....[?] prefabricated Woodlands Homestead, provided a pleasant lunch stop. We enjoyed a private tour, panoramic views over Melbourne and surroundings and the excitement of arriving and departing aircraft. Our next river crossing was at Werribee, "in a vast treeless plain", then we drove on by-ways no coach had previously travelled, to find "an immense sheet of water" salty Corio Bay, off-course to the west. In late afternoon of a super, calm, late autumn day we headed homewards. Back at Eltham we were rather surprised to find that we had travelled a total of 347 km. Thanks again to Russell Yeoman for his research and organization. What a wonderful day! Colour photographactivities, hume and hovell, allandale road, strath creek

[article by Bettina Woodburn in EDHS Newsletter No. 109, July 1996:] ON THE TRAIL OF HUME AND HOVELL - REPORT ON THE AUTUMN EXCURSION - On a green and fresh morning (Sunday 26th May 1996) the Cobb and Co coach (driven by the most obliging Peter Tampion) set off in a north easterly direction from Eltham to connect with Hume and Hovell's route on their 1824 explorations of central Victoria. The Society would follow a series of monuments erected for the 1924 centenary of the expedition from King Parrot Creek (Tuesday 7th December 1824), through Strath Creek, over Sunday Creek (Sunday 12th December 1824) at Broadford, Tullamarine, St Albans, Deer Park, through Werribee, skirting east of the You Yangs to Lara and Avalon Beach. Because their distance-measuring wheel had broken and a one degree mistake was made in calculations, the two leaders of the original group of six convict-companions arrived at Corio Bay, instead of the expected Western Port, discovered earlier by Flinders. From below Mt. Disappointment (Hume and Hovell's difficulties in "scrambling over brush and rock", "leeches in forest, as well as no water", "cutting grass 4-5 ft. high", dreadful scrub", "devil flies") we took an easier route, saw the Strath Creek memorial in ground fog and a wonderful "field of dreams", the Hume-Hovell privately owned cricket ground with its white picket boundary fence. Now, after a steep climb, in sunshine under gums we stretched and viewed magnificent rolling hills and fog-filled valleys - not "smoke from Aborigines' bush fires". After morning tea at Broadford we followed the Sunday Creek valley beside the Hume Freeway, passed the Wallan Wallan Rest Area (more appropriately Hume and Hovell Rest Area) to tum right at Beveridge. In Gellibrand Hill Park, near the headwaters of the Moonee Ponds Creek, we experienced the landscape the first European settlers saw - huge river red gums and rolling pastures. The gardens and sheltered courtyard of the 1840s, timber, brought from .....[?] prefabricated Woodlands Homestead, provided a pleasant lunch stop. We enjoyed a private tour, panoramic views over Melbourne and surroundings and the excitement of arriving and departing aircraft. Our next river crossing was at Werribee, "in a vast treeless plain", then we drove on by-ways no coach had previously travelled, to find "an immense sheet of water" salty Corio Bay, off-course to the west. In late afternoon of a super, calm, late autumn day we headed homewards. Back at Eltham we were rather surprised to find that we had travelled a total of 347 km. Thanks again to Russell Yeoman for his research and organization. What a wonderful day! Colour photographactivities, hume and hovell

[article by Bettina Woodburn in EDHS Newsletter No. 109, July 1996:] ON THE TRAIL OF HUME AND HOVELL - REPORT ON THE AUTUMN EXCURSION - On a green and fresh morning (Sunday 26th May 1996) the Cobb and Co coach (driven by the most obliging Peter Tampion) set off in a north easterly direction from Eltham to connect with Hume and Hovell's route on their 1824 explorations of central Victoria. The Society would follow a series of monuments erected for the 1924 centenary of the expedition from King Parrot Creek (Tuesday 7th December 1824), through Strath Creek, over Sunday Creek (Sunday 12th December 1824) at Broadford, Tullamarine, St Albans, Deer Park, through Werribee, skirting east of the You Yangs to Lara and Avalon Beach. Because their distance-measuring wheel had broken and a one degree mistake was made in calculations, the two leaders of the original group of six convict-companions arrived at Corio Bay, instead of the expected Western Port, discovered earlier by Flinders. From below Mt. Disappointment (Hume and Hovell's difficulties in "scrambling over brush and rock", "leeches in forest, as well as no water", "cutting grass 4-5 ft. high", dreadful scrub", "devil flies") we took an easier route, saw the Strath Creek memorial in ground fog and a wonderful "field of dreams", the Hume-Hovell privately owned cricket ground with its white picket boundary fence. Now, after a steep climb, in sunshine under gums we stretched and viewed magnificent rolling hills and fog-filled valleys - not "smoke from Aborigines' bush fires". After morning tea at Broadford we followed the Sunday Creek valley beside the Hume Freeway, passed the Wallan Wallan Rest Area (more appropriately Hume and Hovell Rest Area) to tum right at Beveridge. In Gellibrand Hill Park, near the headwaters of the Moonee Ponds Creek, we experienced the landscape the first European settlers saw - huge river red gums and rolling pastures. The gardens and sheltered courtyard of the 1840s, timber, brought from .....[?] prefabricated Woodlands Homestead, provided a pleasant lunch stop. We enjoyed a private tour, panoramic views over Melbourne and surroundings and the excitement of arriving and departing aircraft. Our next river crossing was at Werribee, "in a vast treeless plain", then we drove on by-ways no coach had previously travelled, to find "an immense sheet of water" salty Corio Bay, off-course to the west. In late afternoon of a super, calm, late autumn day we headed homewards. Back at Eltham we were rather surprised to find that we had travelled a total of 347 km. Thanks again to Russell Yeoman for his research and organization. What a wonderful day! Colour photographactivities, hume and hovell

[article by Bettina Woodburn in EDHS Newsletter No. 109, July 1996:] ON THE TRAIL OF HUME AND HOVELL - REPORT ON THE AUTUMN EXCURSION - On a green and fresh morning (Sunday 26th May 1996) the Cobb and Co coach (driven by the most obliging Peter Tampion) set off in a north easterly direction from Eltham to connect with Hume and Hovell's route on their 1824 explorations of central Victoria. The Society would follow a series of monuments erected for the 1924 centenary of the expedition from King Parrot Creek (Tuesday 7th December 1824), through Strath Creek, over Sunday Creek (Sunday 12th December 1824) at Broadford, Tullamarine, St Albans, Deer Park, through Werribee, skirting east of the You Yangs to Lara and Avalon Beach. Because their distance-measuring wheel had broken and a one degree mistake was made in calculations, the two leaders of the original group of six convict-companions arrived at Corio Bay, instead of the expected Western Port, discovered earlier by Flinders. From below Mt. Disappointment (Hume and Hovell's difficulties in "scrambling over brush and rock", "leeches in forest, as well as no water", "cutting grass 4-5 ft. high", dreadful scrub", "devil flies") we took an easier route, saw the Strath Creek memorial in ground fog and a wonderful "field of dreams", the Hume-Hovell privately owned cricket ground with its white picket boundary fence. Now, after a steep climb, in sunshine under gums we stretched and viewed magnificent rolling hills and fog-filled valleys - not "smoke from Aborigines' bush fires". After morning tea at Broadford we followed the Sunday Creek valley beside the Hume Freeway, passed the Wallan Wallan Rest Area (more appropriately Hume and Hovell Rest Area) to tum right at Beveridge. In Gellibrand Hill Park, near the headwaters of the Moonee Ponds Creek, we experienced the landscape the first European settlers saw - huge river red gums and rolling pastures. The gardens and sheltered courtyard of the 1840s, timber, brought from .....[?] prefabricated Woodlands Homestead, provided a pleasant lunch stop. We enjoyed a private tour, panoramic views over Melbourne and surroundings and the excitement of arriving and departing aircraft. Our next river crossing was at Werribee, "in a vast treeless plain", then we drove on by-ways no coach had previously travelled, to find "an immense sheet of water" salty Corio Bay, off-course to the west. In late afternoon of a super, calm, late autumn day we headed homewards. Back at Eltham we were rather surprised to find that we had travelled a total of 347 km. Thanks again to Russell Yeoman for his research and organization. What a wonderful day! Colour photographactivities, hume and hovell

Black and white photographs - 2 copiesTyped below photograph, "Boiler explosion at Ringwood station 20/6/1894. Heard in Box Hill". Article from newspapers:- Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 27 January 1894, page 21 Official enquiry. The Board of Enquiry appointed by the Railway Commissioners to enquire into the causes of the boiler explosion which shattered the locomotive at Ringwood on Saturday night, assembled at the Railway department on Wednesday to commence its deliberations, The board consisted of Mr R. Fulton, engineer, C. W. McLean; engineer to the Marine Board, and Mr Mephan Ferguson, iron-founder. There is some difficulty at the outset about the constitution of the board; It was suggested that the Apt of Parliament contemplated that boards of experts, after the manner of the present one, needed, to have their appointments confirmed by the Governor-in-Council. The point, however, was not considered sufficiently important to prevent the board from proceeding with evidence. Robert Greyford, stationmaster at Ringwood, was the first witness. He said he saw the explosion on Saturday night at about twenty minutes to 8. There was a rush to the engine to see what had happened, and the driver and fireman were both found on the platform of the engine. The driver seemed badly hurt, but the fireman, to all appearances, was not so badly injured. They were both attended to and sent up to Melbourne by the last suburban train. Witness had a look at the engine and found the dome and all the plates round the boiler blown clean, away. The springs were also blown clean away. The Chairman (Mr Fulton) : Did you measure the distance ? Witness: Yes; one of the plates was 209 yards away. A piece from the top of the boiler 15 pounds in weight he found driven into the hard beaten track 410 yards away. Several pieces of boiler plate were found scattered at various distances. The buildings roundabout were injured. The Chairman; Did you notice anything peculiar about either of the driver or the fireman ? — No ; nothing wrong, with either of them. If the engine was blowing off at all, it must have been very light. In your opinion, were they perfectly sober ? — Perfectly. In approaching the station, is there a down or an up grade? — A very slight down grade. How is the road from Healesville ? — Up and down all the way. It is down, grade for about 200 yards coming into Ringwood station. They shut off ; steam about a quarter of a mile away, and come in at a good pace. They generally put on 15 pounds of steam while they are in the station. Mr Ferguson : Had the driver the usual load on ? — Yes ; about the usual load. Witness added that he had known the driver personally for about 10 years, and he had always been a careful, steady, sober man. He did not know the fireman so well. John Palmer, porter at Ringwood station, also saw the explosion. He was attending to the train on its arrival. He was knocked down by the force of the explosion. When he got up he saw the engine driver being carried into the office covered in blood. He noticed nothing peculiar about the driver and fireman, nor about the engine. Mr McLean : How far were you from the engine when you were knocked down ? — From ten to fifteen yards. William Paul, the guard of the train to which the injured locomotive Was attached, said he was looking at the engine at the very moment the explosion occurred. It seemed to come from exactly under the dome. The force of it took him off his feet. He was about 15 yards from the tender. When he rose he tried to reach the engine, but could not do so on account of the steam and coal dust. He called out to know whether any of the passengers were injured, and got no response, so that he concluded they were all right. All the lamps but about half dozen were extinguished by the force of the explosion, although the glass was not broken. He could testify most distinctly that the driver and fireman were both sober. The driver was a man who never drank. The steam started to blow off about a minute and a half before the explosion took place. The last place at which the engine took water was Healesville. The Chairman : Do yon know anything of the quality of the water there ? Is it creek water ? — Yes ; it comes from the Graceburn River. You never heard of its quality ?— No. How long have you known this engine on the road— About 13 months. Hew long have you known the driver on this line ? — About six weeks. I have known the fireman several years. The driver was a strict teetotaller, and I never saw the fireman take anything to drink in his life. Mr T. H, Woodroffe, chief mechanical engineer of the Victorian Railways, produced a report he had written to the secretary, about this explosion. The document gave facts concerning the engine and the explosion. It stated that the rapture seemed to have occurred at the rim of the plates adjoining the fire box. The engine was built at the Phoenix Foundry, Ballarat, in 1883. It was repaired at various times, the last time being in July of last year when it was sent to the Port Melbourne shops, and was then tested to a cold water pressure of 195 and found all right. It was the custom to overhaul all locomotives about every five years. The Chairman : There were no very heavy repairs in July, 1893; were there? — Not to the boilers. The shop manager's report says that the plug and safety tap holes were repaired, five new copper studs put in firebox, ash-pan door repaired, tender cleaned and overhauled, and studs re-rivetted, and boiler tested to pressure of 195, cold water. Mr Woodroffe read the report of the repairs effected to the boiler in December, 1888. That would be the time the plate was put in the boiler. On that occasion three new plates were put in the bottom and the boiler tested up to 195. The Chairman: Do you keep a record of the water used ?— Yes, the water in this case, I think, came from the Maroondah scheme. Mr Woodroffe said boilers were examined front time to time in the running sheds. In his opinion every possible care had been taken to keep the engine in proper care. There might, however, be lessons learnt from this. The Chairman: No doubt. From his examination of the plates [the] witness did not think the state of them could have been detected from the outside. There were no signs of leakage or sweating or anything of that sort. The next witness- was Walter Stinton, workshop manager at Newport and he said that the injured engine had been repeatedly repaired under his charge. He gave a technical account of the repairs effected on various occasions. The testing of locomotives was under his special notice. They had a high pressure pipe running; round the works, and a pump set at 2001b. When the boiler was pumped full of water the pressure when applied up to 1951b. The board appointed by the department to inquire into the Ringwood locomotive boiler explosion sat again at Spencer street on 25th inst. Mr R. Fulton presided and the other members of the board were. Mr Mephan Ferguson and Mr C. W. McLean. Charles Grubb, foreman of the boiler-makers at the Newport workshops, said he had inspected the pieces of plate that had been blown out of the engine, and after examining them, pointed out to the Chief Mechanical Engineer the portion where the plate had started to burst. It was under the lap, on the right hand side of the boiler. The grooving might be accounted for by bad water. During the past twenty years he had examined all the boilers that came into the Williamstown workshops, and while some were hardly marked at all, others were very badly eaten away. The practice was to cut out the defective portions. In this case the boiler was repaired in a similar manner. The Chairman : Can you suggest any other way of repairing so as to prevent accident ? — No, unless by taking out a plate on one side from the joint, and carrying it further up so as to avoid the joints meeting, or by taking out the plate altogether. What would.be the cost .of putting in a new " plate I—Perhaps about double the price; but I wouldn't recommend that course. It would be putting a new plate against plates that have been in use ten years or so and that would not be advisable. I think the present system better. I consider the present system of repairing the best. This is the first we have had so bad like that, to my knowledge. You attributed this to bad water. Is there no other probable cause ? — Well; unless the iron be bad. This was Lowmoor iron. I think this accident was caused by the eating away of plates. This one was the worst I have seen, for the short time it had been running. We use three classes of iron — Lowmoor, Monkbridge and Bowling. By Mr Woodroffe (Chief Mechanical Engineer) ; There are engines still running that were repaired at the same time as this one, in 1888, and. in the same way. These are engines 339 and 333. They have been recently examined and are in splendid order. What in your experience, is the age of a boiler on the Victorian railways? — From 17 to 20 years our earlier boilers stood. The later boilers don't stand so well. How is that? — There is difference in construction, and the material is lighter. The old boilers had thicker plates. Have you been asked in any way to curtail boiler affairs? — No, sir; nor in any way. You have never hesitated to carry out any necessary repairs? — Never. Our orders have been to exercise every care in examining, repairing and renewing boilers. Witness said that his practice was when an engine came into the workshop to find out how long she had been running. If over five years, he informed the workshop manager, and they thought it necessary the tubes were taken nut. If everything was in good order witness reported to the manager. The cost of taking out the tubes and putting them in again was about L20. Mr Woodroffe : Have you ever hesitated to repair a boiler on the score of expense ? — No, never. Mr McLean : Hew do yon ascertain whether a boiler requires repairs?— I keep a record of every boiler examined. From every boiler that comes in I have the dome covers taken off, and when it is practical I get inside. l can almost tell from the top of a boiler what the bottom is like. If there is any doubt about it I have the tubes taken out. If I have suspicion of defective plate I cause to have bored a triangle in the plate at the point where there is the most wear. There is a travelling inspector who visits all the running sheds of the colony except Port Melbourne and tests the boilers. He reports to us and we note what he points out. Alfred Thompson, locomotive inspector of the eastern section, said he knew this engine, 297R. He read a list of her repairs. He heard of the accident on Saturday night and went up to Ringwood. The Chairman : Did you ever notice anything peculiar about the engine? — No, I considered her A1 and would not have hesitated to have put on 140lb pressure owing to the repairs she had undergone. Witness considered that the explosion was caused by the expansion and contraction of the plates ; and, no doubt, the plate had been eaten away through bad water. The other side of the boiler showed: signs of corrosion: By Mr Woodroffe ; Is every care taken with the boilers ? — Yes, every possible care is taken for the safety of boilers, Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 27 January 1894, page 7 EXPLOSION OF A LOCOMOTIVE BOILER, NARROW ESACPE FROM FATALITIES. THE DAMAGED ENGINE. [See drawing of loco – saved in “Railways” folder] The explosion of a locomotive boiler at Ringwood on Saturday evening, formed the subject of much discussion in railway circles on Monday. The Minister arrived at the office at an unusually early hour and immediately entered into a consultation with the acting chairman, Mr Kibble, and Mr Commissioner Murray. As the result of the interview it was resolved to ask three gentlemen of acknowledged engineering experience to sib as a board with the . object of inquiring into the cause of the accident and furnishing a report. Mr Richardson and the Commissioners are tally seized of the importance of having a searching investigation into the accident, and, with Mr Murray, the former went to Ringwood to inspect the scene of the disaster. They will he accompanied by Mr Woodroffe. During the morning no official report had come to hand from the driver or fireman of the engine in reference to the accident, but that is thought to be due to the circumstance that they have not sufficiently recovered to be able to give a circumstantial account of what occurred. The engine was one of the old R's, and, Mr Kibble pronounced them to be about the best class of engines used. So far nothing can be said as to the probable cause of the accident, as the broken plating of the engine has not been submitted to the inspection of experts. Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 27 January 1894, page 7 STATEMENT BY THE FIREMAN. This morning Thomas Miles, fireman on the engine the boiler of which exploded on Saturday night, is suffering from an injury to the spine, as well as a very severe shaking to the system. He states that he was fireman on the engine attached to the train which left Healesville on Saturday evening, at ten minutes to 8. Everything went all right until Ringwood was reached, when, .just as the train was about to continue its journey, a load explosion took place and Miles remembers nothing more until he was picked np on the platform ; and found himself suffering from a pain in the back, and an injury to his arm. He cannot think of any reason which could have caused the explosion, as there was plenty of water in the boiler, and everything seemed working all right. Mr R. Fulton, consulting engineer, of Queen street; Mr McLean, a member of the Marine Board ; and Mr Mephan Ferguson, engineer, have consented to act as a board to inquire into the cause of the engine boiler explosion at Ringwood on Saturday evening. The board has been appointed under section 117 of Act 1135, which provides that the Governor-in-Council may direct the taking of a such a step. Mr1 Fulton will act as chairman of the board, which met for the first time at the railway offices, Spencer street, this forenoon. Before separating the members of the Board paid a visit to the Prince's Bridge locomotive sheds in company with Mr Woodroffe, the chief mechanical engineer, for the purpose of inspecting the shattered boiler. It has been stated that the explosion is known to have been caused by a flaw in a plate which was put on the boiler about four years ago, but enquiries have tailed to elicit anything in support of that view. The engineers connected with the department are not inclined to say anything on the subject. Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 14 April 1894, page 20 The Ringwood Boiler Explosion, The Minister of Railways has received the supplementary report of the board appointed by him to investigate the circumstances connected with the explosion of a locomotive boiler at Ringwood. In their first report the board did not attach blame to anyone. Mr Richardson felt satisfied that the responsibility of having the engines properly inspected and overhauled periodically could be fixed if the inquiry were extended. He therefore referred the matter again to the Board, who took further evidence. In the report now furnished, the Board hold Loco. Inspector Thompson blameable, but point out as a mitigating circumstance that he had not received "written instructions" respecting inspections and overhauls. Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 7 July 1894, page 32 The Ringwood Boiler Explosion. The Minister of Railways takes exception to the tone of a paragraph appearing in a morning contemporary respecting the Ringwood boiler explosion. It makes it appear that Mr Richardson has referred the report of the board which considered the facts connected with the explosion to the Crown solicitor simply because he differed from the finding of the board. The Minister explains that when he received the report he found that the responsibility for having boilers properly inspected and overhauled had not been clearly fixed. He personally obtained farther evidence on that point, and arrived at a conclusion, from which the commissioners differed. As he did not like to take upon himself the responsibility of deciding upon the effect of the evidence, he submitted the matter to the Crown Solicitor, but that officer did not furnish him with the information sought. He has, therefore, referred the question to the Attorney-General, together with the draft of a regulation respecting boiler inspections and overhauls in the future. Mr Richardson says that his whole aim is to have the responsibility positively fixed. Weekly Times (Melbourne, Vic. : 1869 - 1954), Saturday 28 April 1894, page 23 The Minister of Railways has completed his consideration of the supplementary report received by him from the Ringwood Boiler Explosion Board. The report, it will be remembered, held Loco-Inspector Thompson blameable for the non-inspection of the boiler, but considered there was extenuating circumstances. There was a certain amount of doubt as to the absolute instructions given for overhauling engines periodically. Mr. Richardson is sending the report on to the Commissioners with instructions that the responsibility respecting inspection of boilers shall be made clear for the future.

The Excelsior IV Log is a nautical instrument for measuring a vessel’s speed and distance travelled. When navigating a ship it is essential to be able to estimate the boat’s speed and distance travelled to determine its position at sea. In times past the only way to measure a ship’s speed was to throw a wood log into the water and observe how fast it moved away from the ship. In the 16th century, the log was fastened to a rope knotted at set intervals. The log was thrown over the stern (back) of the vessel and a crew member counted the number of knots that were paid out in a set time. From this, they could estimate the speed of the vessel through the water. This was known as streaming the log and is also the derivation of the knot as a measurement of nautical speed. The Walker’s Excelsior Mark IV instrument was designed for smaller vessels, such as yachts, launches and fishing vessels. Historical: Thomas Walker & Son was internationally renowned in the manufacturing of ships logs, founding father , Thomas Walker (1805–1871), an engineer in Birmingham, patented a mechanical log in 1878 which was a recording instrument that attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial recorded the distance travelled. Thomas Walker first went into business to manufacture stoves at 58 Oxford Street Birmingham. Walker’s self-feeding stove was widely lauded at the Paris Exhibition of 1855, winning a prize medal and kick starting the first of many notable innovations for the Walker family's manufacturing business. However, it wasn’t until working on an earlier ship’s log model invented by his Uncle that Thomas Walker became interested in the further development of this device, used to ascertain a ship’s speed. Walker continued to improve on the common log for the company of Massey & Sons and these improvements were deemed revolutionary. This log became a firm favourite of the West India Association (British-based organisation promoting ties and trade with the British Caribbean), being the most common log in use for two generations. It took until 1861 for Thomas Walker and his son, Thomas Ferdinand Walker (1831-1921) to patent the first Walker log of many. Together, with the introduction of the A1 Harpoon Log two years later, they established the Walker Log Business as a force to be reckoned with. By the time of his passing in 1871, Thomas Walker Snr had not only founded a family business with considerable staying power but also instilled a tradition of public service. Having sat as a representative on the Birmingham Town Council for 15 years and played an active role in public works, he was soon given the nickname of ‘Blue Brick Walker’. Much like his father, Thomas Ferdinand Walker changed the face of the maritime industry. His patent of 1897, the ‘Cherub’ log, was a notable departure from the past providing a far more accurate reading and replacing the majority of logs of the age. They were the first to produce an electric log and the Walker factory was one of the first to introduce the 48 hour work week for employees. The ship log was invented and made by a significant marine instrument maker and innovator of machinery. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades.Ship's Taff Rail Log, rope attached. Walker's Excelsior IV Log model. Nautical miles dials: units and 10's. "Walker's Excelsior IV Log", "Made in England by Thomas Walker, Birmingham"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, log register, taff rail log, taffrail log, marine navigation, a1 harpoon log, cherub’ log, walker’s excelsior mark iv log, ship’s log instrument, mechanical ship’s log, measure ship’s speed, nautical instrument, navigation instrument, massey & sons, thomas walker, blue brick walker, thomas walker & son, thomas ferdinand walker, 48 hour work week

This is a set of 16 photograph of the Royal Australian Survey Corps’ Johnson Ground Elevation Meter (JGEM) Survey Vehicle taken at the Army Survey Regiment, Fortuna, Bendigo. The JGEM vehicle was extensively used by RA Svy within Australia from the late 1960s. A limited number of Ground Elevation Meter (GEM) station wagon type vehicles were manufactured by General Motors Corporation (GMC) in the USA for the United States Geological Survey, Canada’s mapping agencies, RA Svy and National Mapping (Natmap). The GEM was a four-wheel drive, four-wheel steer vehicle. Four-wheel steering was necessary to avoid systematic errors caused by non-tracking of front and rear wheels on conventionally steered vehicles. The manufacturer substituted the rear axle with a front axle and connected them to form the four-wheel steering mechanism. The two Australian GEM vehicles, referred to as Johnson GEMs (JGEMs) were converted into right-hand drive. After delivery in 1964, acceptance Natmap and RA Svy testing and operator training was undertaken at the Army's School of Military Survey located at Balcombe, Victoria. A small fifth wheel was mounted on a cantilever arm suspension midway between the front and rear wheels on the right side of the vehicle. It was lowered to and raised from its operating position by use of a constant pressure air cylinder. A telescopic bar, suspended between the front and rear axles, provided the reference datum for the angle measurement. The wheel provided the velocity or distance signal through a pulse generator system. A sensitive pendulum mounted on this bar provided the angle measurement for each minute distance traversed. The JGEM contained electromechanical instruments used to determine relative elevations, by trigonometric principles, along a traversed path. These relative elevations were obtained through apparatus which measures the instantaneous angle of inclination of the road and the instantaneous velocity of the meter along such a path. Road routes over which the JGEM operated were planned so that each started and ended as near as practicable to an existing point of known elevation (formally referred to as a level traverse bench mark). The difference in height from the bench mark and the road surface alongside the JGEM’s fifth wheel was measured with a level and staff. Along each route, mapping control photo reference points where new elevation values were required were identified on aerial photographs. Under favourable conditions it was possible to survey as much as 160km in an ordinary working day. The first of RA Svy’s JGEM operations was undertaken in 1:250,000 scale map areas of Queensland. CPL John Hook was the JGEM’s main operator in the early 1970s undertaking operations covering 1:250,000 scale map blocks over northern Victoria and central NSW, each requiring 36 points (9 runs of photography and 4 points across. SPR Lyn Thompson and SPR Bob McDonagh teamed with CPL Hook on some of these JGEM operations. When RA Svy was integrated into the Royal Australian Engineers in 1996, the JGEM vehicle with the Survey Corps collection was donated to its museum. It is believed to be the last of the original manufactured fleet in existence. The JGEM has undergone extensive refurbishment to achieve roadworthiness and is currently housed at The Australian Army Museum of Military Engineering, Hoslworthy Barracks, NSW. It can be viewed by making an appointment with the museum’s curator.This is a set of 16 photograph of the Royal Australian Survey Corps’ Johnson Ground Elevation Meter (JGEM) Survey Vehicle taken at the Army Survey Regiment, Fortuna, Bendigo. The photographs were on 35mm slide film and were scanned at 96 dpi. They are part of the Army Survey Regiment’s Collection. .1) - Photo, colour, c1960s, Johnson Ground Elevation Meter (JGEM) Survey Vehicle .2) - Photo, colour, c1960s, JGEM instrumentation, on-board computer. .3) - Photo, colour, c1960s, JGEM instrumentation. .4) - Photo, colour, c1960s, JGEM instrumentation, on-board computer. .5) - Photo, colour, c1960s, JGEM tyre pressure controller .6) - Photo, colour, c1960s, JGEM rear doors, SGT Geoff Briggs. .7) - Photo, colour, c1960s, JGEM 5th wheel distance/angle measurement device in lowered position, SGT Geoff Briggs. .8) - Photo, colour, c1960s, JGEM 5th wheel distance/angle measurement device in lowered position. .9) & .10) - Photo, colour, c1960s, JGEM tyre pressure system, SGT Geoff Briggs. .11) - Photo, colour, c1960s, JGEM tyre pressure system. SGT Geoff Briggs. .12) - Photo, colour, c1960s, JGEM levelling scope, levelling staff, unidentified technicians. .13) & .14) - Photo, colour, c1960s, JGEM levelling scope, unidentified technician. .15) & .16) - Photo, colour, c1960s, probably survey operation adjusted height plotted on block base sheet. .1P to .16P - Some of the equipment is annotated on the frame of the 35mm slides.royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, surveying

This flexible measuring tape was used by the SEC Victoria in the mid to late 1900's. It was in a period before digital measuring instruments were in use. This is a 33ft long tape measure and would have been used by the construction workers when building the Kiewa Valley Hydro System. The warning details (embossed into the leather covering) was to warn users to be careful not to use the tape near live electricity terminals or linkages. This tape was produced mainly for wooden structures and not electricity conductive material. This was during the 1950's to 1960's.This imperial tape measure is very significant to the Kiewa Valley as it was used in the construction of the Kiewa Valley Hydro Scheme of the 1950's-1960's. It provides evidence that small measuring equipment used in the construction and the continuing maintenance of the scheme was of the imperial measure and used by construction workers who remained and settled in the town of Mount Beauty and Kiewa Valley long after the construction period. This flexible metallic measuring tape (33 ft in length) is contained in a round circular leather bound container. It has brass fittings (winder and tape guide) and is stitched with heavy grade twine. The tape measure is graduated in feet and inches on one side and yards on the other. Embossed in the leather casing"MADE IN ENGLAND" and around the inner circle "HOCKLEY ABBEY" and "JOHN RABONE & SONS"imperial tape measure, distance measures, imperial tools

A chain is a unit of length equal to 66 feet or 22 yards. This is a statute measure in the United Kingdom. One link is 100th part of a chain, which is 7.92 inches (20.1 cm). The chain and link became standard surveyors' units of length and crossed to the colonies from the United Kingdom. The chain is the unit of linear measurement for the survey of the public lands as prescribed by law. In Australia most building lots in the past were a quarter of an acre, measuring one chain by two and a half chains. Also street frontages, roads, laneways. The chain also survives as the length of a cricket pitch, being the distance between the stumps. Surveyors and residents of the Kiewa Valley used the Steel Band Surveyors Chain to measure distances when developing the land.Surveyors' steel band measuring tape, known as a 'standard band', or a 'steel band chain'.This chain consists of a long narrow strip of steel of uniform width of 3 mm and thickness of 0.3 to 0.6 mm. The chain itself is between 20 m and 30 m long.surveyors, surveyors chain, measurement of distance

An octant is an astronomical instrument used in measuring the angles of heavenly bodies such as the sun, moon and stars at sea in relation to the horizon. This measurement could then be used to calculate the altitude of the body measured, and then the latitude at sea could also be calculated. The angle of the arms of an octant is 45 degrees, or 1/8 of a circle, which gives the instrument its name. Two men independently developed the octant around 1730: John Hadley (1682–1744), an English mathematician, and Thomas Godfrey (1704–1749), a glazier in Philadelphia. While both have a legitimate and equal claim to the invention, Hadley generally gets the greater share of the credit. This reflects the central role that London and the Royal Society played in the history of scientific instruments in the eighteenth and nineteenth century's. There were also two others who are attributed to having created octanes during this period, Caleb Smith, an English insurance broker with a strong interest in astronomy (in 1734), and Jean-Paul Fouchy, a mathematics professor and astronomer in France (in 1732) In 1767 the first edition of the Nautical Almanac tabulated lunar distances, enabling navigators to find the current time from the angle between the sun and the moon. This angle is sometimes larger than 90°, and thus not possible to measure with an octant. For that reason, Admiral John Campbell, who conducted shipboard experiments with the lunar distance method, suggested a larger instrument and the sextant was developed. From that time onward, the sextant was the instrument that experienced significant development and improvements and was the instrument of choice for naval navigators. The octant continued to be produced well into the 19th century, though it was generally a less accurate and less expensive instrument. The lower price of the octant, including versions without a telescope, made it a practical instrument for ships in the merchant and fishing fleets. One common practice among navigators up to the late nineteenth century was to use both a sextant and an octant. The sextant was used with great care and only for lunar sightings while the octant was used for routine meridional altitude measurements of the sun every day. This protected the very accurate and pricier sextant while using the more affordable octant for general use where it performs well. The invention of the octant was a significant step in providing accuracy of a sailors latitude position at sea and his vessels distance from land when taking sightings of land-based landmarks.Octant with metal handle, three different colored shades are attached, in wooden wedge-shaped box lined with green felt. Key is attached. Two telescope eyepieces are in box. Some parts are missing. Oval ink stamp inside lid of box, scale is graduated to 45 degrees. Ink stamp inside lid of box "SHIPLOVERS SOCIETY OF VICTORIA. LIBRARY"instrument, flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, octant, navigation, nautical instrument, navigation instrument, john hadley, sextant, astronomical instrument

The Australian Customs Service, Melbourne, donated a set of gauging instruments, and Port Fairy Customs donated another instrument, the Sike’s Hydrometer, to Flagstaff Hill Maritime Village, all of which were no longer required. However these ullaging tools were in use for many years by Customs officials, called Gaugers. Ullaging is a term describing the measurement of the amount of liquid remaining in a container of spirits such as a cask or barrel. It can also measure the free space or head space remaining. The primary role of customs officers in Victoria was to calculate the tariff or excise duty payable on goods imported into Victoria. (Excise duty is a tax on goods produced within a country, and customs duty is imposed on imports.) Customs officers spent a great deal of their time measuring and weighing goods, and then calculating the amount of duty to be paid by the importer. The tariffs for different products varied, and officers consulted published lists. Calculating the duty payable on a barrel of brandy was a detailed task. The gauger had to measure the barrel to determine its volume. Barrels were irregular in shape, and finding the volume required several measurements and checking tables of figures. Alcoholic content was then measured with a hydrometer. The duty paid varied according to the alcoholic strength of the spirits. Uniform national customs and excise duties were operative in Australia from October 1901. These tools were still being used in Australia in the 1950’s. The Federal Government still imposes excise taxes on goods such as cigarettes, petrol, and alcohol. The rates imposed may change in February and August each year in response to changes in the consumer price index. ULLAGING TOOLS (1) Head Rod - this instrument measures the diameter of the heads (top and bottom ends) of a cask or barrel. The shaped brass pieces on the head rod enable the diameter of a barrel to be measured inside the chimes at the head end. The slide rule could then be used to calculate the internal volume of the barrel. On the reverse side is a set of ullaging scales, used like those on any ullaging rule, to calculate the volume of liquid in a partially filled barrel. (2) Bung Rod – this instrument measures the diameter of a cask or barrel when it is lying on its side. It is a rod that fits into the ‘bung’ hole of a cask and is long enough be extended to reach the opposite side of the cask. The brass sliding pointer can be moved to mark the ‘wet’ line. When the rod is removed the bung measurement can be read from the scale on the rod. (3) Long Calipers - this instrument measures the length of the cask between the heads. It has two rules sliding beside each other, each end having another piece of wood fixed firmly at right angles downwards then turned inwards at the ends so as to reach over the heads of the casks without touching the projecting ends. The centre pieces enable it to extend or contract, changing the distance between the two other parallel sides, the distance they are apart being shown by the rule on the sliding pieces. (4) Cross Calipers – this instrument is used to take the bung diameters of casks, or "the Cross " as it is called. This instrument has two rules sliding beside each other, each end having another piece of wood fixed firmly at right angles downwards, together forming a 3 sides of a rectangle with the centre pieces enabling it to extended or contracted, changing the distance between the two other parallel sides, the distance they are apart being shown by a the rule on the sliding pieces. (5) Sike’s Hydrometer – this instrument is used to gauge the strength of different alcoholic spirits when fitted with the different weights in the set. Every set is individually calibrated to ensure that it meets the exact Standard Weight and Measure compliance, then every piece in that set is stamped with the same number by the Calibrator, to ensure that the measurements are taken using the same hydrometer set. [References: A Handbook of Practical Gauging, Janes Boddely Keene of H.M. Customs, 1861, F. Pitman, London; Customs Act, Volume 2, No. 1, April 1999; Old Customs House website ] Head Rod, ullaging gauge. Long wooden rod made of three joined sections, brass hook on end, sliding centre section with hook, measurements marked along each section as on a slide rule. Used for measuring diameter of heads of casks in order for Customs to calculate excise (tax) on the contentsflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, head rod, gauging rod, ullaging rods, measuring instruments, customs tax

There were at least three 1880s vessels named Lady Loch, all built in Victoria; a river launch (ca 1884-ca 1916, originally named Lady of the Lake), a steamer ferry (1884-1920s) and a government lighthouse tender steamer HMV Lady Loch (1886-1962.) The spring balance scale was part of the equipment on the HMV Lady Loch. The scale was made by the renowned company Salter Weighing Machines in the United Kingdom. It was made to Silvester's patent design. Salter Weighing Machines, Britain, began making spring scales in the 1820s. In 1908 Salter opened up an Australian branch named Salter Scales Pty. Ltd. The scale, marked HMV SS Lady Loch, would be suspended by its top ring, a basket or other container is hung from the hook, and the items inside the basket then pull downwards on the hook, which stretches the springs inside the works. The pulling action moves a rack and gears a calculated distance and the gears turn the pointer on the dial to indicate the weight of the goods. This scale measures up to 200 pounds capacity. The HMV SS Lady Loch was an iron steamship built in Footscray, Melbourne, by Campbell, Sloss and McCain in 1886 for the colonial Victorian government’s Department of Trade and Customs. It was armed with a 6-inch gun and two 1-inch Nordenfelt guns. The Sydney Morning Herald of 27th January 1888 describes the vessel in detail. It even comments on the interior of the Saloon “The wood work … is on a very elaborate scale and is exceedingly neat …”. The HMV Lady Loch performed Customs duties, and serviced the lighthouses along the coast. The scale could have measured goods for the Customs Tax, or for measuring out supplies for the lighthouse keepers. The vessel was named after Lady Elizabeth Loch, wife of Sir Henry Loch, Governor of Victoria from 1884 to 1889. In 1932 Lady Loch was converted to a hulk and used in Brisbane, and finally scuttled in 1962 at Moreton Bay, Queensland.The scale has importance due to its connection to the 1886 HMV Lady Loch, a vessel of great significance to Melbourne’s shipbuilding industry. It was the largest auxiliary vessel in the Victorian Colonial Government’s fleet and the first prominent vessel launched by Melbourne’s shipbuilding industry. The scale is also important for its connection with the colonial navy's Custom's work, as the scale was available to weigh goods that could attract taxes and deal out goods for distribution to lighthouse keepers. The HMV Lady Loch was also important part of Victoria's maritime history for its communication and support of the lighthouse keeper's along the coast of Victoria.Scale; Salter's spring balance mechanical hanging scale, brass and iron. Equally spaced marks around the circular dial have values from 0 to 200 in increments of 10, each increment is also divided into 10. An iron ring is attached to a fitted loop on the top of the scale, and an iron hook is attached to the fitted loop onthe bottom of the scale. A moving pointer attached to the centre of the dial has a calibration screw joined to its base. Four screws fix the brass face to the works at the back. There are stamped and embossed inscriptions. Made by Salter in Britain, to Silvester's Patent design. The scale was once equipment carried abourd the steamship HMV SS Lady Loch. Stamped: "SALTER'S / SPRING BALANCE" "SILVESTOR'S / PATENT" Embossed in script: "HMV SS / Lady Loch"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, scale, salter, spring balance, silvester's patent, lady loch, steamship, hmv, colonial navy, victoria, lady elizabeth loch, custom's vessel, lighthouse tender, 1886, government vessel, victorian government, measuring instrument, weight, weighing instrument, mechanical scale, hanging scale

Stevenson screens were first introduced in Australia in the 1880s and were widely installed by 1910. The screens have been used to shelter and protect thermometers and other meteorological instruments from rain and direct heat while the holes and double-louvre walls allowed air to flow around them. Sometimes other meteorological instruments were included in the weather stations, so there were different Stevenson Screen sizes. This authentic, original Stevenson screen was previously owned by the Australian Bureau of Meteorology and was used for many years for weather readings at the Cape Otway Light Station in southwest Victoria. The Lighthouse Keepers recorded the readings for minimum and maximum temperatures at 9 a.m. every day from January 1865 until April 1994. The equipment was sheltered in a Stevenson Screen from 1902 until April 15 1994, when the mercury thermometer was replaced by a platinum resistance probe within an Automatic Weather Station (AWS). This Stevenson screen is one of the two screens that then became redundant. The other Stevenson screen was kept to display to visitors. Lightkeepers were no longer required at the Cape Otway Light station either, due to the automated system. The meteorological instruments donated with the screen were used for measuring temperature and humidity. They are mounted on a metal bracket that fits across the screw holes on the screen’s internal frame. The glass-covered Relative Humidity (RH) sensor was made by the renowned precision instrument maker, Rotronic AG of Switzerland, which was founded in 1965. The firm made its first electronic temperature and humidity instrument in 1967. Meteorological records have been collected in Australia from the 1800s. The records were collated, published and used as a basis for weather forecasts. Many sectors, such as maritime and agriculture industries, have relied on these figures for making important decisions. The quality and placement of the meteorological instruments used to measure temperature and humidity are of utmost importance for accuracy. In early colonial times, there were no national standards for meteorological instruments that would allow for accurate figures and comparisons. Once the Bureau of Meteorology was established (around 1908 to 1910) the department installed Stevenson screens throughout Australia, many at lighthouses and light stations, and the measuring instruments were standardised. The Stevenson Screen was named after its inventor, Scottish Civil Engineer Thomas Stevenson (1818-1887) who was also the father of Robert Louis Stevenson, author. Stevenson developed the small thermometer screen around 1867. It had double-louvred walls around the sides and a top of two asbestos sheets with an air space between them and was thickly painted with a white coating that reflected the sun’s rays. This design was modified in 1884 by Edward Mawley of the Royal Meteorological Society. Standards were set for the locations of the screens and instruments, including their distance above ground level and the direction the door faced.Stevenson screens played a significant part in providing a standardised shelter for all meteorological instruments used by the Australian Bureau of Meteorology from about 1910 until 1994. The readings from the instruments gave the meteorological statistics on which weather forecasts throughout Australia were based. This Stevenson screen was used locally at Cape Otway, along the Great Ocean Road in southwest Victoria, so contributed towards our local forecasts and weather warnings.Stevenson screen, original, from the Australian Bureau of Meteorology’s weather station at the Cape Otway Lighthouse. The screen is a white wooden cupboard with a slanted cover raised above the top. The top has ten drilled ventilation holes, and the sides and door are made of downward-slanting double louvres. Two brass hinges join the door to the lower edge of the screen and a metal fitting at the top edge allows for a padlock closure. The screen is supported on four short legs, each with a hole drilled from side to side for fitting to a frame. Inside the screen are two wooden frames fitted with hooks and screws. The floor has three boards; one across the back and one across the front at the same level, and a board wider than the space between these boards is fitted higher, overlapping them slightly. Inside the screen, a pair of electronic instruments with short electric cables is mounted on a metal bracket with drilled holes in it. One of the instruments is a Relative Humidity (RH) probe. It is 26 cm long and is a glass tube with a filter on one end and an electrical connection on the other. It has inscriptions on its label, showing that was made by Rotronic AG, Switzerland. The other instrument is a Resistance Temperature Device (RTD) thermometer. It is 22.5 cm long and has a narrow metal probe joined to a hexagonal metal fitting. A brass plate on the front of the screen has impressed inscriptions. The screen is Serial Number 01/C0032, Catalogue Number 235862.Stamped into brass plate "CAT. NO. / 253862 / SERIAL NO. 01/C0032" On instrument’s electrical fitting; “CD2” [within oval ‘+’ above S] “Serie693 op65 / 220/380V~16A” On instrument’s glass; “rotronic ag” “SWISS MADE” “CE / CH-8303 / Bassersdorf” Symbol for [BARCODE] “ART NO MP 101A_T4-W4W” “POWER 4.8.30VDC“ “OP. RANGE: 0-100%RH/-40+60° C” “OUT H 0-100% 0-1V” “OUT T -40+60°C -0.4..+0.6V” “SERIE NO 19522 009”flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, cotton region shelter, instrument shelter, thermometer shelter, thermoscreen, thermometer screen, measuring instruments, meteorological instrument, weather recording, weather station, lighthouse equipment, light station equipment, stevenson screen, marine instruments, mercury thermometer, platinum resistance probe, aws, automatic weather station, rotronic ag, swiss made, meteorological device, weather forecast, weather prediction, weather records, meteorological forecast, meteorological record, australian bureau of meteorology, bureau of meteorology, bureau, bom, relative humidity, rh, relative humidity probe, resistance temperature device, rtd, thermometer, temperature, humidity, cape otway, cape otway lighthouse, cape otway light station, rotronic, switzerland, swiss instrument, thomas stevenson, double-louvered walls, edward mawley, royal meteorological society, 01/c0032, serial number, cat. no. 235862, serial no. 01/c00323

Used for measuring electric current. It works by using a compass needle to compare a magnetic field generated by the known current to the magnetic field of the Earth.A "compass rose" type of horizontal full-circle scale, with 4 0-90 unit quandrants. Balanced, free-floating needle. Located centrally wired to a vertical coil. Horizontal distance scales, one each side and perpendicular to the core. All mounted on polished wood base, equipped with 3 terminal posts. Materials: glass, wood, metal.elementary, physics, experiment, galvanonometer, ballarat school of mines, scientific instruments

An induction coil consists of two coils of insulated copper wire wound around a common iron core. One coil, called the primary winding, is made from relatively few (tens or hundreds) turns of coarse wire. The other coil, the secondary winding, typically consists of many (thousands) turns of fine wire. An electric current is passed through the primary, creating a magnetic field. Because of the common core, most of the primary's magnetic field couples with the secondary winding. The primary behaves as an inductor, storing energy in the associated magnetic field. When the primary current is suddenly interrupted, the magnetic field rapidly collapses. This causes a high voltage pulse to be developed across the secondary terminals through electromagnetic induction. Because of the large number of turns in the secondary coil, the secondary voltage pulse is typically many thousands of volts. This voltage is often sufficient to cause an electric spark, to jump across an air gap separating the secondary's output terminals. For this reason, induction coils were called spark coils. The size of induction coils was usually specified by the length of spark it could produce; an '8 inch' (20 cm) induction coil was one that could produce an 8 inch arc. (http://en.wikipedia.org/wiki/Induction_coil)A metal and plastic object on a timber stand. In an induction coil the distance between the plates is often used to measure the voltage of the spark since the air breaks down at 30 000 volts per centimetreballarat college of advanced education, scientific instrument, induction coil, scientific instruments, electricity

The ship's log part, called a fish, is likely to be from a mechanical taffrail log system. It was recovered from the wreck site of the barque, the 1840-1852 Grange. There are no marks on the fish to identify its maker or model. It is part of the John Chance Collection. This ‘fish’ is part of an early to mid-1800s ship's log. It would likely have been part of a taffrail log connected to a rotor (also called propeller, spinner) by a strong line, and the other end connected by a line to a dial mounted on the taffrail, or stern rail, at the stern of the vessel. As the propeller rotated through the water it would spin the log, which in turn would cause a number to register on the dial, showing the current speed in knots; one knot equals one nautical mile per hour. TAFFRAIL LOGS A taffrail log is a nautical instrument used for measuring the speed of a vessel, providing vital navigational information to be calculated, such as location and direction. A log has been used to measure the speed of a vessel since the 1500s. A simple piece of wood was tied to a long line and thrown into sea at the back of the vessel. The rope was knotted all along at equal distances apart. On a given signal the log line was pulled back into the vessels, the knots counted until the log came up, then the figures were calculated by a navigator In 1802 the first successful mechanical log available for general use was invented by Edward Massey. It had a rotor 'V' section connected to a recording mechanism. The water’s movement rotated the rotor, which intern sent the movement to the recorder. There are examples of this invention available to see in some of the maritime museums. Thomas Walker, nephew of Edward Massey, improved on Massey’s design, and Walker and his son took out a patent on the A1 Harpoon Log. In 1861. Both Massey and Walker continued to improve the designs of the taffrail log. New designs were still being introduced, even up to the 1950s. THE GRANGE, 1840-1858- The wooden barque ’Grange’ was a three-masted ship built in Scotland in 1840 for international and coastal trade. On March 22, 1858, the Grange set sail from Melbourne under Captain A. Alexander, carrying a cargo of ballast. The barque had left the Heads of Phillip Bay and was heading west along the Victorian coast towards Cape Otway. The ship struck Little Haley’s Reef at Apollo Bay due to a navigational error and was stuck on the rocks. The crew left the ship carrying whatever they could onto the beach. Eventually, the remains of the hull, sails and fittings were salvaged before the wreck of the Grange broke up about a month later. About 110 years later, in 1968, the wreck of the Grange was found by divers from the Underwater Explorers Club of Victoria. They were amazed to find a unique, six to nine pound carronade (type of small cannon) and a cannonball on the site. There have been no other similar carronades recorded. In that same year the anchor of the Grange was recovered by diver John Chance and Mal Brown. The ship’s log is significant historically as an example of hardware used when building wooden ships in the early to mid-19th century. The ship’s log is historically significant as an example of the work and trade of blacksmith. The ship’s log also has significant as it was recovered by John Chance, a diver from the wreck of the Grange in the 1968. Items that come from several wrecks along Victoria's coast have since been donated to the Flagstaff Hill Maritime Village’s museum collection by his family, illustrating this item’s level of historical value. The ship’s log is historically significant for its association with the 1840s wooden barque, the Grange. The Grange is an historical example of a Scottish built vessel used for international and coastal trader of both cargo and passengers in the mid-19th century. The Grange is an example of an early ship, designed with a wooden hull. It is significant as a ship still available to divers along the south coast of Victoria, for research and education purposes. The Grange is an example of a mid-19th century vessel that carried a weapon of defence onboard. Ship log fitting, called a fish; part of a brass navigational instrument, likely to be from a taffrail log. The metal is a tan colour and has rough surface with a sheen, and discolouration in places. Its basic shape is a hollow cylinder with ends tapering to a smaller size. In the centre there are opposing openings cut out, showing a rough texture inside. One end on the cylinder is closed with a ring and shank installed, fixed by an embedded screw through the end of the cylinder. There are no inscriptions.flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, west coast trader, apollo bay, mid-19th century shipwreck, the grange, scottish barque, little henty reef, captain a alexander, underwater explorers club of victoria, vhr 5297, coastal trader, wooden shipwreck, john chance, wooden ship, taffrail log, marine instrument, marine technology, navigation, nautical instrument, mechanical log, nautical navigation, navigation equipment, scientific instrument, ship log, ship log register, ship speed, taff rail log, patent log, towed log, taffrail log fish, edward massey, thomas walker

Churchill Island Heritage Farm has a large photograph collection dating from the nineteenth century.Colour photograph of five people, with two holding a white tape measure, and two in the background pointing into the distance. A clapboard building is visible in the background.8 11:47 [red timestamp on image on lower right hand side] catalogue number on reverse in pencilchurchill island, photograph

The Pace Stick is used to measure the correct length of pace. Rhythm and uniformity in marching is achieved by using the Pace Stick as well as the drum and metronome. Correct pace length is necessary not only for ceremonial purposes, but also to reduce fatigue on long marches and set the standard of accuracy required of soldiers. The Pace Stick is actually two pieces of timber, hinged at the top and able to be set to a particular distance, something like the compass set you used at school.

A Ship's Log looked very similar to a torpedo but was used to measure the speed of a ship. When dragged behind the vessel, movement of water past the propeller caused it to rotate, turning the small needle dials to record the distance and speed travelled. https://museumsvictoria.com.au/immigrationmuseum/resources/journeys-to-australia/Ship's Log Display HeadWalkers Cherub 111 ships lognavigation, speed, knot, chip log, log, thomas walker and son

The phosphoroscope was invented by Alexander Edmund Becquerel and used to measure the amount of time that a phosphorescent substance will glow after being irradiated by a brilliant source of light.The phosphoroscope consists of a round metal chamber with a pair of rotating discs inside, arranged so that no light can pass directly through the chamber. The discs have cut-out windows spaced equally at regular angular distances and are turned by the hand crank linked to a gear mechanism. The sample is placed in a specially designed holder into the small opening near the gearing, and it is exposed to the light source through the large rear condensing lens.Engraved on chamber: 'Phosphoroscope de E. Becquerel / J. Duboscq a Parisbecquerel phosphoroscope, phosphoroscope, optical instruments, phosphorescent, alexander edmund becquerel, jules duboscq, france

A surveyor was employed to measure the land designated as Yangery, County of Villiers, in the Borough of Warrnambool. The area on the map is similar to the earlier Farnham Survey undertaken by William Rutledge in the 1850's. Warrnambool was a Borough between 1863-1883. Coutours, waterways, sea and other significant points are shown. The distances are accurately measured. This survey map was used for planning future land sales, recreation areas and roads. WILLIAM RUTLEDGE (1806-1876) William Rutledge surveyed the land known as Farnham in southwest Victoria in 1843. His tenants made him a profitable business from working the land there. In 1863 Rutledge moved from nearby Port Fairy to Farnham and became very successful in breeding sheep, which he imported from J.R. Kirkham of Lincolnshire, England. He also bred horses on his land. The survey map of Yangery is important for its connection with renowned surveyor William Rutledge. The map shows the growth of landholders in the district when compared to the original Rutledge survey of the 1850's.Survey map of Yangery, titled "Yangery - County of Villiers". Printed on white paper, mounted on brown paper. c. 1863-1876. Comments printed on the Map include; Special Survey by William Rutledge, Photo-lithographed at the Department of Lands and Survey, Melbourne by W.J. Burson, Price 1/- [one shilling]. Scale is in Chains. Map has boundaries of Koroit Borough, Meerai, Purnim, Wangoom, Borough of Warrnambool, Mentions the Proposal of Tower HIll for Public Recreation. The map names the owners of the land at that time. Hand written pencil marks and figures and "Sauls fence" drawn on map. Hand written pencil markes and figures and "Sauls fence" drawn onto map. "For Department Use only". "Scale: 8 chains to 1 inch" flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, county of villiers map, yangery district, w.j. burson, borough of warrnambool, koroit, purnim, meerai, wangoom, proposal of tower hill for public recreation, special survey by william rutledge, william rutledge, farnham, lincolnshire sheep, clydesdale

Kangaroo Ground's first school began in 1851 with 22 pupils from the district's ten families. It was a single room school located further south on the site, which also served as a Presbyterian church. The first teacher was Andrew Ross. The school building was used as a Post Office between 1854 and 1858 and during 1857 also served as a Court of Petty Sessions. With a growing farming community, a new building was warranted and the original Sate School No. 352 was closed and a new building, State School No. 2105 was oipened October 1, 1878. A residence for Head Teacher Henry Wallace School was erected in 1879 attached to the left of the school building. That residence is now home to the Andrew Ross Museum, which opened in 1993. Covered under Heritage Overlay, Nillumbik Planning Scheme. Published: Nillumbik Now and Then /​ Marguerite Marshall 2008; photographs Alan King with Marguerite Marshall.; p35 In a corner of the Kangaroo Ground Primary School playground stands an old weatherboard building. This structure, attached to the former teacher’s weatherboard residence facing Main Road, first served as a school in 1878. The former residence, built in 1879, houses the Andrew Ross Museum, which opened in 1993. It is named after the school’s first teacher,1 who also founded The Evelyn Observer newspaper, which began on the site in 1873. Later the printing presses were moved to brick newspaper offices by the Kangaroo Ground Hotel, which became the Shire of Eltham offices. However Kangaroo Ground’s first school began in 1851 for 22 pupils from the district’s ten families, in a slab building further south on this site. Andrew Harkness and other settlers campaigned for the building, which was built on half an acre (0.2ha) donated by local farmer, James Donaldson. Builder was Samuel Furphy, father of the novelist Joseph.2 The single room measuring 30 feet x 18 feet (9m x 5.5m), was unlined and the green slabs shrank, allowing the wind and rain entry through cracks except when they were stuffed with paper.3 The building served as a Presbyterian church as well as a school, where fees were 18 pence a week for education. Young men also attended evening classes there in winter. At one stage, a corner of the room was curtained off for the schoolmaster’s living space, and the platform, which was used for sleeping, was also the pulpit during church services. Teacher Andrew Ross also took church services when the minister was unable to attend, which happened frequently as he had long distances to travel on the bad roads. In 1857 the school building was also used as the Court of Petty Sessions, and from 1854 until 1858, it served as a post office. During the gold rush fossickers on their way to the Caledonia Diggings at Queenstown (now St Andrews) prospected the district, but did not remain long, as the fields were not rich in gold. But the farming community grew, until by 1878 the population warranted the building of State School No 2105 – the present one-roomed tongue-and-groove lined building measuring 49 feet x 18 feet (15m x 5.5m), to accommodate 60 children. The old school, No 352, was closed, and the new one opened on October 1, with Henry Wallace as head teacher, assisted by work mistress Annie Johnston. Early teachers included Messrs Smith, Hamilton and Prosser, with sewing teachers Misses Sweeney, Limerock and Oliver. In the early 1920s a small room was built on the front veranda of the teacher’s residence, and used as a State Savings Bank agency until about 1934. In 1928 the schoolroom’s three-tiered floor was replaced by a flat floor and teacher’s platform (which has since been removed). A half-glassed partition wall then divided the large room into two rooms in which the old style form-type desks were replaced with dual desks. The small playground, surrounded by pine trees and a picket fence, was extended in 1931 with an additional acre or so (0.4 ha) of land. During World War Two the school faced closure because of a fall to seven in the enrolment, but by 1946 it had increased again to 45. Mr Eric Morgan was head teacher and Mrs Margaret Banks was assistant head teacher, a position she held for ten years. In 1955, under the head teacher Mr V Gardiner, who taught there for 13 years, the school won a prize for the best-kept garden and school ground in the inspectorate. A district subdivision increased the enrolment in 1968 to 65 and a bus service was established. After the hall which had been used for lessons was demolished late that year, the pupils met in the original fire brigade meeting room (now the tennis club, diagonally opposite the general store). The new school building with a storeroom and staffroom was built in 1974.This collection of almost 130 photos about places and people within the Shire of Nillumbik, an urban and rural municipality in Melbourne's north, contributes to an understanding of the history of the Shire. Published in 2008 immediately prior to the Black Saturday bushfires of February 7, 2009, it documents sites that were impacted, and in some cases destroyed by the fires. It includes photographs taken especially for the publication, creating a unique time capsule representing the Shire in the early 21st century. It remains the most recent comprehenesive publication devoted to the Shire's history connecting local residents to the past. nillumbik now and then (marshall-king) collection, kangaroo ground, andrew ross museum, eltham-yarra glen road, kangaroo ground primary school no. 2105, kangaroo ground state school, state school no. 2105