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

Colour photocopy of an article on the Silver Key Café, Main Street Rutherglen. Copy from an exhibition catalogue "Selling an American dream : Australia's Greek café́ : a nationally touring exhibition / curators: Effy Alexakis and Leonard Janiszewski"silver key cafe, dawn leahy, frank leahy, paul kalkandis

Pattern-Skegg oblong shaped object with fin like top. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

This medical / hospital instrument was used in the Tawonga District General Hospital which was built in the 1950s specifically for the increase in population due to the Kiewa Hydro Scheme.Historical: Shows the development of scientific hospital equipment. Provenance: Used in the Tawonga District General Hospital which was remote and therefore required good equipment. Good condition and good interpretation capacity.Steel scissors used for dressings. Look like school scissors.medical instrument. hospital instrument. scissors. dressings. nurse. doctor. tawonga.

Piece of silk-like material, printed with Union Jack image.event, war, world war 1

Green and gold earthenware decanter shaped like a jerrycan - empty7th Battalion The Royal Australian Regiment Assoc. 30th anniversary 1965-1995 Tawny Port Lesnik family wines Pokolbin NSWcommerorative decanter, 7 rar, 30th anniversary

8495.1 - Pickaxe; Head like an elongated double bladed axe.9cm (?)

Slide. ATISHA CENTRE, BUDA. A brass-like statue of Buda.slide, bendigo, atisha centre, buda, atisha centre, buda

Slide. ATISHA CENTRE, BUDA. A brass like statue of Budaslide, bendigo, atisha centre, buda, atisha centre, buda

Jet Cameo. c1890. Jet jewellery originated from the English town of Whitby where it was mined. There were many Jet workrooms and thousands of jet pieces were worn by ladies copying Queen Victoria who made the Jet fashionable bt wearing it during her long years of mourning for her husband Albert.Square medallion with rope like edge and a female head embossed on it.costume accessories, female

Coorongite is a dark, rubber-like, highly resilient structureless algal deposit. In the Coorong district of South Australia it occurs in moderate quantities associated with the coastal swamps and sand dunes which extend for a considerable distance east of the mouth of the Murray. This particular specimen was recovered from the south of the Coorong River, South Australia. A type of sediment rich in organic matter, Coorongite is the unlithified end-member of the sapropelic coal series. The members of the sapropelic coal series can be ranked in order as sapropel (the unlithified form), sapropelic-lignite, and sapropelic-coal (the lithified forms) based on increasing carbon content and decreasing volatile content. Sapropel (Coorongite) is an unlithified dark, pulpy, fine organic mud containing concentrations of algae and miospores that are more or less identifiable. Coorongite is typically found as an algae like substance, that can be found in irregular size pieces. Coorongite was believed to be dried up oil due to its rubber-like texture. The Coorongite is also soft to the point where it can be cut into with a knife or it can be broken and torn by hand. Otherwise known as 'Kurangk', the Coorong River is home to the Ngarrindjeri people, which acts as both a place for gathering food and a spiritual place. In 1852 the first sight of Coorongite was found along the Coorong River. The finders mistook the Coorongite for dried up oil, which lead to the belief that there were oil reserves under the Coorong River. Between the 1860s and the 1930s the Coorong River became a place where mining oil and Coorongite became precedent. Nowadays, the local council and the South Australian Government are working together with the Ngarrindjeri people to sustain and preserve the Coorong River and the culture that is with it. Soon after gold was discovered in 1851, Victoria’s Governor La Trobe wrote to the Colonial Office in London, urging ‘the propriety of selecting and appointing as Mineral Surveyor for this Colony a gentleman possessed of the requisite qualifications and acquaintance with geological science and phenomena’. Alfred Selwyn was appointed geological surveyor in Australia in 1852 which began the Geological Survey of Victoria. Selwyn went on to collect geological samples and catalogue thousands of specimens around Australia. In 1853-69 the Geological Survey issued under Selwyn's direction sixty-one geological maps and numerous reports; they were of such high standard that a writer in the Quarterly Journal of the Geological Society of London bracketed the survey with that of the United States of America as the best in the world. During his years spent in Australia, Selwyn collected numerous significant geological specimens, examples of which are held in collections such as the Burke Museum.Coorongite is considered to be a mineral with a unique texture, where it can be both hard and soft. Coorongite can also be considered to be a rare mineral, as it is only located along the Coorong River and due to the mining of it, has left very few sources. It was believed at one point that Coorongite could be used to replace oil. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.Three solid varyingly hand-sized pieces of wooden appearing organic matter derived from the river in the Coorong District in South Australia. A rubber-like, highly resilient structureless algal deposit.Specimen 245 page 69 / in Descriptive Register / "Elcestic Bitumen, / Coorangite" South of / Coorung River, South Australia . / C. WIllman / 15/4/21burke museum, beechwoth, indigo shire, beechworth museum, geological, geological specimen, mineraology, coorong, coorong river, kurangk, ngarrindjeri, south australia, coorongite, coorongite specimen

The Process of Making Pottery Decorating, Firing, Glazing, Making, Technical There is a rhythm and flow to clay. It can’t be done all at once! Even the making process! It can take weeks to get everything done, especially if you can only work on your pottery once a week! Even though we have three hour classes, it’s often just not enough time! Here is an overview of some of the processes so you have a bit more grasp on some of the technical stuff! Step One – Design There are SO many ideas out there for making stuff in clay! From delicate porcelain jewellery, through to heavy sculptural work and everything in between. Deciding your direction is sometimes not that easy – when you first start, try everything, you will naturally gravitate to the style that you enjoy! The options and variations are endless and can get a wee bit overwhelming too! Check in with me before you start to ensure your ideas will work, what order you might do things, how you could achieve the look you are seeking and any other technical data required! Step Two – Making Clay is thixotropic. This means that as you work with it, the clay first gets sloppier and wetter, before is begins to dry in the atmosphere. For most things, you simply can’t do all parts of the project at once. An example of work order might look like: Get last weeks work out from the shelves Prepare clay for today’s work – roll your clay, prepare balls for throwing, make the first stage of a pinch pot) Clean up last week’s work and put it on the shelf for bisque firing Check that you have any glazing to do – and do enough of it that you will have time to finish your main project Do the next step of your next project – there might be a further step that can’t be complete immediately, in that case, wrap your work well and put onto the shelves. Letting your work rest for a while can really help keep your work clean and professional looking. Many things require bagging under plastic to keep it ready for work the next week – put your name on the outside of the bag so you can find your work easily. We have stickers and markers. Consider how you want to decorate your work – coloured slip can be applied at a fairly wet stage (remembering that it will make your work even wetter!). Trying to apply slip to dry clay won’t work! If you want to do sgraffito – you will need to keep the work leather hard (a state of dryness where you can still work the clay with a little effort and a little water and care). Step Three – Drying Most of the time your work can go into the rack uncovered to let it dry out for the following week. If you want to continue forming or shaping you will need to double bag your work – put your work on a suitable sized bat and put the bat in a bag so the base of the bag is under the bat, then put another bag over the top of the work and tuck the top of the bag under the bat. If you want to trim (or turn) your thrown work the following week, it should also be double bagged. If your work is large, delicate, or of uneven thicknesses, you should lightly cover your work for drying. When considering the drying process, bare in mind the weather, humidity and wind! The hotter and dryer, the faster things dry and work can dry unevenly in the shelves – this can lead to cracking – another time to lightly cover your work for drying. Step Four – Trimming and Cleaning Up Your work is dry! It is called greenware now and it is at it’s most fragile! Handle everything with two hands. I often refer to soft hands – keep everything gentle and with your fingers spread as much as possible. Try to not pick up things like plates too much, and always with both hands! Before your work can be bisque fired it should be “cleaned up”. You work won’t go into the kiln if it has sharp edges – when glazed, sharp edges turn into razor blades! Use a piece of fly wire to rub the work all over – this will scratch a little so be light handed. Use a knife or metal kidney to scrape any areas that require a bit more dynamic treatment than the fly wire offers! Finally, a very light wipe over with a slightly damp sponge can help soften and soothe all of your edges and dags! Trimming thrown work: If you are planning to trim (or turn) your thrown work (and you should be), make sure you bag it well – your work should be leather hard to almost dry for easiest trimming. Use this step to finish the work completely – use a metal kidney to polish the surface, or a slightly damp sponge to give a freshly thrown look. Wipe the sponge around the rim after trimming, and check the inside of the pot for dags! Trimming slip cast work: Usually I will trim the rims of your work on the wheel the following day to make that stage easier, however you will still need to check your work for lumps and bumps. Last but not least – check that your name is still clearly on the bottom of your work. Step Five – Bisque Firing When the work is completely dry it can go into the bisque kiln. The bisque kiln is fired to 1000°C. This process burns off the water in the clay as well as some of the chemically bound water. The structure of the clay is not altered that much at this temperature. Inside the bisque kiln, the work is stacked a little, small bowl inside a larger bowl and onto a heavy plate. Smaller items like decorations or drink coasters might get stacked several high. Consideration is paid to the weight of the stack and shape of the work. A bisque kiln can fire about one and a half times the amount of work that the glaze kiln can fire. The firing takes about 10 hours to complete the cycle and about two days to cool down. Once it has been emptied the work is placed in the glaze room ready for you to decorate! Step Six – Glazing Decorating your work with colour can be a lot of fun – and time consuming! There are three main options for surface treatment at this stage: Oxide Washes Underglazes Glazes Washes and underglazes do not “glaze” the work – It will still need a layer of glaze to fully seal the clay (washes don’t need glaze on surfaces not designed for food or liquid as they can gloss up a little on their own). Underglazes are stable colourants that turn out pretty much how they look in the jar. They can be mixed with each other to form other colours and can be used like water colours to paint onto your work. Mostly they should have a clear glaze on top to seal them. Oxides are a different species – the pink oxide (cobalt) wash turns out bright blue for instance. They don’t always need a glaze on top, and some glazes can change the colour of the wash! The glazes need no other “glaze” on top! Be careful of unknown glaze interactions – you can put any combination of glaze in a bowl or on a plate, but only a single glaze on the outside of any vertical surface! Glazes are a chemical reaction under heat. We don’t know the exact chemicals in the Mayco glazes we use. I can guess by the way they interact with each other, however, on the whole, you need to test every idea you have, and not run the test on a vertical surface! Simply put, glaze is a layer of glass like substance that bonds with the clay underneath. Clay is made of silica, alumina and water. Glaze is made of mostly silica. Silica has a melting point of 1700°C and we fire to 1240°C. The silica requires a “flux” to help it melt at the lower temperature. Fluxes can be all sorts of chemicals – a common one is calcium – calcium has a melting point of 2500°C, however, together they both melt at a much lower temperature! Colourants are metal oxides like cobalt (blue), chrome (green through black), copper (green, blue, even red!), manganese (black, purple and pink) iron (red brown), etc. Different chemicals in the glaze can have dramatic effects. for example, barium carbonate (which we don’t use) turns manganese bright pink! Other elements can turn manganese dioxide brown, blue, purple and reddish brown. Manganese dioxide is a flux in and of itself as well. So, glazes that get their black and purple colours, often interact with other glazes and RUN! Our mirror black is a good example – it mixes really well with many glazes because it fluxes them – causes them to melt faster. It will also bring out many beautiful colours in the glazes because it’s black colouring most definitely comes from manganese dioxide! Glaze chemistry is a whole subject on it’s own! We use commercial Mayco glazes on purpose – for their huge range of colour possibilities, stability, cool interactions, artistic freedom with the ability to easily brush the glazes on and ease of use. We currently have almost 50 glazes on hand! A major project is to test the interactions of all glazes with each other. That is 2,500 test tiles!!!! I’m going to make the wall behind the wheels the feature wall of pretty colours! Step Seven – Glaze (Gloss or sometimes called “Glost”) Firing Most of the time this is the final stage of making your creation (but not always!) The glaze kiln goes to 1240°C. This is called cone 6, or midrange. It is the low end of stoneware temperatures. Stoneware clays and glazes are typically fired at cone 8 – 10, that is 1260 – 1290°C. The energy requirement to go from 1240°C to 1280°C is almost a 30% more! Our clay is formulated to vitrify (mature, turn “glass-like”) at 1240°, as are our glazes. A glaze kiln take around 12 hours to reach temperature and two to three days to cool down. Sometimes a third firing process is required – this is for decoration that is added to work after the glaze firing. For example – adding precious metals and lustres. this firing temperature is usually around 600 – 800°C depending upon the techniques being used. There are many students interested in gold and silver trims – we will be doing this third type of firing soon! After firing your work will be in the student finished work shelves. Remember to pay for it before you head out the door! There is a small extra charge for using porcelain clay (it’s more than twice the price of regular clay), and for any third firing process! Once your work has been fired it can not turn back into clay for millennia – so don’t fire it if you don’t like it! Put it in the bucket for recycling. https://firebirdstudios.com.au/the-process-of-making-pottery/ This bowl is an example of kitchenware used in the 19th century and still in use today.Bowl white ceramic plain that has two sets of edging around lip. Inside bowl has plaster designed to look like cooking mixture.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, kitchen equipment, ceramic

On long term loan from Heidi Vollmer who sold her home and moved into a unit. Has nowhere to store the cutout at presentA girl dressed in a black pinafore, dream blouse, cream and red apron and red hat with cream dots, with a small branch from a tree over her shoulder. 2 cream coloured geese at her feet. Gloss paintgirl and geese, cutouts, vollmer f&a, vollmer h, camp 3, tatura, ww2, handcrafts, woodwork

Discussion of aboriginal religion, often called "The Dreaming".6 p. typescriptaborigines

This insulator disk for the high voltage carrying electrical cables was manufactured in 1964 and used by the SEC Vic (Kiewa Hydro Electricity Scheme) from that date until late 1900's. It was used to connect high voltage cables to their "towers" going from various Hydro Generators to and from power "stations". During this time period, high quality "cable" insulators were manufactured in Japan. In an earlier time they would have been sourced from Europe or England. After the 1950's the sourcing of electrical hardware was being influenced by the lower costs obtainable from Japan. Later on other Asian sources also became available.The need for a mountainous and a large area of operational requirements, such as the SEC Vic Kiewa Hydro Electricity Scheme, to distribute the electricity produced in the Victorian Alps to the major users required power transmission lines to "carry" high above the sometimes inaccessible land mass electricity generated at the power stations to the various sub stations along the valleys and ranges to flatter populated regions. The significance of this insulation "high voltage" disk to the Kiewa Valley region relates to the impact of modern technology (at that time) upon a mainly rural environment. These power lines are a stark visual "show" of the impact that the "Scheme" has on the mostly rural landscape of the Kiewa Valley and what a boost of "modern" equipment into the area has taken place. The "Hydro Scheme" had facilitated the transition of a semi rural area to an advanced rural region within a shorter time frame, than would have taken under "normal" evolutionary time. The speed of information of all "new technology" had a relatively slow assimilation rate before the SEC Kiewa Hydro Scheme came to those living in the then quieter rural communities. This high voltage (330 KV) insulation disk is made from non conductive porcelain stoneware. It is highly polished brown in colour and has a clip fastening for the high voltage cable to be attached to. This disk was hit by lightning and the burn marks are quite noticeable. The top metal connector has a "mushroom" extension jutting below the semi cone like insulation disk. Also four circular ridges or grooves (old 78 rpm disc recording style).Cable bell on top of insulation disk "4K " next to it the international symbol for electricity (triangle containing one horizontal line under one V line and one vertical flame like line.) On the opposite side "2" and to the right "64"sec vic kiewa hydro scheme, alternate energy supplies, alpine (above ground) high voltage electricity cables, volt cable, 330000 volt cable

This text-book is divided into three parts: I. The Right-Angled Triangle; II. The General Triangle and Mensuration; III. The General Angle and Compound Angles. This corresponds to the Matriculation and School Certificate stage.This text-book is significant as it was the book used by Mount Beauty High School students in the mid 1900's. It is also significant as it was used by I.Davies a member of a local family. And it also has good interpretive capacity.Red cover, black lettering, embossed around a triangle, CAMBRIDGE MATHEMATICAL SERIES, with trademark in centre of triangle.Pencilled name inside front cover looks like I.Davies.book, maths, trigonometry, mount-beauty-high-school, school, students, elementary, c.v.-durell, r.m.-wright

In 1940 Field Headquarters for the Kiewa Scheme were established at Bogong with office, workshop facilities and accommodation for workmen, staff and some families constructed. (There had been a 'tent camp' on this site in 1939 but was destroyed by bushfires) Construction of accommodation continued until 1947. A total of 40 houses plus a hostel for single staff, post office, police station, medical centre and primary school all with water and sewerage and electricity supply. The staff hostel was known as Kiewa House and is now occupied by the Education Department. Lake Guy was named after Mr. L.T. Guy who was the Resident Engineer in charge of construction work and associated activities on the Kiewa area. He held this position from 1939 to November 1946 when he was transferred to Head Office. The Bogong Township was developed firstly as an accommodation centre (base camp) for construction workers employed under the Kiewa Hydroelectric Scheme. Due to the influx of European workers into the Township the beautification of the immediate surrounds (gardens etc.) had a distinct European flavour. This environment has been very beneficial for tourism in later years. At the completion of the scheme, in the 1960's, the village was opened to public/tourism use. Strict environmental control has not allowed for any extensive redevelopment in tourist accommodation and basically restricted it to the accommodation initially built for the construction workers. Activities such a bike riding, snow skiing, restricted horse riding and bush walking on the Alpine plains and mountains are now a viable part of the Kiewa Valley Tourist Industry. The lake is one of the many water storage reservoirs used to supply the power stations their main power to run the huge turbines generating the final product, electricityBlack and white photographic postcard of Lake Guy and Bogong Village. Kiewa Hydro electric Project (showing Junction Dam in front)Handwritten on the back of postcard ' Like most of our camps, this looks like something from the Canadian Rockies' Stamped on the back - Valentine's Post Card A genuine photographlake guy, bogong village, secv

One of two photographs donated by Ken PoundColoured postcard of a windswept Cowes beach. Looks like a photograph of a painting."The Beach at Cowes, Phillip Island" Valentine's Series M 4847cowes beach, phillip island, ken pound

Retractors scissor like handles & curved ends. Has locking adjustmentflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

A metal candlestick shaped like a leaf with and coiled metal finger hold lights, candles, early settlers, pioneers, moorabbin, bentleigh, cheltenham

Photo of inside of a carton box with what looks like a stove top.Kodakbusiness, retail, gas and fuel

8359.1 - High-grade black coal, very egg-like in shape.