This photo is thought to have been taken at the time of Alfred Mica Smith's retirement from the Ballarat School of Mines. It is most probably also the unveiling of the Max Meldrum portrait of Smith. Alfred Mica Smith retired from the Ballarat School of Mines in 1922 after an association of 41 years and aged 78 years. At the August meeting of the Ballarat School of Mines Council in 1881 it was resolved that 'Alfred Mica Smith Esq., B.Sc., be appointed Professor in Chemistry and Metallurgy and be Superintendent of the Laboratories, for the period of twelve months at a stipend of five hundred pounds per annum, and to commence duty as soon as possible'. (signed: James Oddie, Vice-President) Smith played a major role in the years of 1887-1893 when SMB was affiliated with Melbourne University. In 1912 he became Professor of Metallurgy and received an annual salary of 250 pounds. Alfred Mica Smith presented many scholarly papers, gave evidence at government enquiries into the safety of mines and became an authority on mine safety and ventilation. He was on the Mines Ventilation Board. Professor Smith was the public analyst for the City of Ballarat and Town of Ballarat East, as well as to a number of other boroughs and shires. He was also Chief juror to the Adelaide International Exhibition, chemical section. He provided information to the Royal Commission on gold mining (1889, 1891), and was President to the chemistry section of Australian Association for the Advancement of Science, Associate of American and Australasian Institute of Mining Engineering, Member of the Science Faculty Melbourne University, and Hon. Life Member of the Miner Managers' Association of Australia. He also was involved in many educational and community affairs such as President of the SMB Students' Association, President of the Ballarat Science Society, first President of the Ballarat Camera Club, Vice President of the Field Naturalists' Club, and he presented Ballaarat Fine Art Gallery with his collection of paintings and porcelain ware. His legacies include the mutual regard between him and his students, the many tributes by former students, the Mica Smith scholarship (established in 1923) and now known as the Corbould-Mica Smith Travelling Scholarship, his portrait in oils by noted artist Max Meldrum, and the marble bust of Smith sculptured by Paul Montford. Money for a scholarship in sanitary science at the University of Manchester in the name of his uncle R. A. Smith was left being set up in 1928. Smith died of cancer on 14 May 1926 and his remains, cremated at Springvale, were interred in the Ballaarat New Cemetery. See http://guerin.ballarat.edu.au/curator/honour-roll/honourroll_Smith,%20Alfred%20Mica.shtml Black and white mounted photograph showing a number of men sitting around two dining tables at Craig's Royal Hotel in Ballarat. Professor Alfred Mica Smith of the Ballarat School of Mines is standing 15 from the left, and is the subject of the painting on an easel to the left. The painting was presented to the Ballarat Fine Art GalleryLower right of mount 'Victa Studios Ballarat' Verso (typed and glued on): Presentation to professor Mica Smith, Craig's Hotelballarat school of mines, craig's hotel, craig's royal hotel, alfred mica smith, art gallery of ballarat, ballarat fine art gallery, portrait, frederick martell, daniel walker

The illuminated signs in this photograph were erected over the main Lydiard Strert entrance to the Ballarat School of Mines somewhere around 1960. The signs were erected by Principal Harry Arblaster in an attempt to emphasis the Diploma Courses were of a tertiary level. Black and white photograph of Ballarat School of Mines building in Lydiard (south) Street, Ballarat. The photo features to signs. The first one includes the word 'The Ballarat School of Mines and Industries, and well as the Ballarat School of Mines shield. The other sign includes the word 'Professional courses, Geology, Chemistry, Civil Engineering, Mechanical Engineering, Electrical Engineering, Metallurgy, Art"ballarat school of mines, professional courses, gology, chemistry, civil engineering, mechanical engineering, electrical engineering, metallurgy, art, trades, arblaster, harry arblaster, illuminated sign

Large printed timetable for Technical School examinations in 1901. Subjects included Chemistry, Geology, Asssaying, Hydraulics, Agriculture, Engineering , Mine Surveying, Algebra, Mineralogy, petrology, Botany, Trigonometry, Euclid, Land Surveying, Steam and gas Engines, Applied Mechanics, Drawing, painting, engineering drawing, building construction, architecture, drapery, modelled design, casting clay models, composition of form and colour, Lettering, Wood Carving, historic ornament, Wood Carving. .1) Trade Subjects .2) Other subjects, including artexaminations, technical schools, trades, art, technical art school, timetable, clay modelling, ceramics

A design for a Trade and Art Workshop at the Ballarat School of Mines was prepared by Ewan Jones and Associates on the Albert Street boundary around 1984. The M.B. John Building (Building K), a three storey, face red brick, restrained Late Twentieth Century International styled building with an elongated, cuboid form (defined by the parapeted facades) that is offset by projecting exposed concrete framed, round‐arched entrance and stair wells on the east (Albert Street) elevation (the centrally located entrance breaking the brick façade with glazing). The facades are also characterised by banks of aluminium framed, horizontal ribbon windows, which wrap around the building corners. Metal shades project beyond the windows, while post‐supported bullnosed verandahs and hoods and projecting concrete stairs are other features. On the west elevation, the cuboid façade is punctuated by projecting curved concrete and glazed, elongated bays at first floor level. (David Rowe/Wendy Jacobs) The M.B. John Trade–Art building of SMB was officially opened by the Hon. John Cain, Premier of Victoria, in the presence of Morgan B. John. Programs include 3 Dimensional Art, Painting & Decorating, and Engineering Trades. (SMB Institutional Plan 1989)Black and white photograph of a sketch for the proposed Trade Workshops at the Ballarat School of Mines, from the Albert Street vantage point. This building is known as the M.B. John Building on the SMB Campus.ballarat school of mines, trade workshops, flecknoe, m.b. john, ewan jones and associates pty ltd, albert street, morgan b. john, ewan jones and associates

Morgan Bevan John was a president of the Ballarat School of Mines for many years. In 2014 the building was used for Ceramics and 3D Art, other former uses now being carried out in the Skills Centre. The M.B. John Trade–Art building (Albert Street front) of SMB was officially opened by the Hon. John Cain, Premier of Victoria, in the presence of Morgan B. John. Programs include 3 Dimensional Art, Painting & Decorating, and Engineering Trades. (SMB Institutional Plan 1989)Two black and white photographs of the MB John building at Federation University SMB campus. The building fronts Albert Street, Ballarat. .2) shows the edge of the Ballarat School of Mines Botanical Gardens.ballarat school of mines, john, ballarat school of mines botanical gardens, flecknoe, m.b. john, vocational skills, morgan b. john, albert street, buildings

In 1883 the Ballarat School of Mines made some changes in order to make better use of the services of the teachers and to extend "as far as practicable the special educational advantages already afforded" by the School. One of the changes was the introduction of a three years course of training under the professors to qualify students for the following three professions: Analyst and Metallurgist, Electrician, and Geologist and Mining Surveyor. The Council was to confer the distinction of Associate. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p77) Students who took single subjects or pursued such courses as those for certificate of either mine manager or assayer were not required to pass an entrance examination. Students who wished to qualify for an associateship in once of the courses were expected to have a general education of matriculation standard and to have attended all the prescribed courses of instruction unless they were able to produce to the satisfaction of the School's Board of Examiners evidence of having attained elsewhere the degree of proficiency which was required in any particular subject or subjects. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p177) Ballarat School of Mines Associateships have been conferred since 1894 on candidates who had passed the prescribed examinations in one or other of the following three courses: Geology, Metallurgy and Mining engineering. Each of these three courses had an additional, but optional, fourth year of study. The prescribed subjects of study for an Associateship were set out in 'The Calendar of the Ballarat School of Mines' in each year. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p177)A number of timber boards with gold lettering. The list names in date order of when they became an Associates of the Ballarat School of Mines.ballarat school of mines, ballarat school of mines associate, associate of the ballarat school of mines, lonie, jennifer drummond, jill blee, jilian norton, zig plavina, associate boards

The lathe-making business incorporated in 1902 as Drummond Bros Ltd originated in the fertile mind of Mr Arthur Drummond, said to have been living at that time at Pinks Hill, on the southern edge of Broad Street Common, west of Guildford. Mr Drummond, whose accomplishments included several pictures hung in the Royal Academy, was unable to find a lathe suitable for use in model engineering. In 1896 he designed for himself a ‘small centre lathe … which had a compound slide rest with feed-screws and adjustable slides’. He also designed and built ‘lathes of 4.5 inch and 5 inch centre height, which had beds of a special form whereby the use of a gap piece was eliminated but the advantages of a gap-bed lathe were retained’. Assisted by his brother, Mr Frank Drummond, who had served an apprenticeship to an engineering firm at Tunbridge Wells, the first lathes were made in a workshop adjoining Arthur Drummond’s house. The demand that speedily built up led to the decision to form a company and manufacture the lathes for sale commercially. Land was acquired nearby, at Rydes Hill, and the first factory built. The enterprise was a success, and the company quickly established ‘a high reputation in this country and abroad for multi-tool and copying lathes, and gear-cutting machines’. Other lathes were added to the range, including the first of the ’round bed’ machines for which the firm became widely known. A Drummond 3.5 inch lathe was among the equipment of Captain Scott’s 1912 expedition to the South Pole, and large numbers of 3.5 inch and 4 inch designs were exported to Australia, Canada and India. By the outbreak of war in 1914, 5 inch, 6 inch and 7 inch screw cutting lathes, arranged for power drive, were on sale. Large orders were received from the government for 3.5 inch lathes, for use in destroyers and submarines, and 5 inch lathes for the mechanised section of the Army Service Corps. The latter were used in mobile workshops. The factory worked night and day to supply the forces’ needs, until production was disrupted by a fire which destroyed a large part of the works in May 1915. As soon as rebuilding was complete work restarted. At the end of the war the entire production was being taken by the Government departments, a special feature being a precision screw lathe, bought by the Ministry of Munitions in 1918. Between the wars Drummond Bros Ltd introduced new machines for the motor vehicle, and later the aircraft industry, and the works were extended on many occasions to fulfill the increasing orders. The Maxicut multi-tool lathe (1925), designed for high-production turning operations, was one of the first machines of this type to be built in England. It was followed (1928) by an hydraulic version for turning gear blanks, and similar work. Further developments provided machines which, during the Second World War, turned all the crankshafts and propeller shafts for Bristol engines. Others, ordered by the Ministry of Supply were employed in turning shells, and many other specific needs of vehicle and aircraft manufacture were catered for by new types of Drummond lathes. Production of the small centre lathes ceased during the war when the company needed to concentrate on building multi-tool lathes and gear shapers. After the war a completely new Maxicut range was introduced, replacing the older versions, and fully automatic. The types were continually developed, and new versions manufactured until the end of the company’s life in 1980. The disappearance from the scene of Mr Arthur Drummond in 1946, and the end of the company’s autonomous existence in 1953 when the company was acquired by William Asquith Ltd, which was in turn bought by Staveley in 1966, meant that the factory at Rydes Hill became one – albeit very effective – part of a large national engineering company. Achievements at the Guildford works during its last years included the development of automated Maxicut gear-shapers in what was ‘probably the most fully automated gear shop in the country’, while a machine from Guildford was sent to the Osaka Fair in 1962. In 1963 an agreement was signed with Hindustan Machine Tools for the manufacture of Maxicut gear-shapers in state owned factories in Bangalore and Chandigarh. During 1963 the two largest multi-tool lathes ever made in the UK were installed in Ambrose Shardlow’s works in Sheffield for handling cranks up to 14 foot long. In 1976 Drummond lathes were included in Staveley’s £14,000,000 installation in Moscow of an automated production line for Zil motor cars. Up to the end invention continued at Guildford: a new Drummond Multi-turn memory-controlled machine was shown at the International Machine Tool Exhibition in 1977. This could not save the works from the pressures of the late 1970s, and Staveley Industries closed its Guildford site in 1980.An early example of a lathe that was designed primarily for the hobbyist model maker. It is in good condition and sought today by collectors as many of it's attributes were innovative at the time and lead to further development and incorporation of some of its features into more industrial models of production machinery. Lathe, round bed, treadle powered lathe, Drummond Type A, Serial number and maker's inscription. 1920-1923, Made by Drummond Brothers in Guildford, Surrey, England. Lathe is complete with Chuck, Tool post and Tail Stock in situ (30 extra parts)"MADE BY DRUMMOND BROTHERS LIMITED - PATENT TEES - RYDE'S HILL n GUILDFORD SURREY", "Serial Number 01470," "L44" or "L45 " flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, lathe 1920-1923, round bed lathe, treadle lathe, drummond type a, guildford surrey, drummond brothers guildford surrey england, tread'e

This distress EPIRB unit (Emergency Position Indication Radio Beacon) was found on the beach at Levy's Point, Warrnambool, in December 2000 by a Warrnambool resident. Local police were alerted at the time. This distress signal unit is a world-wide COSPAS/SARSAT, satellite assisted, SAR (Search and Rescue) system for location of distress transmissions emitted by an EPIRB. Offshore cruising vessels must have such a unit as part of its essential safety equipment. This model EPIRB relies on four satellites with orbit times of approximately 100 minutes. The earlier units relied solely on aircraft flying overhead to detect and forward on the EPIRB’s location to Search And Rescue authorities, whereas this new system utilises satellites. The Lokata Company was established in 1970, designing and manufacturing marine products including communications. The company no longer makes products with the “Lokata” brand. In 2001 Sartech Engineering Ltd. took over the support for the Lokata EPIRB beacons. EPIRB unit; “Emergency Position Indication Radio Beacon” Distress communication unit for sending a distress location transmission in an emergency at sea. The EPIRB is a yellow, rectangular box with dials, buttons, indicator lights and instruction, plus an antenna protruding from the top of the unit. This unit sends a 406P (X) EPIRB, with 406M-Hz frequency, 48 hour duration signal. Made by LOKATA Ltd in England. Remnants of a white label remain on the side. Circa 1970“LO-KATA” moulded into the body. “Model 406” printed on the identifying pane (other required information is undecipherable) flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, emergency position indicating radio beacon, epirb, lokata ltd, marine safety equipment, satellite transmitting beacon

This seed box was made for Hiram Sibley for his seed house business. He sold seeds priced by the weight or the space they took up e.g. bushel. This box allowed for seeds to be divided by type, size or even date. The box was strong and easy to cart and store. It was also a handy item to 'recycle' as a storage container for other items. The Sibley seed box is a desirable collectors' item. A large variety of sizes and shapes are still available today in various stages of condition. Hiram Sibley developed seeds that were strong and the plants that grew from these seeds produced many seeds. Varieties of Sibley seeds and plants are still advertised for sale in modern times. HIRAM SIBLEY (1807-1888) - Hiram Sibley was born in America. He had a natural mechanical ability and became skilled in many trades. He and his partner Don Watson opened a sawmill then a machine shop and foundry. He became involved with Alfred Vale and Samuel Morse and their work on the telegraph. Eventually he became the first president of the Western Union Telegraph Company. Later, after leaving Western Union in the early 1860s, Sibley bought and sold railroads, manufactured sold, ran timber mills, and became involved in farming and seed supply. In this area he used his skills to engineer seeds that were stronger and develop plants that produced more seeds. The production of seeds became his main business. He bought land cheaply and improved to soil so that he could produce seed and grain, and graze herds of cattle. He became the owner of 14 large farms. Hiram Sibley earned the reputation "as the most extensive farmer and seedsman in this country". The business of Hiram Sibley & Co. was conducted his warehouse in Rochester and his seed house in Chicago. One department of the business sold farming equipment, another department imported ornamental plants from overseas countries Sibley went on to invest a large amount of money in a bank, and to be financially involved in the community by making large donations to public services such as a library and a school of music. At one point he was the richest man in Monroe county.This box is significant for its historic connection with Hiram Sibley, who is famous for many reasons, among which is his very profitable business of seed engineering to improve the production of crops. This box also represents the value of containers used for selling products in the 1880s, being re-used for other useful purposes. The box is an example of goods imported for use in Australia. The text and images of the box are an example of 1880s advertisingBox, wooden, with two brass hinges joining lid to base. Base has two wooden partitions, divided into three unequal sized compartments. Lid's underside has label with drawings of buildings and produce, text with maker's name and description of vegetables. Front edge of box has stencilled text and diagrams. Outside lid, and the other three sides, have no inscriptions. Made by Hiram Sibley & Co., USA. (Box is currently used to store quoits 1436.2 and cones of cotton thread 1436.3.)Marked "HIRAM SIBLEY & CO / SEEDS", "WAREHOUSE - "ROCHESTER N.Y. ", "SEED HOUSE - CHICARGO, ILL.", "SEEDS BY WEIGHT & MEASURE", "PUT UP BY / HIRAM SIBLEY & CO. / ROCHESTER, N.Y. AND CHICARGO, ILL."flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, hiram sibley & co, rochester n.y., seeds, wooden seed box, seed box, seedsmen, arable farming, chicargo illinois, seed house, seed engineering, seed distribution, seeds by weight and measure

Before the introduction of electricity, lighthouses had a clockwork mechanism that caused the lens to rotate with a light source inside that was either powered by Kerosene or Colza oil. The mechanism consisted of a large weight attached by a cable through the centre of the lighthouse to the top where the cable wrapped around a barrel, drum or wheels that controlled the speed of the lights rotation by a clockwork mechanism. The keeper would crank the clockwork mechanism, which would lift the weight ready for the next cycle similar to an old grandfather clock mechanism. Once the weight lifted to its apex at the bottom of the first landing, the keeper would let it fall, which would pull on the cable, which would, in turn, operate a series of gears activating the rotation of the Fresnel optical lens, which would then rotate to create the lighthouse’s unique light speed of rotation characteristic. Creating a specific characteristic required a way to regulate the speed of the rotation, and was important as sailors could identify a particular light by its speed and time between flashes. The weight had to fall at a certain rate to create the proper rotation speed of the lens and a regulator within the mechanism accomplished this. History: From 1851, Chance Brothers became a major lighthouse engineering company, producing optical components, machinery, and other equipment for lighthouses around the world. James Timmins Chance pioneered placing lighthouse lamps inside a cage surrounded by Fresnel lenses to increase the available light output these cages, are known as optics and they revolutionised lighthouse design. Another important innovation from Chance Brothers was the introduction of rotating optics, allowing adjacent lighthouses to be distinguished from each other by the number of times per revolution the light flashes. The noted English physicist and engineer, John Hopkins invented this system while employed at Chance Brothers. Chance Brothers and Company was a glass works and originally based in Spon Lane, Smethwick, West Midlands England. The company became a leading glass manufacturer and a pioneer of British glass making technology. The Chance family originated in Bromsgrove as farmers and craftsmen before setting up a business in Smethwick near Birmingham in 1824. They took advantage of the skilled workers, canals and many other industrial advances taking place in the West Midlands at the time. Robert Lucas Chance (1782–1865), known as 'Lucas', bought the British Crown Glass Company's works in Spon Lane in 1824. The company specialised in making crown window glass, the company ran into difficulty and its survival was guaranteed in 1832 by investment from Chance's brother, William (1788 – 1856). William owned an iron factoring business in Great Charles Street, Birmingham. After a previous partnership that Lucas had dissolved in 1836, Lucas and William Chance became partners in the business which was renamed, Chance Brothers and Company. Chance Brothers invented many innovative processes and became known as the greatest glass manufacturer in Britain. In 1848 under the supervision of Georges Bontemps, a French glass maker from Choosy-le-Roi, a new plant was set up to manufacture crown and flint glass for lighthouse optics, telescopes and cameras. Bontemps agreed to share his processes that up to then had been secret with the Chance Brothers and stayed in England to collaborate with them for six years. In 1900 a baronetcy was created for James Timmins Chance (1814–1902), a grandson of William Chance, who had started the family business in 1771 with his brother Robert. Roberts grandson, James became head of Chance Brothers until his retirement in 1889 when the company became a public company and its name changed to Chance Brothers & Co. Ltd. Additional information: Lighthouses are equipped with unique light characteristic or flashing pattern that sailors can use to identify specific lighthouses during the night. Lighthouses can achieve distinctive light characteristics in a few different ways. A lighthouse can flash, which is when brief periods of light interrupt longer moments of darkness. The light can occult, which is when brief periods of darkness interrupt longer moments of light. The light can be fixed, which is when the light never goes dark. A lighthouse can use a combination of flashing, oscillating, or being fixed in a variety of combinations and intervals to create individual light characteristics. It is a common misconception that a lighthouse's light source changes the intensity to create a light characteristic. The light source remains constant and the rotating Fresnel lens creates the various changes in appearance. Some Fresnel lenses have "bulls-eye" panels create beams of light that, when rotated between the light and the observer, make the light appear to flash. Conversely, some lenses have metal panels that, when rotated between the light and the observer, make the light appear to go dark. This Dioptric clockwork apparatus used to turn a lighthouse optical lens is very significant as it is integral to a lighthouses operation, we can also look at the social aspect of lighthouses as being traditionally rich with symbolism and conceptual meanings. Lighthouses illustrate social concepts such as danger, risk, adversity, challenge and vigilance but they also offers guidance, salvation and safety. The glowing lamp reminds sailors that security and home are well within reach, they also symbolize the way forward and help in navigating our way through rough waters not just on the oceans of the world but in our personal lives be it financial, personal, business or spiritual in nature. Nothing else speaks of safety and security in the face of adversity and challenge quite the way a lighthouse does. Revolving dioptric clockwork apparatus used to turn a Fresnel optical lighthouse lens. A cylindrical cast metal pillar and cabinet painted green with 3 glass doors enclosing the top section. Inside the pillar/cabinet is a large clockwork mechanism used to turn and regulate a lighthouse light by means of weights and a chain attached to same. One door has the name "Adams Mare" in metallic dots similar to "Braille" to the inside edge of door frame.shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, flagstaff hill, maritime-museum, shipwreck-coast, warrnambool, flagstaff-hill-maritime-village, revolving dioptric mechanism, dioptric mechanism for lighthouse, lighthouse clockwork timing mechanism, acetylene lighthouse light mechanism, 19th century lighthouse mechanism, kerosene light, fresnel lenses, colza oil, chance brothers

An anemometer is intended for determining velocity distribution over an area or in a boundary layer. This item was purchased by Mechanical Engineering upon the request of Dr Len Cubitt, to determine wind speed at various heights above the ground. Investigation related to wind energy harnessing projects, including that undertaken by MARS Industries in Ballarat. The 6-cup anemometer had a marked superiority in tests over the 3-cup anemometer and also had lower starting speeds.Anemometer in a case complete with mounting blocks, but without electric leads for connecting the black finished wood case which also incorporates pulse counters and connections for power supply and for other logging instruments. Serial Number AM1-6-8875 Name Plate on lid between clasps. 'RIMCO" RAUCHFUSS INST & STAFF Pty Ltd 12 Monomeath Drive, Mitcham, Vic. 3132" scientific instrument, anemometer, len cubitt, mechanical engineering, energy harnessing projects, starting speeds

Both the Light switch and Door knob were used in Box Cottage during the late 19thC and early 20thC by the Box and Rietman families. William and Elizabeth Box purchased the two ten acre Lots of land with the Cottage in 1868 where they raised their family of 12 children and developed a flower garden producing seedlings. August and Frieda Rietman rented the Cottage 1917 with 1 acre of land and purchased it in 1935 where they raised 2 children while August established Rietman's Landscaping Pty Ltd making pressed concrete garden furniture. Porcelain is a ceramic material made by heating materials, generally including kaolin, in a kiln to temperatures between 1,200 and 1,400 °C The toughness, strength and translucence of porcelain, relative to other types of pottery, arises mainly from vitrification and the formation of the mineral mullite within the body at these high temperatures. Porcelain and other ceramic materials have many applications in engineering, especially ceramic engineering. Porcelain is an excellent insulator for use at high voltage, especially in outdoor applications, see Insulator (electricity)#Material. Examples include: terminals for high voltage cables, bushings of power transformers, insulation of high frequency antennas and many other components. Both the Light switch and Door knob were used in Box Cottage during the late 19thC and early 20thC by the Box and Rietman families. William and Elizabeth Box purchased the land with Cottage in 1868 and raised their familya) An electric light switch that would be attached to a wall. An Ivory Porcelain Base Single Light Switch with antique Brass top b) A porcelain door knob Both items used in Box Cottage early 20th Ca) On base BRITISH MADE / ENGLAND / 4 / 6959 lights, porcelain, electricity, early settlers, moorabbin, cheltenham, bentleigh, box william, box elizabeth, rietman august, rietman frieda, market gardeners, flower gardens, seedling nurseries, world war 1 1914-18, war memorials, sculpture, pottery, pressed concrete, door handles, door knobs

Gasometers resulted from complex engineering design evolving from primitive gasholders first used in 1824 in England to power street lights. The 20th century gasometer, (as used at the Highett Gasworks), was comprised of a series of large interconnected, telescopic, cylindrical vessels or lifts, which rose and fell depending on the volume of gas stored. The gasholder operated on a basic principle of a gas-filled floating vessel, rising and falling in a seal of water. The Highett Gasworks had its beginning in 1939 but its beginnings commenced sixty-two years earlier when the privately owned Brighton Gas Company was floated in 1877. By 1880 the company was performing well and making excellent profits. The company was welcomed by residents wanting to replace the shadowy light of a kerosene lamp with the bright luminescence of "modern" gas lamps. The land developers of the day were also keen supporters. But by 1884 people became disgrunted because either the gas had not reached them yet or because the quality of the supply had diminished due to the increasing use. In 1885 a second private gas company, the Central Brighton and Moorabbin Gas Co, Chaired by "Tommy" Bent was floated and for many years the two gas companies enjoyed a shared monopoly in supplying gas from their New Street Works. In the 1930s the company expanded its gas production facilities to Highett where it had purchased 45 acres of land adjacent to the Melbourne-Frankston railway line. A gasholder with a capacity of 750,000 cubic feet was erected on the Highett land in 1927 and connected with high pressure mains to the Brighton works. Three years later the company directors decided to proceed with the construction of a vertical retort house and coal store. Following a "lull" during the Great Depression work recommenced in 1936 and by 1939 the first complete gas-making plant was completed, and gas making commenced. Over the next twenty one years other significant extensions occurred, including an amenities block to accomodate 100 workers. In 1969 Esso commenced the introduction of natural gas to residents homes and the gradual decommissioning of the Highett Gasworks commenced. Part of the old Highett Gasworks site is now a council owned parkThe photos of the Higett Gasworks, now demolished, recall their long history, that originated in the 1800s with the production of gas to supply homes with a new, much improved light source, and later it's other applications such as for stoves etc. The arrival of gas in the Shire of Moorabbin was a huge step forward that encouraged further building and development in the area.Three Photographs of the Highett Gasworks. Two are coloured photos taken in 1974, and one is black and white taken in the 1960s. All are in good conditionOn the back of the two coloured photographs "Highett Gasworks 1974" No inscription on the black and white aerial photograph.brighton, moorabbin, highett, bent thomas, gasometer, highett gasworks, engineering design, brighton gas company, central brighton and moorabbin gas company, great depression, lamp kerosene

A number of items once belonging to shipwright Norman McKenzie were donated to Flagstaff Hill Maritime Museum and Village. They are related to Norman’s apprenticeship and certification as a Shipwright in Belfast, his Union membership and his employment as a shipwright in Melbourne. One of the items, a union Rules Book inscribed with the name H.B. Thomas and dated 1902, had within its pages Norman’s Indenture of Apprenticeship, dated 1941, Norman Desmond McKenzie was born in Belfast in 1925 and lived at 10 Pansy Street Belfast, Northern Ireland. At the age of 16 years, he began a 5-year Shipwright’s apprenticeship with Harland & Wolff Limited, Shipbuilding & Engineering Works, Belfast. He became a member of the Ship Constructors’ and Shipwrights’ Association, Belfast (B) Branch 20. His Registration Number was 38748. He completed his apprenticeship on December 16th, 1946, aged 21 years, his address was 26 Connsbrook Drive, Sydenham, N. Belfast. In October 1949 Norman received Clearance from his Union as a financial member to move to another branch. He completed his Apprenticeship on December 16th 1946. Two months later he migrated to Australia, and he arrived in Victoria, and he became a Financial Member of the Victorian branch of the Federated Shipwrights, Ship constructors, Naval Architects, Ships’ Draughtsmen and Boat Builders’ Association of Australia, Victoria branch. One of Norman’s donated books is the Rules of the Shipwrights' Provident Union of the Port of London. It is inscribed on several pages with the name H.B. Thomas and includes the year 1902 and the address of 29 Brickwood Street, Gardenvale. This is a location in Victoria, Australia. The Victoria Government Gazette, February 1959, in the section “Removal from Registration on The Architects Registration Board of Victoria, during the year ended 31st December 1956” lists “Deceased – Thomas, H.B., 29 Brickwood Street, Gardenvale”. The Architects Union includes Naval Architects and Shipwrights and other related trades came under the same union. It seems likely that when he was in Melbourne, Norman worked as a Shipwright for H.B. Thomas and was given the Rules book by Thomas, perhaps as a reference book or maybe as a gift. Around that same time, December 1949, Norman met his wife-to-be, Daphne, in Melbourne. Daphne had migrated from London with her family and her father found work with the Melbourne Harbour Trust. They married in Melbourne in 1953 and went on to have a family of five children. In 2003 Norman and Daphne moved to Warrnambool and then years later they celebrated their 60th wedding anniversary. Norman passed away on July 28th 2015 at Warrnambool’s South West Healthcare hospital. SUBJECTS Flagstaff Hill, Warrnambool, Maritime Village, Maritime Museum, Shipwreck coast, Great Ocean Road, Norman McKenzie, Norman Desmond McKenzie, Belfast shipwright, Shipwright's apprenticeship, Harland & Wolff Limited, Shipbuilding & Engineering Works, the Ship Constructors’ and Shipwrights’ Association, Registered Shipwright, Victorian branch of the Federated Shipwrights, Ship constructors, Naval Architects, Ships’ Draughtsmen and Boat Builders’ Association of Australia, Victoria branch, Shipwrights' Provident Union, H.B. Thomas, Architects Registration Board of Victoria, Naval Architect, Daphne, Norman and Daphne McKenzie, Indenture of Apprenticeship SIGNIFICANCE Norman McKenzie's Rules Book, Union Cards, Indenture of Apprenticeship, and other documents tell the story of a young Irish lad's work and qualifications to become a shipwright and his migration to Australia. The young man found a job and a wife who had also migrated, and they raised a family in Melbourne. He and his wife then retired to Warrnambool to enjoy their later years. The collection of documents relating to Norman McKenzie is significant for its connection with the shipping industry of the early 1900s, the migration of qualified tradesmen to Victoria, and their contribution to the development of Victoria. The collection also shows the role of the Union in the shipping industry. The documents link shipwright Norman McKenzie to the Shipwright's Union in London and in Australia, and to shipbuilder H B Thomas in Melbourne, most likely his employer.Norman McKenzie's Rules Book, Union Cards, Indenture of Apprenticeship, and other documents tell the story of a young Irish lad's work and qualifications to become a shipwright and his migration to Australia. The young man found a job and a wife who had also migrated, and they raised a family in Melbourne. He and his wife then retired to Warrnambool to enjoy their later years. The collection of documents relating to Norman McKenzie is significant for its connection with the shipping industry of the early 1900s, the migration of qualified tradesmen to Victoria, and their contribution to the development of Victoria. The collection also shows the role of the Union in the shipping industry. The documents link shipwright Norman McKenzie to the Shipwright's Union in London and in Australia, and to shipbuilder H B Thomas in Melbourne, most likely his employer. Book, small handbook. Rules of the Shipwrights' Provident Union of the Port of London. Rules were Registered with the Shipwrights' Provident Union of the Port of London, Register No. 527, September 28th 1895. A small book with dark blue textured fabric covers. Pages, 56, are bound with staples. The book has handwritten inscriptions dated 1902.Handwritten in black pen: Inside cover, "H.B. Thomas, 1902" Page 45 "H B Thomas, 29 Brickwood Street, Gardenvale" Page 49, handwritten in blue ink "H B Thomas, 1902"flagstaff hill, warrnambool, maritime village, maritime museum, shipwreck coast, great ocean road, norman mckenzie, norman desmond mckenzie, belfast shipwright, shipwright's apprenticeship, harland & wolff limited, shipbuilding & engineering works, the ship constructors’ and shipwrights’ association, registered shipwright, victorian branch of the federated shipwrights, ship constructors, naval architects, ships’ draughtsmen and boat builders’ association of australia, victoria branch, shipwrights' provident union, h.b. thomas, architects registration board of victoria, naval architect, daphne, norman and daphne mckenzie

B.I.T. Papers Summer 1970-71, articles by various contributors, contents include, Building the Melbourne-Bendigo Railway, Engineering in Colonial Times, Source-Bordering Sand Dunes along the Loddon River & others, 66 pages with black and white photographs and maps..history, australian

Esma Turner Collection - ( Esma Turner - secretary of the Huntly and District Historical Society ) Amalgamated Society of Engineers / A4 size booklet plastic cover, cardboard back, plastic binding - front page black and white photo 'Grand Times' Esma Turner with remnants of a once-grand presentation, article Historic portraits create a mystery By Steve Kendall - taken from the Bendigo Weekly - Friday October 31st 2008 relating to the repair of a badly-damaged historic photo presentation, which led to further research into the Amalgamated Society of Engineers. / included in the booklet: - 'the origins of the Amalgamated Society of Engineers / it’s time of operation, its significance or any other detail'.book, engineering, esma turner/ / the huntly and district' s historical society. / article historic portraits create a mystery by steve kendall -/ 'the origins of the amalgamated society of engineers / its time of operation , its significance or any other detail .'

Two documents, one typewritten the other hand written both titled Coliban district branch channels as at 1/11/67. Names of the channels, total length, length lined and length unlined are recorded.civil engineering, water supply, coliban

Approximately thirty seven envelopes containing business correspondence of the Abbott Companies and some personal letters, also contains patents for barbed wire granted in several countries by Harold Abbott and his brother in conjunction with ARC engineering.Harold Abbott and othersorganization, business, abbotts, harold abbott, richard abbott, barbed wire, barblok

The Norman Oliver collection. Norman Oliver was three times Mayor of Bendigo - 1950-51, 1964-65, 1970-71. Twenty pages of typed notes for his radio talk. Undated, but in a bundle with others dated 1950-51. Corrections in blue ink. Topics include: flooding in Bendigo, the Engineer's Report, the Aerodrome and land reclamation, decentralised industries, street trees, noxious trades, the Medical Officer's Report, weights and measures, garbage, and new engineering staff.bendigo, council, speech notes, norman joseph oliver , councillor norman oliver. mayor of bendigo. 3bo

Negatives: 9 transparencies ( or could be photocopies of overhead transparencies ) of mine plans in Bendigo. Enclosed in brown paper wrapper. Written on outside ' A ? Transparencies, A. Richardson' NOTE: Other items in Albert Richardson Collection in Box 130. a. Victoria Quartz Mining Co, South Victoria Col North Old Chum, Lansells 180, b. Gibbs, Ballerstedt, Humboldt Co and Wells, Great Central Victoria Co., Adventure and Advance Co., c. South Victori Co, Victoria Quartz Mining Co., Lansells 180 d. Longitudinal section - unmarked mine e. Gibbs, Ballerstedt Humboldt Co and Wells, Great Central Victoria Co., Adventure and Advance Co. f. South Victoria Co., Victoria Quartz Mining Co., Lansells 180 g. Longitudinal section, unmarked mine h. Gibbs, Ballerstedt, Humboldt Co, and Wells, Adventure and Advance Co. i Longitudinal section, unmarked mineLongitudiunanegative, bendigo, mine plans, bendigo, alf richardson, engineering, mining, mine plans.

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1966. Bendigo Institute of Technology, Engineering School, Applied Science. Cement mixer in background, another section of the floor has been laid. The cement floor is being levelled as other work goes on. Markings: MAY69M8Kodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1966. bendigo institute of technology, engineering school, applied science. cement mixer, section floor laid. cement floor being levelled other work

Photo of Scalebuoy set-up with the driving mechanism in factory. Also shown is the pipe work. On the back are two articles from Transport and Engineering in Australia December 16, 1937. One is about how the Scalebuoy came to be and the other is about Scalebuoy in the Victorian Railways locomotives. The name COCHRANE is embossed on two covers near the top of the large container.sciences, instruments - general, scalebuoy, bill ashman collection - correspondence, photograph of scalebuoy apparatus , victorian railways, kew gardens, mr abbott

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1966. Bendigo Institute of Technology, Engineering School, Applied Science. Speech time over Men in suits are now mingling in background with others. Markings: in black 18 66M8, in yellow, Made in Australia. Spot made with red marker on bottom left corner.Kodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1966. bendigo institute of technology, engineering school, applied science. speech time over men in suits are now mingling with others

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1966. Bendigo Institute of Technology, Engineering School, Applied Science. Speech time, with the men in suits is Ralph Birrell and Sir John Gorton. Members of the public are also in the background, and a white Holden off to the right. Speaker unknown, among the other men are Ralph Birrell and Sir John Gorton. Markings: in red, 18 66M8, in yellow, Made in AustraliaKodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1966. bendigo institute of technology, engineering school, applied science. speech, men in suits, ralf birrell and sir john gorton. members of public white holden. speaker unknown, among the other men are ralph birrell sir john gorton.

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1966. Bendigo Institute of Technology, Engineering School, Applied Science. Speech time, with the men in suits is Ralf Birrell and Sir John Gorton. Markings: in red, 18 66M8, in yellow, Made in Australia. Speaker Ralph Birrell, among the other men is Sir John Gorton.Kodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1966. bendigo institute of technology, engineering school, applied science. speech time ralf birrell sir john gorton

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1966, 1977. Bendigo Institute of Technology, Engineering School, Applied Science. Construction nearing completion, crane and other equipment on site. Tower in back ground. Markings: OCT71M2Kodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1966, 1977. bendigo institute of technology, engineering school, applied science. construction nearing completion, crane and equipment tower

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1970. Bendigo Institute of Technology, Engineering School, Applied Science. Ralph Birrell and other officials mixing with the audience after event.Kodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1970. bendigo institute of technology, engineering school, applied science. ralph birrell officials mixing audience event

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1966. Bendigo Institute of Technology, Engineering School, Applied Science. Ralph Birrell and some other men in suits standing in the construction of the university.Kodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1966. bendigo institute of technology, engineering school, applied science. ralph birrell men suits standing construction university