Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry. The first phonograph cylinders were manufactured in 1888, followed by Edison's foundation of the Edison Phonograph Company in the same year. The recorded wax cylinders, later replaced by Blue Amberol cylinders, and vertical-cut Diamond Discs, were manufactured by Edison's National Phonograph Company from 1896 on, reorganized as Thomas A. Edison, Inc. in 1911. Until 1910 the recordings did not carry the names of the artists. The company began to lag behind its rivals in the 1920s, both technically and in the popularity of its artists, and halted production of recordings in 1929. Thomas A. Edison invented the phonograph, the first device for recording and playing back sound, in 1877. After patenting the invention and benefiting from the publicity and acclaim it received, Edison and his laboratory turned their attention to the commercial development of electric lighting, playing no further role in the development of the phonograph for nearly a decade. Start of the Recording Industry: In 1887, Edison turned his attention back to improving the phonograph and the phonograph cylinder. The following year, the Edison company introduced the ”Perfected Phonograph”. Edison introduced wax cylinders approximately 4+1⁄4 inches (11 cm) long and 2+1⁄4 inches (5.7 cm) in external diameter, which became the industry standard. They had a maximum playing time of about 3 minutes at 120 RPM, but around the turn of the century the standard speed was increased to (first 144) and then 160 RPM to improve clarity and volume, reducing the maximum to about 2 minutes and 15 seconds. Several experimental wax cylinder recordings of music and speech made in 1888 still exist. The wax entertainment cylinder made its commercial debut in 1889 at first, the only customers were entrepreneurs who installed nickel-in-the-slot phonographs in amusement arcades, saloons and other public places. At that time, a phonograph cost the equivalent of several months' wages for the average worker and was driven by an electric motor powered by hazardous, high-maintenance wet cell batteries. After more affordable spring-motor-driven phonographs designed for home use were introduced in 1895, the industry of producing recorded entertainment cylinders for sale to the general public began in earnest. Blank records were an important part of the business early on. Most phonographs had or could be fitted with attachments for the users to make their own recordings. One important early use, in line with the original term for a phonograph as a "talking machine", was in business for recording dictation. Attachments were added to facilitate starting, stopping, and skipping back the recording for dictation and playback by stenographers. The business phonograph eventually evolved into a separate device from the home entertainment phonograph. Edison's brand of business phonograph was called the Ediphone. The collection of three phonograph cylinders are an example of early recorded music use for domestic entertainment. They are significant as they represent the beginnings of the modern recording industry.Cardboard tube-shaped gramophone cylinder box with lid. The printed label on the outside of the box advertises the maker and patent details. The Catalogue Number and Title are either printed or hand written on the cylinder’s lid. This cylinder contained Record no. 13619, the recording “Poor old England” published by Castling and Godfrey, sung by Billy Williams. Made by National Phonograph Company USA. C.1907On lid “Edison Record” and “This record should turn at 160 revolutions per minute, no faster” Written on lid in blue pen “Trumpet”, “EDISON AMBEROL RECORD / FOUR MINUTE”warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, gramophone record, gramophone cylinder, edison cylinder, edison record, home entertainment, music recording, edison laboratory orange nj, usa, national phonograph company of australia ltd sydney, thomas a. edison

Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry. The first phonograph cylinders were manufactured in 1888, followed by Edison's foundation of the Edison Phonograph Company in the same year. The recorded wax cylinders, later replaced by Blue Amberol cylinders, and vertical-cut Diamond Discs, were manufactured by Edison's National Phonograph Company from 1896 on, reorganized as Thomas A. Edison, Inc. in 1911. Until 1910 the recordings did not carry the names of the artists. The company began to lag behind its rivals in the 1920s, both technically and in the popularity of its artists, and halted production of recordings in 1929. Thomas A. Edison invented the phonograph, the first device for recording and playing back sound, in 1877. After patenting the invention and benefiting from the publicity and acclaim it received, Edison and his laboratory turned their attention to the commercial development of electric lighting, playing no further role in the development of the phonograph for nearly a decade. Start of the Recording Industry: In 1887, Edison turned his attention back to improving the phonograph and the phonograph cylinder. The following year, the Edison company introduced the ”Perfected Phonograph”. Edison introduced wax cylinders approximately 4+1⁄4 inches (11 cm) long and 2+1⁄4 inches (5.7 cm) in external diameter, which became the industry standard. They had a maximum playing time of about 3 minutes at 120 RPM, but around the turn of the century the standard speed was increased to (first 144) and then 160 RPM to improve clarity and volume, reducing the maximum to about 2 minutes and 15 seconds. Several experimental wax cylinder recordings of music and speech made in 1888 still exist. The wax entertainment cylinder made its commercial debut in 1889 at first, the only customers were entrepreneurs who installed nickel-in-the-slot phonographs in amusement arcades, saloons and other public places. At that time, a phonograph cost the equivalent of several months' wages for the average worker and was driven by an electric motor powered by hazardous, high-maintenance wet cell batteries. After more affordable spring-motor-driven phonographs designed for home use were introduced in 1895, the industry of producing recorded entertainment cylinders for sale to the general public began in earnest. Blank records were an important part of the business early on. Most phonographs had or could be fitted with attachments for the users to make their own recordings. One important early use, in line with the original term for a phonograph as a "talking machine", was in business for recording dictation. Attachments were added to facilitate starting, stopping, and skipping back the recording for dictation and playback by stenographers. The business phonograph eventually evolved into a separate device from the home entertainment phonograph. Edison's brand of business phonograph was called the Ediphone. The collection of three phonograph cylinders are an example of early recorded music use for domestic entertainment. They are significant as they represent the beginnings of the modern recording industry.Cardboard tube-shaped gramophone cylinder box with lid. The printed label on the outside of the box advertises the maker and patent details. The Catalogue Number and Title are either printed or hand written on the cylinder’s lid. This cylinder was made by Edison 1908 and contains Record number 53 by Sandy McNab. c. 1908On label “Edison Record No. 53, Sandy McNab" and "Form no. 1130, April 1908. Patented December 6 1904, No. 2109, and December 6 1904 No. 2110. “This record is sold by the National Phonograph Company of Australia Ltd, at Sydney Australia.” Trade Mark Thomas A. Edison warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, gramophone record, gramophone cylinder, edison cylinder, edison record, home entertainment, music recording, edison laboratory orange nj, usa, national phonograph company of australia ltd sydney, thomas a. edison

Edison Records was one of the early record labels that pioneered sound recording and reproduction, and was an important player in the early recording industry. The first phonograph cylinders were manufactured in 1888, followed by Edison's foundation of the Edison Phonograph Company in the same year. The recorded wax cylinders, later replaced by Blue Amberol cylinders, and vertical-cut Diamond Discs, were manufactured by Edison's National Phonograph Company from 1896 on, reorganized as Thomas A. Edison, Inc. in 1911. Until 1910 the recordings did not carry the names of the artists. The company began to lag behind its rivals in the 1920s, both technically and in the popularity of its artists, and halted production of recordings in 1929. Thomas A. Edison invented the phonograph, the first device for recording and playing back sound, in 1877. After patenting the invention and benefiting from the publicity and acclaim it received, Edison and his laboratory turned their attention to the commercial development of electric lighting, playing no further role in the development of the phonograph for nearly a decade. Start of the Recording Industry: In 1887, Edison turned his attention back to improving the phonograph and the phonograph cylinder. The following year, the Edison company introduced the ”Perfected Phonograph”. Edison introduced wax cylinders approximately 4+1⁄4 inches (11 cm) long and 2+1⁄4 inches (5.7 cm) in external diameter, which became the industry standard. They had a maximum playing time of about 3 minutes at 120 RPM, but around the turn of the century the standard speed was increased to (first 144) and then 160 RPM to improve clarity and volume, reducing the maximum to about 2 minutes and 15 seconds. Several experimental wax cylinder recordings of music and speech made in 1888 still exist. The wax entertainment cylinder made its commercial debut in 1889 at first, the only customers were entrepreneurs who installed nickel-in-the-slot phonographs in amusement arcades, saloons and other public places. At that time, a phonograph cost the equivalent of several months' wages for the average worker and was driven by an electric motor powered by hazardous, high-maintenance wet cell batteries. After more affordable spring-motor-driven phonographs designed for home use were introduced in 1895, the industry of producing recorded entertainment cylinders for sale to the general public began in earnest. Blank records were an important part of the business early on. Most phonographs had or could be fitted with attachments for the users to make their own recordings. One important early use, in line with the original term for a phonograph as a "talking machine", was in business for recording dictation. Attachments were added to facilitate starting, stopping, and skipping back the recording for dictation and playback by stenographers. The business phonograph eventually evolved into a separate device from the home entertainment phonograph. Edison's brand of business phonograph was called the Ediphone. The collection of three phonograph cylinders are an example of early recorded music use for domestic entertainment. They are significant as they represent the beginnings of the modern recording industry.Cardboard tube-shaped gramophone cylinder box with lid. The printed label on the outside of the box advertises the maker and patent details. The Catalogue Number and Title are either printed or hand written on the cylinder’s lid. This cylinder contained Record no. 49, “B & H Jack” and was made at the Edison Laboratory USA. C. 1905On lid “Edison Record No. 49”, written in pencil “B & H Jack” (it looks like this) On cylinder “EDISON GOLD MOULDED RECORDS ECHO ALL OVER THE WORLD” Patents listed for 1904 & 1905warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, gramophone record, gramophone cylinder, edison cylinder, edison record, home entertainment, music recording, edison laboratory orange nj, usa, national phonograph company of australia ltd sydney, thomas a. edison

Large paper document including colour illustrations of Melbourne Harbor Trust shield and other shields. Includes three wax seals attached to document with blue ribbon."To All and Singular to whom these presents shall come, Sire Anthony Richard Wagner/ Knight Commander of the Royal Victorian Order Garter Principal King of Arms. Sir John Lunamace Heaton Arm/ Strong Knight, Member of the Royal Victorian Order. Clarenceux King of Arms an Aubrey John Toppin Esquire/ Commander of the Royal Victorian Order. Norroy and Ulster King of Arms Send Greeting! Whereas Victor/ George Swanson. Esquire upon whom has been conferred the Australian Efficiency Decoration Chairman of the Melbourne Harbor/ Trust Commissioners hath represented unto The Most Noble Bernard Marmaduke, Duke of Norfolk, Knight of the Most/ Noble Order of the Garter Knight Grand Cress of the Royal Victorian Order, Earl Marshal and Hereditary Marshal of/ England and one of Her Majesty's Most Honourable Privy Council that the Melbourne Harbor Trust Commissioners is a body/ corporate with perpetual succession and a Common Seal duly constituted by Act of Legislature of the Colony of Victoria number/ DLII bearing date Twenty second day of December 1876 the said Act having been amended from time to time and various Acts passed consolidating such amendments that under the said/ Act the exclusive management and control of the port and the preservation and improvement of the port generally as vested in the said Commissioners. That the Melbourne Harbour Trust/ Commissioners being desirous of having Armorial Bearings, Supporters and a Device or Badge duly assigned under lawful authority and he hath therefore requested the favour of His Grace's/ Warrant for Ouigranting and assigning such Armorial Ensigns and in the same Patent such Supporters and such Device or Badge as may be proper to be borne and used by the Melbourne/ Harbor Trust Commissioners on Seals otherwise accoding to the Laws of Arms. And forasmuch as the said Earl Marshal did by warrant under his hand and Seal bearing date the Sev-/ enth day of March 1962 authorize and direct Us to grant and assign such Armorial Ensigns and such Supporters and such Device or Badge Accordingly. Know ye therefore that we/ the said Garter Clarenceux and Norroy and Ulster in pursuance of His Grace's warrant and by virtue of the Letters of Patent of Our several offices to each of us respectively granted do/ by these Presents grant and assign unto the Melbourne Harbor Trust Commissioners the Arms following that is to say: Azure a representation of the constellation of the Southern Cross/ Argent on a Chief enarched on five Pallets of the first. And for the Crest Out of a Coronet composed of eight Masts each with sail set and upon Rim Or in front of a Bollard proper/ two Anchors in saltire Azure Mantled figure doubled Argent as the same are in the margin here of more plainly depicted. And by the Authority aforesaid We do/ further grant and assign the following Device or Badge that is to say: Two Anchors in saltire Argent as here depicted And by the Authority aforesaid the said Garter/ do by these Presents further grant and assign unto the Melbourne Harbor Trust Commissioners the Supporters following that is to say : On either side a Sea Horse/ (Hippocampus) or collared and lined Gules in front of a representation of the Melbourne Harbour front proper as the same are also in the margins here of more/ arms plainly depicted the whole to be borne and used forever hereafter by the Melbourne Harbour Trust Commissioners on seals otherwise according to the laws of/ Arms. In witness whereof we the said Garter Clarenceux and a Norroy and Ulster Kings of Arms have to these presents subscribed Our names and affixed the seals/ Of our Several offices this fith day of March in the Twelfth Year of the reign of our Soveriegn Lady Elizabeth the Second by the Grace of God of the United Kingdom of Great/ Britain and Northern Ireland and of Her other Realms and Territories Queen head of the Commonwealth Defender of the Faith and in the years of Our Lord One Thousand nine/ hundred and sixty three" "Prosperity Through Service"

This image shows a pathway in the gardens adjacent to Beechworth's Town Hall at the beginning of the Twentieth Century, around the time of Australia's Federation. The pathway leading to a circular rotunda or covered seating area with a steep conical roof is lined with shrubs set in grass verges that appear to be covered with snow. It is unknown whether the snowfall or a factor to do with the gardens occasioned the taking of the image, which at the time may have been an exotic practice. Climate records going back to 1908 indicate that snow in winter is not unusual due to Beechworth's elevation and orientation, and the Town Hall itself was built in 1859. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques. This glass slide is significant because it provides insight into Beechworth's social amenities and climate in the early Twentieth Century, around the time of Australia's Federation into one nation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period. Thin translucent sheet of glass with a circular image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, town hall, town hall gardens, snow, rotunda, magic lantern, indigo shire, north-east victoria, nineteenth century, 1900s, twentieth century, emulsion slides

This image shows the gorge adjacent to Beechworth in approximately 1900. Although the exact location of the photograph is yet to be determined, the present-day Beechworth Gorge Walk includes views of the Cascades at the point at which Spring Creek flows into the valley on the level below. Gold-sluicing techniques in use in the town during periods of active gold extraction may have altered the landscape since the photograph was taken, however. In the 1850s a mill was built at the top of the Spring Creek falls by Russian-born Louis Chevalier, brother of artist Nicholas Chevalier. The mill supplied the town with lumber that supported the town's initial construction boom. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and natural landscape in the early Twentieth Century, around the time of Australia's Federation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, indigo shire, north-east victoria, spring creek falls, beechworth gorge, louis chevalier, nicholas chevalier, lumber industry, timber industry, 1850s, construction, building, mill, mills, waterfall

This image shows the gorge adjacent to Beechworth in approximately 1900. Although the exact location of the photograph is yet to be determined, the present-day Beechworth Gorge Walk includes views of the Cascades at the point at which Spring Creek flows into the valley on the level below. Gold-sluicing techniques in use in the town during periods of active gold extraction may have altered the landscape since the photograph was taken, however. In the 1850s a mill was built at the top of the Spring Creek falls by Russian-born Louis Chevalier, brother of artist Nicholas Chevalier. The mill supplied the town with lumber that supported the town's initial construction boom. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's built environment and natural landscape in the early Twentieth Century, around the time of Australia's Federation. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, beechworth gorge, indigo shire, landscapes, mill, sluicing, gold mining, north-east victoria, spring creek, louis chevalier, cascades

The basic balance scale has been around for thousands of years and its accuracy has improved dramatically over the last several centuries, the principle behind this tool remains unchanged. Its parts include a fulcrum, a beam that balances on it, a pan at the end of the beam to hold the materials to be weighed, and a flat platform at the other for the counter-balancing weights. Balance scales that require equal weights on each side of the fulcrum have been used by everyone from apothecaries and assayers to jewellers and postal workers. Known as an unequal arm balance scale, this variety builds the counterweight into the device. Counter scales used in dry-goods stores and domestic kitchens often featured Japanned or (blackened) cast iron with bronze trims. Made by companies such as Howe and Fairbanks, the footed tin pans of these scales were often oblong, some encircled at one end so bulk items could be easily poured into a bag. Seamless pans were typically stamped from brass and given style names like Snuff (the smallest) and Birmingham (the largest). Some counter scales were designed for measuring spices, others for weighing slices of cake. In the 18th century, spring scales began to appear and would use the resistance of spring to calculate weights, which are read automatically on the scale’s face. The ease of use of spring scales over balance scales. These scales are significant as they identify one of the basic preparation items for the weighing of foodstuff in the family kitchen to prepare everyday meals. This item is significant as it gives a snapshot into domestic life within the average home in Australia around the turn of the twentieth century and is, therefore, an item with social relevance. Black cast iron, medium weighing scales, with a fulcrum which the beam that balances on, there is a scoop or large bowl at one end for the material to be weighted and a flat platform at the other end that holds the weights. Around the cast iron base is an embossed strip weight and bowl missing.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

George Reed was a draftsman living in the City of Moorabbin c 1950 1899, David Misell, invented this "electric device" ( torch / flashlight) powered by "D" batteries laid front-to-back in a paper tube with the light bulb and a rough brass reflector at the end. Misell assigned his invention over to the American Electrical Novelty and Manufacturing Company owned by Conrad Hubert. In 1905, Hubert changed the name again to The American Ever Ready Company, selling torches / flashlights and batteries under the trademark Ever Ready. In 1906 the British Ever Ready Electrical Company was formed for export of batteries; it became independent in 1914. The American Ever Ready Company became part of National Carbon Company in 1914. The trademark was shortened to Eveready. In 1986, Union Carbide sold its Battery Products Division to Ralston Purina Company becoming the Eveready Battery Company, Inc. and in 1992, it bought the British Ever Ready Electrical Company. Prior to March 1, 1980, the company's alkaline battery had been called the Eveready Alkaline Battery (1959–1968), Eveready Alkaline Energizer (1968–1974) and Eveready Alkaline Power Cell (1974–February 29, 1980). On March 1, 1980, it was rebadged under its current name, Energizer. 2019 production plant in Portage, Wisconsin, but the majority of batteries are made in China and there are also numerous production facilities outside the US. This is an industrial strength Eveready Torch made in England and was used by George Reed, a draftsman, who lived in Bentleigh , City of Moorabbin in mid 20th CLarge 'Eveready' industrial hand torch/ flashlight with rubber protective coverEVEREADY /MADE IN ENGLAND clothing, manufactured lace, dressmaking, blouses, theatrical props, lights, torches, lighting, early settlers, moorabbin shire, mechanics institute cheltenham, postworld war 11 settlers, housing estates moorabbin 1950, bentleigh, ormond, moorabbin, cheltenham, , clark judy, reed gladys, reed george

The Masons patent of Nov 30th, 1858 phrase was originally embossed on countless glass fruit jars and canning jars, most ranging in age from circa 1858 to the mid-1910s. John Landis Mason was awarded patent No 22186, issued on November 30, 1858, by the U.S. Patent & Trademark Office it was termed an "Improvement in screw-neck bottles", for his invention concerning the process of creating a threaded screw-type closure on bottles and jars. Similar screw-threading had been done before on some bottles, but the process of forming the upper lip area of the container so that it was smooth, even, and sturdy enough for a lid of standard size to be screwed thereon was difficult and expensive to do properly, often with unsatisfactory results. His improvement revolutionized home canning in the United States and many other countries. In any case, throughout the next 60-odd years, production of jars with the Nov. 30, 1858 embossing continued at a high rate, with untold tens of millions being produced. The phrase was soon considered an important marketing device, adding to the perception of quality and reliability of the container to the average consumer. This perception continued to at least 1879 21 years after the patent was issued, nearly every glass bottle factory was likely producing their version. The 1880s and 1890s likely saw the peak of popularity of these jars. A considerable percentage have a mold number or letter on the base, a means of identifying the particular mold in use at the factory.An early item used in most kitchens by women who preserved fruit and vegetables before the arrival of refrigeration giving a snapshot into the domestic lives of families during the late 19th to early 20th century's and how they preserved food for later use without refrigeration. Preserving jar, glass, with metal screw top lid. Glass has side seams, impurities and slightly concave base. It has been hand blown into a mould. Inscription is moulded into glass. Moulded into glass: MASON'S / PATENT / NOV 30TH / 1838"warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, food preserving, mason jar, john landis mason, domestic container, glass jar, fruit & vegetable jar, domestic jar, food preparation, handmade glass, blown glass

The Masons patent of Nov 30th, 1858 phrase was originally embossed on countless glass fruit jars and canning jars, most ranging in age from circa 1858 to the mid-1910s. John Landis Mason was awarded patent No 22186, issued on November 30, 1858, by the U.S. Patent & Trademark Office it was termed an "Improvement in screw-neck bottles", for his invention concerning the process of creating a threaded screw-type closure on bottles and jars. Similar screw-threading had been done before on some bottles, but the process of forming the upper lip area of the container so that it was smooth, even, and sturdy enough for a lid of standard size to be screwed thereon was difficult and expensive to do properly, often with unsatisfactory results. His improvement revolutionized home canning in the United States and many other countries. In any case, throughout the next 60-odd years, production of jars with the Nov. 30, 1858 embossing continued at a high rate, with untold tens of millions being produced. The phrase was soon considered an important marketing device, adding to the perception of quality and reliability of the container to the average consumer. This perception continued to at least 1879 21 years after the patent was issued, nearly every glass bottle factory was likely producing their version. The 1880s and 1890s likely saw the peak of popularity of these jars. A considerable percentage have a mold number or letter on the base, a means of identifying the particular mold in use at the factory.An early item used in most kitchens by women who preserved fruit and vegetables before the arrival of refrigeration giving a snapshot into the domestic lives of families during the late 19th to early 20th century's and how they preserved food for later use without refrigeration. Preserving glass jar. Glass lip with metal screw top lid. Inscription pressed into glass."Mason's Patent Nov 30th 1858"warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, food preserving, mason jar, john landis mason, domestic container, glass jar, fruit & vegetable jar, food storage, preserving jar

Designed and built in the early 1920’s by Charles Robert Prosser , a Melbourne Engineer, for an enquiry by the Commonwealth Government into ways of solving the break of gauge problem. Breaks or changes in railway gauges existed at most state borders of Australia during the first half of the 20th century. Upon completion of this model, it was placed on display in the Federal Parliament then located in Parliament House, Melbourne. Patents on the Break of Gauge Bogie Application number Title Applicant(s) Inventor(s) Filing date 1921000390 Improved means of adjusting the wheels of rolling stock to suit railway tracks of different gauges Charles Robert Prosser Charles Robert Prosser 1921-02-01 1917004843 Improvements in and connected with railway or other ticket supply tubes Charles Robert Prosser Charles Robert Prosser 1917-08-09 1915016191 IMPROVEMENTS IN AND CONNECTED WITH THE ADAPTATION OF RAILWAY ROLLING STOCK TO DIFFERENT GAUGES Charles Robert Prosser Charles Robert Prosser 1915-05-01 1915015980 Improvements in and connected with the adaptation of railway rolling stock to different gauges Charles Robert Prosser Charles Robert Prosser 1915-04-09 1914012931 Improvements in and connected with the adaptation of railway rolling stock to different gauges Charles Robert Prosser Charles Robert Prosser 1914-04-20 The Sydney Morning Herald Fri 2 Sep 1921 Page 6 BREAK OF GAUGE DEVICE. http://nla.gov.au/nla.news-article28088233 Historic - Railway Invention Break of Gauge Bogie Break of Gauge Bogie made of iron and wrought iron & brassboggie, break of gauge, puffing billy

A separator is a centrifugal device that separates milk into cream and skimmed milk. Separation was commonly performed on farms in the past. Most farmers milked a few cows, usually by hand, and separated milk with a hand operated machine for domestic use. The milk was poured into the bowl on the top and the handle had to then be turned fast enough to get the separator up to speed adequate to separate the cream and the milk. The milk would come out of one spigot and the cream out of the other. In general practice some of the skimmed milk was consumed by the family, while the rest may have been used to feed calves and pigs. Enough cream was saved to make butter, and the excess was sold. In many cases excess could be bartered or swapped with neighbours for other items of produce. ALFA-LAVAL SEPARATORS The principal works and head office of Aktiebolaget Separator was established by Gustaf de Laval in Stockholm. The first Laval milk separator was patented in1884. In Australia three old established firms commenced pioneering the Alfa Laval cream separators in about 1885. These were A. W. Sandford & Co. Ltd., in Adelaide, J. Bartram & Son, of Melbourne, who have ever since been the Victorian agents of Aktiebolaget Separator. In New South Wales and Queensland, the pioneering firm was Waugh & Josephson Ltd. J. Bartram & Son, the distributor of the separator in this collection, established their business in Melbourne in 1881. In 1892 Bartram & Son estimated that 1,130 of these machines were operating throughout Victoria. This item is significant as it is representative of domestic and dairying machinery used throughout rural areas of Australia in the early to mid 20th century.The separator is made in 3 sections. The base is made from cast iron. The cover and vat are made from silver painted tin. There are 2 outlet spouts. The detachable handle, made from cast iron and wood, is held in place by a screw. A name plate featuring the Victorian distributor, J Bartram & Son of Melbourne and a plate outlining patent information are attached to the base by screws.Around edge of wheel "Aktiebolaget Separator Stockholm/ 2236"dairying industry, dairy machinery, milk separators

The design of the corkscrew may have been derived from the gun worm, which was a device from at least the early 1630s, used by men to remove unspent charges from a musket's barrel in a similar fashion. The corkscrew is possibly an English invention, due to the tradition of beer and cider, and the 'Treatise on Cider' by John Worlidge in 1676 describes "binning of tightly corked cider bottles on their sides", although the earliest reference to a corkscrew is, "steel worm used for the drawing of Corks out of Bottles" from 1681. In 1795, the first corkscrew patent was granted to the Reverend Samuel Henshall, in England. The clergyman affixed a simple disc, now known as the Henshall Button, between the worm and the shank. The disc prevents the worm from going too deep into the cork, forces the cork to turn with the turning of the crosspiece, and thus breaks the adhesion between the cork and the neck of the bottle. The disc is designed and manufactured slightly concave on the underside, which compresses the top of the cork and helps keep it from breaking apart. In its traditional form, a corkscrew is simply a steel screw attached to a perpendicular handle, made of wood or some other material. The user grips the handle and screws the metal point into the cork, until the helix is firmly embedded, then a vertical pull on the corkscrew extracts the cork from the bottle. The handle of the corkscrew allows for a commanding grip to ease removal of the cork. https://en.wikipedia.org/wiki/CorkscrewThis object is significant as an example of an item in common use since the late 17th century.Metal corkscrew with wooden handle that is partly broken. Has metal steel spike to create a starting point for the use of the corkscrew. Very rusty. None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, corkscrew, beverages, kitchen equipment, bottle opener

This testing voltmeter recorder was last certified by SEC Vic laboratories on the 17/4/77. It was used extensively as mobile recorder placed for periods of one month at locations experiencing unacceptable fluctuations of power. These locations would cover the North East regions of Victoria. They cover voltage drops at domestic and business properties especially those that were experiencing regular fluctuations(daily) at approximately the same time of the day. As the electrical network is required to operate within a set level of voltage, fluctuations outside of this has to be investigated and necessary remedial action taken. This is especially so for rural properties where power "drainage" can occur through animal/bird and tree interference. It can also be the result of defective wiring and overloading at peek operational times (milking machines).This mobile voltage recorder is very significant to the Kiewa Valley because it highlights the difficulties that can occur in maintaining a power supply that experiences fluctuating power demands by the rural industries that it supplies. The requirement of a mobile testing apparatus to cover the various sections in the Kiewa Valley and other rural areas in the northeast region is one of necessity as electricity once connected to a rural property is a labour saving supply as generators on rural properties require a higher degree of maintenance an ultimately at a higher cost. The testing of the SEC Vic supplied electricity to rural properties,those who had previously run on generators, had to be quick and unassuming with certainty of correct supply levels.The mechanism of this voltage recorder has been installed(by the manufacturer) into its own protective wooden box. This box has a front (swing open) lockable section which permits direct access to the installed measuring equipment (for servicing and data collection). The top section of the box has two screw on terminals for access to the machine being tested. This tester has its own inbuilt ink supply facilities and a mechanical clockwork device that unwinds a roll of paper onto a second roll at a rate of 10 mm per hour. The recording chart is marked with time slots against voltage. There is a recording arm which has an ink pen at the end. Both arm and pen carry the ink supply from the ink reservoir, located on the left side of the cabinet door in specially constructed bottle holder( three small bottle capacity). To record a suspect power problem to a home or business establishment the voltmeter is connected to a power supply outlet being tested and wind the recording clockwork mechanism (gives a four week running time). Before leaving the recorder in situ the electrician checks to see if the chart is recording the correct voltage and that the clock mechanism is advancing correctly.On the front of the access "door" at the top a metal label "RECORDING AMMETER" below this "MURDAY SYSTEM" below this "ALTERNATING CURRENT" and below this the manufacturer's registered number "No. 139156" Below this is a metal tag with State Electricity Commission of Victoria Electrical Engineer's Section equipment number "338" Below these tags and above the viewing window is the manufacturer's dtails "EVERSHED & VIGNOLES Led LONDON"sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall, power outages

This image of a man on horseback is thought to have been taken in Beechworth in approximately 1900. The man pictured may be Chinese. Chinese miners were a significant cultural group in Beechworth's gold rush period. Carole Woods' history of Beechworth, 'A Titan's Field', details a rapid increase in the Chinese population beginning in 1856 that led to Government discrimination and hostility from other miners. Many Chinese people who came to the Victorian goldfields had formerly worked as merchants, mechanics, farmers and shop-keepers. The pictured individual is wearing Western-style clothes indicating prosperity, such as a top hat, so may have held an official position or provided services to the community rather than working as a miner. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and Woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's cultural and social relationships in the early Twentieth Century, in particular the experiences of Chinese people. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a circular image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, magic lantern, indigo shire, north-east victoria, nineteenth century, 1900s, twentieth century, emulsion slides, chinese, chinese miners, immigration, racism, classism, social groups, cultural groups, horse riding, horses, equestrian, horseback

A cigarette lighter is a portable device used to generate a flame. It consists of a metal or plastic container filled with a flammable fluid or pressurized liquid gas, a means of ignition, and some provision for extinguishing the flame. A spark is created by striking metal against a flint, or by pressing a button that compresses a piezoelectric crystal (piezo ignition), generating an electric arc. In naphtha lighters, the liquid is sufficiently volatile, and flammable vapour is present as soon as the top of the lighter is opened. Butane lighters combine the striking action with the opening of the valve to release gas. The spark ignites the flammable gas causing a flame to come out of the lighter which continues until the top is closed (naphtha type), The Beney Company was founded by Robert Ernest Beney of London, England. R. E. Beney invented and marketed the first Beney mechanical lighter in 1919. Beney also designed and manufactured numerous luxury lighters and striker boxes for Alfred Dunhill of London as well as Hermes of Paris. In 1938, Beckenham based Beney Lighters was acquired, adding utility lighters and precision tools to the company's (Winn & Coates) ever growing list of products. The biggest selling line manufactured by Beney was the Economic Gas Lighter which hung on the side of housewife's gas cookers and was also used for lighting Bunsen burners in laboratories. In 1939-1940 the company moved its administration to the Beney Lighter premises in Beckenham after the Head Office at Trinity Square along with many company records were destroyed in a 'doodlebug' flying bomb attack. Beney Ltd. continued producing lighters at least through the late 1954. A green metal cigarette lighter that used fuel and a striking action arm to produce a flame .base: BENEY / COMPANION / PATENT 568897 / BRITISH MADEtobacco, cigarettes, cigarette lighters, fuels, moorabbin, cheltenham, bentleigh, early settlers, beney pty ltd, beckenham england

The company was originally founded by Frederick Perkins a Russian immigrant schooled in Germany as a machinist and tool and die, maker. Frederick came to the United States in the early 1890s and soon became employed as a machinist for E.W. Bliss & Company in Brooklyn, New York. In the early 1900s, he and a partner began operating a business, F. Persky & Company, Lantern Manufacturer, out of the basement of his house. In 1907, Frederick's son Louis joined him in the business, and together they enlarged both the product line and the manufacturing facilities. By 1912, they had seventeen employees and made a wide range of marine lanterns and products. The business continued operating until 1913 when Frederick became president of National Marine Lamp Company, based out of Forestville, Connecticut. Frederick and Louis left that company in 1916 and moved back to Brooklyn, New York, where they started Perkins Marine Lamp Corporation. Five generations later, PERKO is still a privately owned, family-operated corporation. Perkins Marine Corporation was initially known as Perkins Marine Lamp, Inc. The original focus was on the manufacture of hand-formed sheet metal products for the marine market. The first “Perko” catalogue was published in 1916. It included a full range of kerosene and electric lanterns for small and large boats, ventilators, chart cases, signalling devices, mooring buoys, pumps and a variety of spare parts. These products, fabricated from brass, copper and galvanized sheet metal, began a reputation for producing high-quality products. In 1922, the "PERKO" trademark was instituted with each new product utilising the latest, sophisticated metal manufacturing technology.A significant item from an American manufacturer that specialises in making marine products and is still in business today under the same trade name. The subject item is significant as it was made not long after the trade name of PERKO was registered in 1922 and began to be used on the company's various products.Kerosene lamp with circular fuel tank and chrome plated reflector shield. "PERKO" stamped on base.warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, kerosene lamp, marine lamp, perko inc, lighting, marine accessories manufacturer

The auto tow launching mechanism was designed by Ray Jamieson of Cobram in the north of Victoria. The prototype was built the for the Corowa Gliding Club where it was used for some years. After Ray’s brother, Bert Jamieson, had witnessed the machine in use at Corowa, at Bert’s request, Ray built second one (the Museum’s exhibit) for use at Bacchus Marsh airfield. Bert lived in Melbourne at the time and was a member of the Victorian Motorless Flight Group (VMFG) which used Bacchus Marsh airfield. This occurred in the 1970s. The method of operation was to have the auto tow mechanism mounted in the back of a utility motor vehicle. The launching cable was attached to the glider. With the Volkswagen engine of the mechanism running, the tow vehicle would then drive along the runway to commence the launch. The mechanism would automatically apply brake pressure to the cable drum as the vehicle proceeded freely letting out the cable and then smoothly towing the glider into the air. When the launching cable reached a certain angle, the pilot would release the cable from the glider at which point the winching mechanism would automatically retrieve the cable in preparation for the next launch. This allowed quicker restarts and the flexibility of easily changing runways to suit the wind conditions. It made gliding a simple and cost-effective operation. Ray Jamieson and his son often used the prototype which they named “George” at Corowa in this way. With the exception of several demonstration launches, the Museum’s example of this type of device was not used by the VMFG at Bacchus Marsh due to rulings by the Department of Civil Aviation encouraging the use of aero tow launching at their site. As far as is known this is the only device of its type in the world and is indicative of the ingenuity found amongst the Australian gliding fraternity.Single drum and motorized drive mechanism mounted on a mobile steel frame.australian gliding, glider, sailplane, auto towing, launching, jamieson, corowa gliding club, victorian motorless flight group, vmfg

This model was found in the collection of Bay Steamers Maritime Museum. It is not knowt who created it but it is supposed that it was constructed to educate the many masters of the Wattle in the operation of a steam engine - a not so common mode of power these days. A Bay Steamers Maritime Museum examined the model in March 2012 and discovered that is was in poor repair. Using his existing knowledge, and with reference to some historic texts, he made some repairs and returned the model to working order. Here is his anaylsis of the situation as an excerpt from the Bay Steamers Maritime Museum newsletter Steamlines May 2012 "I was confronted with a model of a steam engine used years ago as a training aid for hopeful steam engineers. Already having a knowledge of steam operations, I considered a museum write-up for that model a ‘piece of cake’. However, on turning the model’s crankshaft, the valve timing seemed ‘out of kilter’ with the movement of the piston. Problem was that the two eccentrics on the crankshaft were not properly secured to it. Eventually I fastened the two eccentrics to the crankshaft where I felt that they should be and then realized that one of them had a chain-driven valve-timing device attached. This would be adjusted while an engine was running to achieve best performance and fuel economy whilst in operation by accurately controlling the period of time during which steam under pressure from the boiler would be admitted to the cylinder and give greater time for the steam to expand in the cylinder, move the piston and turn the crankshaft and thus, drive the attached apparatus. When the valves were correctly set up it was then possible to get the model to function properly.The model comprises a green section, which is the actual the model mounted on a brown painted board. There are two parts of the model, painted white representing the steam passages, and black representing the cast- iron portions of the cylinder-block casting, and of the main valve sliding between the cylinder a second sliding valve. Of the black portions, one slides back and forth being connected to a rod which is connected to an eccentric clamped to the crankshaft and is the nearer to the flywheel of two eccentrics. This eccentric is attached to the crankshaft at an angle of 90 degrees to the crank-pin attached to the flywheel. To operate the model simply turn the flywheel by means of the handle attached to its crank-pin. A second eccentric is also attached to the crankshaft, further away from the first eccentric, and it is adjusted to operate 90 degrees from the first eccentric (that is, 180 degrees from the crank-pin) A piston (painted silver) is located in a plastic cylinder and has a piston rod which passes through one end of the cylinder, (in actual practice a steam-proof gland seals the cylinder against loss of steam) terminating in a cross-head slide between four rails guiding it. From this cross-head, a connecting rod joins the piston-rod to the flywheel via the crank-pin attached to the flywheel which is part of the crankshaft. (In actual practice, a flywheel may not be used, particularly in a multi-cylinder engine.) The white portions of the model painted nearest to the cylinder represent the two steam ports cast into the main cylinder block, whilst one section painted in between those two represents the exhaust outlet (which may be connected to a condenser to conserve water, or to the open air). The main slide valve has three white-painted portions painted thereon. It has two white-painted marks representing the steam passages to the steam ports into the cylinder, and a third section in between the other two, being that part of the valve through which exhaust steam passes in line with the ports in the cylinder block. By rotating the flywheel, the operations of an engine will be observed as steam is admitted to the main valve via the gap between the two jaws of two moveable portions of a second sliding valve which is operated by the second eccentric attached to the crank-shaft. This eccentric is used to finely tune the valve timing of this model to obtain best running results of an engine. There are various methods used for reversing a steam engine. model compound steam engine, steam engine, model, crankshaft, valve, flywheel, wattle, engineer, eccentrics

The vessels boiling electrical was used by soldiers of 8/13 Victorian Mounted Rifles when it was equipped with Centurion tanks 1966-71. A boiling vessel fitted to British armoured fighting vehicles that permit the crew to heat water and cook food by drawing power from the vehicle electrical supply. It is often referred to by crewmembers (not entirely in jest) as the most important piece of equipment in a British armoured vehicle. The "Vessel Boiling Electric" or "BV" was an innovation at the very end of World War II, when the Centurion tank was introduced with the device fitted inside the turret. Previously, British tank crews had disembarked when they wanted to "brew-up" (make tea), using a petrol cooker improvised from empty fuel cans[4] called a "Tommy cooker". Use of the BV enabled the crew to stay safely inside the tank and reduced the time taken for breaks. The first version, known as VBE No 1, began to be replaced in the early 1950s by the stainless steel No 2 version. A VBE No 3 had improved electrical sockets and was less prone to leakage. The principal use of the BV is to heat ration pouches or tins; the hot water is then used for making drinks or washing. The BV is cuboid and accommodates four tins; typically matching the crew numbers of an armoured fighting vehicle. Ration tins are supplied without adhesive labels so the surrounding water is not contaminated. A vehicle with a defective BV is declared unfit for purpose. It is common practice for a junior member of a vehicle crew to be unofficially appointed "BV Commander", responsible for making hot drinks for the other soldiers. Example of article which improved efficiency and well-being of tank soldiers.Cilinderical metal vessel with close fitting lid, folding handle and electrical socket on side.military, tank, centurion, meals, boiling

Murray Comrie Collection. Information collated by Murray Comrie: This photograph shows the Treloar Foundry with its chimney, employees and the Treloar home in Commercial Road Tarnagulla H.W. (Henry) Treloar was a native of Redruth in Cornwall, where he was born in 1811. He worked as a blacksmith in his father's Cornwall foundry and then in 1840 went to work in Cuba as a foreman smith to the Royal Santiago Copper Mining Co. Returning to England in 1851 he remained for two years just as the reports of rich Victorian goldfields began to be heard there. He brought his family to Australia in September 1853, arriving in Geelong and then working in Heidelberg for eighteen months. He returned to Geelong to set up a business but after three months was drawn to the Maryborough goldfields, then Dunolly and then Sandy Creek (as Tarnagulla was then known), arriving in March 1855. He remained in Tarnagulla until his death. He established the Foundry in Tarnagulla in 1855 and was known as the best 'mining' smith in the district. After the decline of mining he turned to production of agricultural implements and the firm built a reputation in the field, through devices such as the 'NONPARIEL' tree and stump extractor, double furrow ploughs, seed harrows and scarifiers. On 26th October 1878 the firm won three first prizes for their implements at the North Western Agricultural Show at Ingelwood. The business of Treloar & Son was taken over by the James Bros in November 1894. This photograph is a reasonable copy created from an older original, owned by Miss Doris Nicholls. Copy probably made by Murray Comrie in the 1970s. Monochrome photograph of five men and a young girl standing in front of a house with white verandah posts and two brick chimneys. In the background a much taller brick chimney is visible.tarnagulla, commerce, industry, blacksmithing, smithing, foundry, businesses, treloar, james, buildings, commercial road, main street

Hand operated Bellows vacuum cleaner. Previously #27 The “Baby Daisy” Vacuum Cleaner is constructed from timber, steel and leather bellows. It has a carry handle fixed to the top. The base is approx. 500mm x 250mm. The height is approx 400mm. On one side is a bracket for a handle (missing) used to operate the bellows. The device is mounted on a foot plate that is split. On one side of the bellows is a circular metal detachable hatch, fixed by wing-nuts. This has a central hole for a tube (missing). Attached internally to this hatch is a cloth dust collection bag. The metal hatch has the following moulded words arranged in a circular fashion. 'DAISY Vacuum Cleaner). There are two brass plates fixed to the side of the cleaner above the hatch. These plates are stamped with 'Rd. No. 518080 and Rd. No. 530353' Gold printed Labels on the side say the following. BABY DAISER Vacuum Cleaner. Registered England. No. 518080/7 No. 530353/08 Trade Mark No.294851 /07 Designs France No. 25469/08 Germany No. 330219 / 08 Further Patents applied for. In the centre of the label is a picture of a Daisy Flower. With the words Iles Patent. This is surrounded by a ribbon with the words. 'The Daisy Registered Trade Mark'. On one side near the base of the cleaner the number '7749' is stamped into the metal.fBaby Daisydomestic equipment, cleaning, vacuum cleaner

Beechworth's Anglican Church, Christ Church St Peter and St Paul, has served the Beechworth community since 1858 in its present form, following its beginnings in a tent in 1855. The Victorian branch of the National Trust classified the building as regionally significant in 1959 and the organ as of significance to the nation in 1992. Building a place for Anglican worship was a priority in the early days of Beechworth's settlement as the town was a site of regional administration due to its association with the economic and social expansion of Victoria during the Gold Rush period. The Church garden features several significant trees monitored by the Beechworth Treescape Group, including a cork oak growing near the Ford Street entrance, an Atlantic cedar, a bunya or bunya-bunya pine and two kurrajongs. Some of these long-established trees may be visible in this lantern-slide image. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's social amenities and religious infrastructure in the late Nineteenth Century. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a square image printed on the front and framed in a black backing. It is held together by metals strips to secure the edges of the slide.Obverse: 1 /beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, christ church, indigo shire, north-east victoria, churches, architecture, anglican, religion, atlantic cedar, organ, magic lantern, christ church st peter and st paul, beechworth treescape group, cork oak, bunya pine, bunya bunya, kurrajong, quercus suber, cedrus atlantica f. glauca, araucaria bidwillii, brachychiton populneus

This slide shows a train proceeding along the Beechworth rail trail in approximately 1900. The rail line to Beechworth was the subject of significant lobbying by local officials such as John Orr and G.B. Kerferd in the 1860s, as it was recognised that the poor quality of roads to Melbourne and Albury hindered trade and formed a barrier to the social development of the town. The subsequent positioning of Beechworth on a branch rather than a main line was not considered ideal to achieve these aims, but the Everton-to-Beechworth and Beechworth-to-Yackandandah components of the line cost an average of £7,277 per mile and State Government officials felt the need in the area did not justify the cost of a direct line. The Beechworth Railway Station was officially opened on the 29th of September 1876 and ran services twice daily to Melbourne, transporting nearly 12,000 passengers and around 6,500 tons of cargo in 1900. It closed in 1976 and is today used as a cycling trail used by locals and promoted as a feature of the area to tourists. Lantern slides, sometimes called 'magic lantern' slides, are glass plates on which an image has been secured for the purpose of projection. Glass slides were etched or hand-painted for this purpose from the Eighteenth Century but the process became more popular and accessible to the public with the development of photographic-emulsion slides used with a 'Magic Lantern' device in the mid-Nineteenth Century. Photographic lantern slides comprise a double-negative emulsion layer (forming a positive image) between thin glass plates that are bound together. A number of processes existed to form and bind the emulsion layer to the base plate, including the albumen, wet plate collodion, gelatine dry plate and Woodburytype techniques. Lantern slides and magic lantern technologies are seen as foundational precursors to the development of modern photography and film-making techniques.This glass slide is significant because it provides insight into Beechworth's social amenities and transport infrastructure in the late Nineteenth Century. It is also an example of an early photographic and film-making technology in use in regional Victoria in the time period.Thin translucent sheet of glass with a circular image printed on the front and framed in a black backing. It is held together by metal strips to secure the edges of the slide.burke museum, beechworth, lantern slide, slide, glass slide, plate, burke museum collection, photograph, monochrome, indigo shire, north-east victoria, rail trail, beechworth rail trail, beechworth station, everton, wangaratta, wodonga, albury, rail transport, cargo transport, g.b. kerferd, john orr, murray to mountains rail trail, cycling, biking, railway

In 1902, William E Sessions and other family members purchased a controlling interest in the E.N. Welch Company, a clock manufacturer located in Forestville, Connecticut. Sessions' father owned a foundry located in the town of Bristol, Connecticut that produced cases for E.N Welch Co. On January 9, 1903, the company was reorganized and registered as The “Sessions Clock Company”. Within a few years the Sessions Clock Company was producing clock movements, cases, dials, artwork and castings for their line of mechanical clocks. Between 1903 and 1933 Sessions produced 52 models of mechanical clocks, ranging from Advertisers, large and small clocks with logos of various businesses, to wall, or regulator clocks, and shelf or mantel clocks, designed for the home. Many of the Session clocks from this period are prized by collectors. In 1930, the company expanded to produce electric clocks and timers for radios, while continuing to produce traditional brass mechanical movements. Beginning at the end of World War II Sessions W Model (electric) was widely used by various casting companies for their clocks. The dial of the W Model read Movement by Sessions. In the early 1950s Sessions begin to produce timers for television. In 1956, Sessions was absorbed by a company interested mainly in their timing devices. In 1959, William K. Sessions, grandson of William E. Sessions left the Sessions Clock Company and formed the New England Clock Company. In 1960, one of the Sessions Clock buildings was sold to the Bristol Instrument Gears Company. Kept as the Sessions Company, the new owners ran the operation until 1969 when changes in the market forced the Sessions Company into liquidation. In 1970, the remaining buildings were sold to Dabko Industries, a machine parts manufacturer.The item marks a time when clock production in America was at it’s peak producing clocks for sale in many countries, they were keenly priced, mass produced and available to all. The company had a relatively short life span life regards clock manufacture later diversifying into electric timer mechanisms. Yet it was perhaps inevitable with the advent of electricity along with stiff competition from other clock manufactures that would ultimately herald the end in 1935 of the Sessions company's ability to continue manufacturing mechanical clocks. Clock mantle type face set in a painted black case designed to represent a Greek building with gold decorative pillars. Free standing with decorative feet. No markings or inscriptions on clock case or mechanism flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sessions, mantel clock, clock, clock industries

The University's mace was carried in procession for the first time during the Graduation ceremonies in May 1996. The mace was presented to the University by former Chief Commissioner of the Ballarat City Council, Vern Robson, at a ceremony on 02 February, following a national competition for its design, sponsored by the Council. (The Flag, Issue 2, July 1996) Nineteen artists responded to the competition which called for a design that would embody a distinctive Australian image reflecting the heritage of the city and in relationship with gold, an Aboriginal element and the history of the University. The winning entry, dominated by a poppet head, was submitted by Central Victorian artist/sculptor Trefor Prest, a sessional lecturer in sculpture at the University.(The Flag, Issue 2, July 1996) The Herald Sun of 03 February 1996 reported 'the new mace shows importance elements of Ballarat's heritage as well as the university's focus on the future. The artist emphasises the egalitarian nature of Australia as embodied in Ballarat's famous slice of history - the Eureka uprising. ... The mace has a poppet head at the top of the shaft - an unusual element for a mace - but it represents Ballarat's mining history and the University's evolution from the Ballarat School of Mines. An opening egg at the top stands for the nurturing of development and learning. The mace's straight shaft is depicted as the tree of knowledge and, incorporating a bark canoe scar, Ballarat's Aboriginal heritage. At the end of the shaft is a surveying device, which represents precision and accuracy ads embodied in the university's academic pursuits.' Bob Morrell of the University organised the national competition to design the mace and said 'It is in keeping with the university's logo, 'proudly flying the flag', which incorporates the Southern Cross.' Trefor Prest lectured in Sculpture at the University of Ballarat from 1995-1996.Black and white photograph showing three men holding the new University of Ballarat (now Federation University) mace. From left to right they are Vern Robson (Chief Executive Officer City of Ballarat), Trefor Prest (Sculptor) and Professor David James (Vice Chancellor).university of ballarat, mace, trefor prest, vern robson

Margaret Stevens was the inaugural Head of Nursing at the Ballarat College of Advanced Education from June 1985 until her retirement in 1989. During the 1980s there was a growing acceptance around Australia that Nurse Education needed to be more science based to allow nurses to cope with the vastly increased appearance of technological devices in the hospital wards. The response was to shift such training into Higher Education institutions. The State Government decided that Nurse Training in Ballarat should move from the Hospital to Ballarat College of Advanced Education. in 1986. Margaret Stevens had been a senior Nurse Educator at the Ballarat Base Hospital for many years and was selected by mutual agreement between the two institutions to devise the new course and plan its implementation so that it would gain the approval of the Nurse Registration authority. In addition to consulting widely with other Nurse Education specialists and supporting departments in Ballarat College of Advanced Education, Margaret negotiated with over 70 medical establishments to work out arrangements by which the students would be placed in work experience as required by the course. She was also involved in the required additional staff appointments and in planning for a new building on Campus. The course was commenced in 1986 and the transition successfully achieved, thanks largely to Margaret's diligence. In 1987 the Review of Registration of Health Practitioners interim report was published by the Health Department Victoria. Margaret Stevens was appointed by the Health Minister to represent the College of Nursing, Australia. This was a landmark review with long-reaching implications. At the time of her death on 23 March 2015 she was a member of the Board of Ballarat Community Health, and was identified as follows R.N.; B.App.Sc (Nursing); Post Basic: DipEd(N); Kellogg Fellow (USA 1984-85), M.Ed. (USA) & 1st program of M.Ethics Grey lever arch folder of notes, faxes and timetables relating to the teaching of the Diploma pf Applied Science (Nursing) at Ballarat College of Advanced Education (now Federation University Australia). Includes a letter of Ballarat College on Advanced Education 10th Anniversary letterhead, student lists, student placement, timetablesnursing, anniverary, letterhead, ballarat college of advanced education, elaine duffy, jan drennan, university women

The Forests Commission developed the use of helicopters for aerial ignition from the mid 1960s. Bryant and May at Richmond worked with the Commission to develop a Delayed Action Incendiary Device. DAIDs as the were known, had an overall length of 180 mm, striker end length - 10 mm. Ignition end length - 80 mm, then a layer of high melting point wax (to prevent accidental ignition when rubbing together in transit). Both ends coated with a modified match head compound with safety fuse exposed length between coated match ends. There was a 17-second delay from when the small end was struck to an intense flaming of the large end, which lasted for 40 seconds. DAIDs were dangerous so were stored in a metal box outside the helicopter along with a disposable striker patch attached with a quick release pin to a special half-door. The first test was with a Bell 47G on 4 October 1967 and the first use, anywhere in the world, of DAIDs to backburn a large bushfire was undertaken in north eastern Victoria in February 1968. There was a crash of an FCV helicopter conducting aerial ignition near Wandiligong on 19 April 1978 with the tragic death of two forest officers and their pilot. The crash led to the immediate end of the use of DAIDs and the adoption of the safer Premo ping-pong ball incendiary machine which originally came from Canada but was modified at the Altona workshops. Overall, the development of aerial ignition techniques by the Forests Commission from the mid-1960s resulted in a steady climb in the area burnt each year…. peaking at 477,000 ha in 1980-81 and with an impressive 10-year rolling average of 220,000 ha around the time of 1983 Ash Wednesday Bushfires.Developed in Victoria for aerial ignitionLarge double ended match used for aerial ignition and back burning by dropping from a helicopterbushfire, forests commission victoria (fcv)

Bushfire behaviour is influenced by many factors including temperature, relative humidity (RH), forest type, fuel quantity and fuel dryness, topography and even slope. Wind has a dominant effect on the Rate of Spread (ROS), as well as fire size, shape and direction. Temperature and relative humidity have major impacts on fuel dryness and therefore upon the availability of fuel for combustion. The amount of fine fuel available can increase rapidly from nearly zero when fuel moisture content is more than 16% after rain or a heavy morning dew, to many tonnes per hectare as fuel dries out later in the day and the moisture content drops below 9%. This explosive escalation in the amount of available fuel can happen over a few hours on hot and windy days. A sling psychrometer is a simple device for determining air temperature and relative humidity. It contains two thermometers, one of which is covered with a wick saturated with ambient temperature liquid water. These two thermometers are called dry bulb and wet bulb. When the sling psychrometer is spun rapidly in the air, the evaporation of the water from the wick causes the wet bulb thermometer to read lower than the dry bulb thermometer. After the psychrometer has been spun long enough for the thermometers to reach equilibrium temperatures, the unit is stopped, and the two thermometers are quickly read. A psychrometric scale on the side of the instrument is then used to convert the dry bulb temperature TDB and the wet bulb temperature TWB into humidity information. The wet bulb temperature is approximately equal to the adiabatic saturation temperature. The thermometers fold back into the plastic handle when not in use. Used to measure temperature and relative humiditySling PsychrometerBACHARACH INSTRUMENTS - Pittsburg PAbushfire, forests commission victoria (fcv)