The tintype (or ferrotype or Melainotype) was produced on metallic sheet (not, actually, tin) instead of glass. The plate was coated with collodion and sensitized just before use. It was introduced by Adolphe Alexandre Martin in 1853. The most common size was about the same as the carte-de-visite, 5.5cm x 9.0cm, but both larger and smaller ferrotypes were made. The smallest were "Little Gem" tintypes, about the size of a postage-stamp, made simultaneously on a single plate in a camera with 12 or 16 lenses. They were often produced by travelling photographers, and were cheaper than Ambrotypes so made photography available to working classes, not just to the more well-to-do. The print would come out laterally reversed (as one sees oneself in a mirror). Being quite rugged, tintypes could be sent by post. Tintypes were eventually superseded by gelatin emulsion dry plates in the 1880s, though street photographers in various parts of the world continued with this process until the 1950s. (Above information abridged from http://www.rleggat.com/photohistory/history/tintype.htm) The firm of Gove and Allen opened in Sydney in 1880 and were responsible for the belated popularizing of the gem tintype in Australia. The firm traded as both The American Gem Studio and The American Studio. Others franchises were opened in Melbourne, Ballarat and Sandhurst (Bendigo). The Sandhurst branch closed in 1882 and Adelaide in 1884. All Gove and Allen studios had ceased trading by 1885. The studio addresses were: 23 King William St, Adelaide; 324 George St, Sydney; 95 Swanston St, Melbourne; Howard Place, Sandhurst; 7 Queen St, Brisbane; The card mounts used in Gove and Allen studios in Australia are identical to those used in America. They were initially made of plain white card with embossing around the oval image opening in the mount while some also had simple geometric and floral printed designs as well. Although Gove and Allen studios produced the majority of gem tintypes in Australia, other studios offered them including: - London, American & Sydney Photo Company, 328 George St, Sydney; - David Edelsten, 55 & 57 Bourke St, Melbourne; - Burman's Portrait Rooms, St. George's Hall, 209 Bourke St, Melbourne; - Bell's Gem Portrait Studio, 57 Bourke St East, Melbourne; - R. H. Kenny, Bridge St, 6 Sturt St Ballarat; - Marinus W. Bent, Sandhurst (Bendigo); - George Fisher, Victoria; - Anson Brothers, Hobart Town. (Abridged information from http://members.ozemail.com.au/~msafier/photos/tintypes.html) .9) A tintype portrait of a woman's head, attached to a card. The cheeks have been hand coloured.little gem, woman, unidentified woman, women, photography

The tintype (or ferrotype or Melainotype) was produced on metallic sheet (not, actually, tin) instead of glass. The plate was coated with collodion and sensitized just before use. It was introduced by Adolphe Alexandre Martin in 1853. The most common size was about the same as the carte-de-visite, 5.5cm x 9.0cm, but both larger and smaller ferrotypes were made. The smallest were "Little Gem" tintypes, about the size of a postage-stamp, made simultaneously on a single plate in a camera with 12 or 16 lenses. They were often produced by travelling photographers, and were cheaper than Ambrotypes so made photography available to working classes, not just to the more well-to-do. The print would come out laterally reversed (as one sees oneself in a mirror). Being quite rugged, tintypes could be sent by post. Tintypes were eventually superseded by gelatin emulsion dry plates in the 1880s, though street photographers in various parts of the world continued with this process until the 1950s. (Above information abridged from http://www.rleggat.com/photohistory/history/tintype.htm) The firm of Gove and Allen opened in Sydney in 1880 and were responsible for the belated popularizing of the gem tintype in Australia. The firm traded as both The American Gem Studio and The American Studio. Others franchises were opened in Melbourne, Ballarat and Sandhurst (Bendigo). The Sandhurst branch closed in 1882 and Adelaide in 1884. All Gove and Allen studios had ceased trading by 1885. The studio addresses were: 23 King William St, Adelaide; 324 George St, Sydney; 95 Swanston St, Melbourne; Howard Place, Sandhurst; 7 Queen St, Brisbane; The card mounts used in Gove and Allen studios in Australia are identical to those used in America. They were initially made of plain white card with embossing around the oval image opening in the mount while some also had simple geometric and floral printed designs as well. Although Gove and Allen studios produced the majority of gem tintypes in Australia, other studios offered them including: - London, American & Sydney Photo Company, 328 George St, Sydney; - David Edelsten, 55 & 57 Bourke St, Melbourne; - Burman's Portrait Rooms, St. George's Hall, 209 Bourke St, Melbourne; - Bell's Gem Portrait Studio, 57 Bourke St East, Melbourne; - R. H. Kenny, Bridge St, 6 Sturt St Ballarat; - Marinus W. Bent, Sandhurst (Bendigo); - George Fisher, Victoria; - Anson Brothers, Hobart Town. (Abridged information from http://members.ozemail.com.au/~msafier/photos/tintypes.html) .9) A tintype portrait of a child's head and torso, attached to a card. The boy is wearing a suit and the cheeks have been hand coloured.little gem

The tintype (or ferrotype or Melainotype) was produced on metallic sheet (not, actually, tin) instead of glass. The plate was coated with collodion and sensitized just before use. It was introduced by Adolphe Alexandre Martin in 1853. The most common size was about the same as the carte-de-visite, 5.5cm x 9.0cm, but both larger and smaller ferrotypes were made. The smallest were "Little Gem" tintypes, about the size of a postage-stamp, made simultaneously on a single plate in a camera with 12 or 16 lenses. They were often produced by travelling photographers, and were cheaper than Ambrotypes so made photography available to working classes, not just to the more well-to-do. The print would come out laterally reversed (as one sees oneself in a mirror). Being quite rugged, tintypes could be sent by post. Tintypes were eventually superseded by gelatin emulsion dry plates in the 1880s, though street photographers in various parts of the world continued with this process until the 1950s. (Above information abridged from http://www.rleggat.com/photohistory/history/tintype.htm) The firm of Gove and Allen opened in Sydney in 1880 and were responsible for the belated popularizing of the gem tintype in Australia. The firm traded as both The American Gem Studio and The American Studio. Others franchises were opened in Melbourne, Ballarat and Sandhurst (Bendigo). The Sandhurst branch closed in 1882 and Adelaide in 1884. All Gove and Allen studios had ceased trading by 1885. The studio addresses were: 23 King William St, Adelaide; 324 George St, Sydney; 95 Swanston St, Melbourne; Howard Place, Sandhurst; 7 Queen St, Brisbane; The card mounts used in Gove and Allen studios in Australia are identical to those used in America. They were initially made of plain white card with embossing around the oval image opening in the mount while some also had simple geometric and floral printed designs as well. Although Gove and Allen studios produced the majority of gem tintypes in Australia, other studios offered them including: - London, American & Sydney Photo Company, 328 George St, Sydney; - David Edelsten, 55 & 57 Bourke St, Melbourne; - Burman's Portrait Rooms, St. George's Hall, 209 Bourke St, Melbourne; - Bell's Gem Portrait Studio, 57 Bourke St East, Melbourne; - R. H. Kenny, Bridge St, 6 Sturt St Ballarat; - Marinus W. Bent, Sandhurst (Bendigo); - George Fisher, Victoria; - Anson Brothers, Hobart Town. (Abridged information from http://members.ozemail.com.au/~msafier/photos/tintypes.html) A tintype portrait of a woman's head and shoulders, attached to a card. The cheeks have been hand coloured.little gem, woman, unidentified woman, women, photography

This microscope is thought to be associated with Chemist Erskine Llewellyn of Ballarat. Erskine E. Llewellyn studied Chemistry at the Ballarat School of Mines in 1885. It may also be associated with Palmer's Chemist in Lydiard Street Ballarat. "OBITUARY. - The many friends here and in the surrounding districts will regret to learn of the tragically sudden death of Mr Erskine Llewellyn, who for many years was associated with the firm of A. M. Palmer and Co., chemists, of Lydiard street. For some considerable time Mr Llewellyn had been associated with the U.F.S. Dispensary at North Carlton, and there, as in the case here, by his courtesy and attention to business, he made a host of friends, and his sudden demise will be deplored." [Ballarat Courier, 21/08/1917] http://www.anbg.gov.au/botanical-history/botanical-discovery.html Antique brass microscope in custom made hinged wooden case with brass handles and key. Interior is fitted with drawers for various instruments, lenses, tools and glass plates. microscope, llewellyn, pharmacy, ballarat school of mines, travelling microscope, erskine llewellyn, alumni, palmers pharmacy

Lamp vehicle electric with lens, reflector and supporting rod. Rubber seal partly broken seals in glass. Metal plate on top of light. "Gisborne's Birmingham" flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village

William Thomas George was born in Birmingham in 1884 and was a tin plate worker. He and his wife Ellene had a son Leslie Thomas George. The firm W T George & Co was formed sometime later. In 1939 his firm produced ship lamps. The Patent Number GB546575 on the lamp's plate was assigned to Leslie Thomas George in 1941 for improvements in, or relating to, ships' lanterns. From that time the patent number was affixed to their namufactured Meteorite lights. The ship navigation lamp is important as an example of the evolution of marine safety technology. Countries began passing laws and regulations in the 1830s that required ships to show navigation lights at night or in poor weather. From the late 1840s colours were standardised; red for portside of the vessel and green for starboard, a white masthead light, and a white light at anchor. By 1914 the International Convention for the Safety of Life at Sea was formed and continues, with decisions and notifications on improvements and changes.. Lamp; Portside ship's lamp is rounded in the front with two flat sides coming to a point at the rear. Glass has circular ridging. Metal handle with lid and clasp. The reflector has red colouring. Inscribed on fixed plates on the front, with maker's details and Patent number. This Meteorite lantern was made by W T George and Co Ltd, of Birmingham. "Port" "W T George and Co Ltd" "Sherlock Street Birmingham" "Meteorite 68990 Patented No 546575 and others pending"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, portside ships lamp, portside, port lamp, ship's lamp, marine lamp, navigation lamp, w t george & co, coloured lens, red lens, ship fitting, marine technology, navigation light, signal lamp, leslie thomas george, gb546575, patent gb546575, meteorite, lantern, lamp, light

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

This microscope used in SMB/BIAE/BCAE geology laboratoriesOptical Microscope, petrographic type, with 4-lens objective turret. Black enamel frame, chrome-plated accessories. Cream, plastic container with clear plastic speciman jars. Small, brown Reichert case containing objective and glass plate. Housed in a polished wood case. REICHERT, ser. No. 273065 Inside storage box "3" in red marker pen. On microscope frame a self-adhesive sticker "Ballarat CAE Geology". Also riveted to base frame a label "Supplied by H.B. Selby & Co Pty Ltd, Australia". Inside carry case door a card giving visual magnifications.microscope, reichert, selby, laboratory

Brown soft covered books featuring beautiful photographs featuring Federation University's historic landscape, and items from the Federation University Historical Collection. federation university, federation university historical collection, historic campuses, enrolment book, ballarat east plan, ballarat schhol of mines associates boards, assay kilns, stained glass, former ballarat gaol, smb campus, leather tools, camp st, arts academy, former ballarat post office, post office gallery, mace, federation university mace, former stawell school of mines, jacarandah restaurant, ballarat mechanics' institute

Pittock coach builder's box: Old railway lamp, marked origin unknown, probably belonging to A. E. Pittock * stored in paper bag as detailed, refer 13000.44a * steel, glass construction * lamp is 310 mm tall, 150 mm round * lamp has three adjustable filters ( red / broken, blue and space for third (clear!) lens, which are set by rotating the handle to fixed loacations * lamp lit by kerosene wick, refer 13000.44e & f, brass container with mirror behind wick to intensify the light Item stored in Pittock coach builkder's box, reference 13000.1.

Alan Doney darkroom collection: 40a dartk room equipment collection 40b four film devreloping cannisters, adapts to adjustable film sizes (35mm, 120mm etc) 40c spool winder in two parts, stored in scotch tape tin 40d developer lens holder and fil/negative constraint for enlarging photos 40e darkroom light shade with electricity chord 40f red darkroom safety light for developing film with the darkroom 40g three developing items - two lens caps, thremometer caps/containers, & photo developing tongs 40h leather pouch for protection of flat ground glass panes 40i steel slide cover & bracket 40j two sets of steel film weights to hold/hang developed photograph films 40k rubber tubes and syphons 40l two plastic measuring beakers & two (yellow & blue) plastic spoons for developing process 40m KODAK film flow solution (Keogh's Camera Store $1.02) & KODAK plus-X pan film tin container 40n three darkroom miscellaneous items (includes Uniprint eqipment knob)

Dr Mabel Maguire, widow of Dr Frederick Arthur Maguire (1888- 1953) donated it in 1962 along with a number of glass slides.Dr Maguire owned and used the item, giving Anatomy lessons to medocal students,. Used mostly in Sydney (University of Sydney) 1962Magic lantern or Baloptian [precursor to slide projector]. Model BC. Bausch & Lamb Optical Co, Rochester NY. Electrical, metal projector box with lens in bronze casing a timber frame for glass slides marked "(illeg.) PATENT ECLIPSE" an attached electrical lead with bakerlite plug. c1927.No slides, either missing or none received.instrument, optical

The Adlake Non Sweating Lamp "THE ADLAKE NON SWEATING LAMP CHICAGO" Adlake is a shortened name of the "Adams and Westlake" company. They began doing business in 1857 in Chicago. They manufactured railroad supplies and hardware in Chicago. In 1927, they moved to Elkhart, Indiana, where they remain in business today. The difference between "lamp" and "lantern" is that the lamp is meant to be hung on a post or a hook during use and the lantern is hand-held and only used when a person is directing traffic. It has four lenses- two amber and two blue. Adams & Westlake, also known as A&W or Adlake, became a dominant maker of short-globe lanterns and their #200, #250, and plain “Kero” (sometimes known as #300 or #400) models were sold by the thousands to the entire range of railroads. Short-globe lanterns came about because manufacturers figured out how to get a lantern to burn properly with a shorter combustion chamber, which allowed lanterns to be shorter and cheaper. Adams & Westlake began selling #200 Kero lanterns around 1921 and they sold well, the #250 Kero lantern was released in the mid 1920’s as an improvement over the #200 version, with a new burner design. FInally, around 1930 Adams & Westlake released models marked simply “Kero” but are sometimes known as the #300 or #400 models, which are further refinements. The #200, #250, and “Kero” models all look very similar in design and in fact they are all pretty much the same frame design with a couple of minor differences on the later “Kero” models. Short globe lanterns are still very easy to find because they were produced well into the mid 1900s. Adams & Westlake short globe lanterns can usually be dated by looking for a two-part date code on the bottom of the lantern. The first digit will be 1,2,3, or 4 followed by a dash and then a two digit number. Sample code: 2-39 would mean that the lantern was produced in the 2nd quarter (Apr-Jun) of 193Historic - Railways - Adlake Non Sweating LampAdlake Non Sweating Lamp made of metal and glass Metal with handle, painted black, oil Bullseye lens, 13 cm diameter, green Circular lens on opposite site, 5 cm diameter, clear Sliding panel provides access to burner Rain shield embossed 'THE ADLAKE NON SWEATING LAMP' 'LAMP MFG 7 RLY SUPPLIES LONDON''THE ADLAKE NON SWEATING LAMP' 'LAMP MFG 7 RLY SUPPLIES LONDON'puffing billy, adlake non sweating lamp

NSWTD Railway Marker OIl lamp, No.1 RA Oil burning lamps have always been an important part of Australian railway signalling systems and have been used for communication, safety and lighting. It is called a marker lamp and was hung on rolling stock (carriages and wagons) such as the guard’s van to indicate the rear of the train at night. They were also used to indicate the rear of steam locomotive tenders for identification and safety purposes. This type of lamp was introduced to the railways around 1860 and continued to be used for over one hundred years. Oil lamps were phased out on the railways during the late 1960s and early 1970s, when they were replaced by battery lamps. Railway lighting included not only stations but yards, engines, rolling stock, signals, signal-boxes and crossings. There were a number of different types of lamps used for a variety of railway purposes. Historic - New South Wales Transport Department.- Railway Marker Oil Lamp NSWTD Railway Marker lamp, No.1 RA made of metal and Glass Railway lamp, paraffin, metal/glass/fabric, used for attaching to railway rolling stock to mark the end of the train, made by the New South Wales Transport Department, Sydney, New South Wales, Australia, 1870 - 1970 This lamp comprises a hollow cube of metal. One lens at the front transmits light from an interior light source. Fuel was either signal oil or kerosene. The burner inside the lamp used either cotton or felt wicks to create the light source. The lamp has a carry handle for carrying by hand and a bracket with a slot on the back for hanging onto the hook of a locomotive or item of rolling stock. It is marked "NSWTD" which stands for New South Wales Transport Department.NSWTD 1 RApuffing billy railway , pbr, nswtd railway marker oil lamp, no.1 ra

Four NSWTD Railway marker Oil lamps at Nobelius Packing shed Item stamped numbers unknown Oil burning lamps have always been an important part of Australian railway signalling systems and have been used for communication, safety and lighting. It is called a marker lamp and was hung on rolling stock (carriages and wagons) such as the guard’s van to indicate the rear of the train at night. They were also used to indicate the rear of steam locomotive tenders for identification and safety purposes. This type of lamp was introduced to the railways around 1860 and continued to be used for over one hundred years. Oil lamps were phased out on the railways during the late 1960s and early 1970s, when they were replaced by battery lamps. Railway lighting included not only stations but yards, engines, rolling stock, signals, signal-boxes and crossings. There were a number of different types of lamps used for a variety of railway purposes. Historic - New South Wales Transport Department.- Railway Marker Oil LampFour NSWTD Railway marker Oil lamps made of metal and glass Railway lamp, paraffin, metal / glass / fabric, used for attaching to railway rolling stock to mark the end of the train, made by the New South Wales Transport Department, Sydney, New South Wales, Australia, 1870-1970 This lamp comprises a hollow cube of metal. One lens at the front transmits light from an interior light source. Fuel was either signal oil or kerosene. The burner inside the lamp used either cotton or felt wicks to create the light source. The lamp has a carry handle for carrying by hand and a bracket with a slot on the back for hanging onto the hook of a locomotive or item of rolling stock. It is marked "NSWTD" which stands for New South Wales Transport Department.NSWTDpuffing billy railway , pbr, four nswtd railway marker oil lamps

Large black magnifier possibly for viewing slides or photographs. Black cylinder with magnifying glass in centre. There are 2 x opaque lenses included.magnifier

Made by Cox, F J 1845-1882 (1891), optical & mathematical instrument maker, optician, camera manufacturer, London.Sliding box camera, about 1855. This type of camera was in use before bellows became common. The camera belonged to Hugh Strachan who passed it on to an employee, Charlie Lugg. The Strachan family is distinguished in the Geelong wool industry. James Ford Strachan, born in Scotland, established a very successful wool broking business and his sons carried on his work.Wooden case with brass handle lined with green felt containing one sliding box camera, with a brass fitting for a lense, a removable glass focussing screen, which conseals the removable lense inside the camera. Also two small wooden frames for developping the photographs. Also a linen cape and a leather pouch containing metal filters with gradients. Booklet about the life of Charles Lugg who owned the camera before it was passed to his nephew who then donated it to the NWM. Booklet details Lugg's military service, working life in Stachan's wool stores and life in Geelong and Moriac. Measurements of parts (in centimeters): 27 26 41.5 Carry Case 24.5 36.5 21.2 Sliding box Camera 15.4 .5 17.6 slide frame 11 14.5 9.5 lens 152 71 cape 9 1.5 6.5 pouch 8.5 .1 6.5 5.5 Filter Lense 8.5 .1 6.5 4.5 Filter Lense 8.5 .1 6.5 3.5 Filter Lense 8.5 .1 6.5 1.2 Filter Lense F.J. Cox/ 26/Ludgate Hill/ London (Plaque on top of box) Fred J Cox/26 Ludgate Hill/London (Engraved on side of Lens)charles lugg, fred j cox, james ford strachan

Owned by Newspaper photographer living in Wattle Park c 1960s.Possibly Nepera Brand, Name on Slide Boxes.1.A Wooden Case with a Sliding Rear Door for Projector. 2. Projector, Wood & Brass, Black Metal Box at rear for lamp & electric lead, spare lens inside. Brass lens holder & Focus adjuster at other end. 3. Wooden slide holder holds two slides, and fits between body and lens tube. 4. Spare lens marked 6 In EQUI with sliding collar. 5. 3 packs of glass slides. 4. Grey tin containing slides. Slides stored in .09.13.No 510324 on Lens Adjuster Ron.230577, 7in, Est 1816, Trade mark. London Made. Without name Australasia Pty Limited.photography, photographs / slides / film, projectors

History prior to 1946 unknown. Camera etc was purchased by the donor in 1946 from Herbert Small Camera Supply then in Elizabeth Street Melbourne. Donor used camera regularly until recent years.'Etue' folding camera with accessories (camera, case, 3 negative containers in a imitation leather & cardboard container) and an additional slide tray. Camera can be used with glass plates, cut negative film and film packs. When camera is opened the lens, bellows etc slide into position. The whole lot slides on a rail system and can be locked in the position required. Item to be photographed can be viewed in a viewfinder which can be turned to a horizontal or vertical plane. In the viewfinder has a small bubble level. It includes an oblong chrome wire which is used to set the minimum distance from lens to object.|Camera is of steel covered and is covered with leather with a carrying handle. provision is made in the back to carry a film slide in a small envelope style pocket|Camera is made by Kamera Werkstatten of Dresden c1920.|It has a 'Zeiss Tessar' 1:4.5 lens of 10.5 cm focal length. Shutter is a 'Compur' with speeds of 1 to 1/250th of a second with Bulb and Time. It also has a delayed action feature. It also has a double extension for close up studies.|When folder it is a mere 4.5 cm from front to back, which cause it to be advertised as the slimmest camera made.|Camera case is made of brown tooled leather with a chrome clip and adjustable carrying handle - lid open upwards for the camera .Case is lined with a purple type of velvet material. 10 Items in total.photography, cameras, camera accessories

Large black box camera, no name, with broken leather handle, assorted view finders and lenses, 2 spirit levels and comes with some used glass negatives.204212photography, cameras - still, box

Nino Corda was a Geelong based textile designer who worked at various textile mills between 1957 & 2003. He travelled the world in search of the latest fashions and techniques and developed timeless designs that were much loved by Australians. These items are on rotational display at the National Wool Museum’s ‘In the Factory’ exhibition. For many years, Nino also worked as part of the Honorary Staff of the National Wool Museum. His passion for the world of textiles provided energy and knowledge to the visitors and staff of the museum. Although Nino has now retired from his honorary position and has hung up his Australian Tartan vest, these items will continue to serve the community in sharing the stories of Australian Textile design. Textile designers used glasses such as these to see how many threads are within a textile sample. It was important to count correctly, otherwise the enlarged final pattern would be out of alignment. These glasses were popular in the 1950s but were replaced by viewing lens, such as item 8040 (in the National Wool Museum's Collection) in the 1960s because of their compact nature.Thin metal wire makes up the frame of the glasses. The metal is a standard metallic silver. The piece to sit on-top of the ear is excessively curved to hook around the ear. This is done to ensure the glasses do not fall off the face while looking down to view thread counts in a textile sample. The glasses are lacking lenses in their usual place. This has been replaced by another thin wire frame which protrudes an extra inch in front of the frame, almost like an additional layer of the glasses. Where this layer / frame ends, two lenses can be found which are square and much smaller than typical glasses lenses. This has been done to allow for powerful magnifying glass which would be ill-suited if it sat too close to the face / eyes. The glasses are also accompanied by their original box. The box is blue and has a large rectangle running through its centre. This rectangle works as a cushion for the glasses and is required as a result of their unusual shape.textile design, textile calculations

Nino Corda was a Geelong based textile designer who worked at various textile mills between 1957 & 2003. He travelled the world in search of the latest fashions and techniques and developed timeless designs that were much loved by Australians. These items are on rotational display at the National Wool Museum’s ‘In the Factory’ exhibition. For many years, Nino also worked as part of the Honorary Staff of the National Wool Museum. His passion for the world of textiles provided energy and knowledge to the visitors and staff of the museum. Although Nino has now retired from his honorary position and has hung up his Australian Tartan vest, these items will continue to serve the community in sharing the stories of Australian Textile design. Textile designers used viewing lenses such as this to see how many threads are within a textile sample. It was important to count correctly, otherwise the enlarged final pattern would be out of alignment. Before compact lenses such as this, specialised glasses were used such as 8039.The viewing lens has a 3 fold design in order to fold up to be compact and easily transportable in a pocket while also working to provide its own stand when unfolded. The lens is black and contains one circular piece of magnifying glass on the top panel.Top panel. Words, scratched. NINOtextile calculations, textile design

Hand held cream coloured plastic optical magnifier with small globe inset under lenses. The black button on handle turns globe, which is powered by batteries, on and off. The magnifier can be detached to replace the globe or exchanged for a different strength. Cream and black handle with a black button to turn on light and a detachable magnifying glass attached at top.6/100 on magnifierassistive devices, ecshenbach

A stand magnifier or loupe is a small magnification device used to see small details more closely. Unlike a magnifying glass the loupe doesn't have a handle but stands on the page to enlarge text or images. The lens is cylindrical and protected by casing. They are often used by jewellers and are held close to the eye. Clear plastic tube with magnifier at one end and attached to a red cordassistive devices, ecshenbach

Yhonnie SCARCE (1973- ) Born Woomera, South Australia Language group: Kokatha, Southern desert region and Nukunu, Spencer region Yhonnie Scarce works predominantly in glass. She majored in glass withing a Bachelor of Visual Arts (Honours) course at the South Australian School of Art, Adelaide, and holds a Master of Fine Arts from Monash University. One of the first contemporary Australian artists to explore the political and aesthetic power of glass, Scarce describes her work as ‘politically motivated and emotionally driven’. Scarce’s work often references the on-going effects of colonisation on Aboriginal people, In particular her research focus has explored the impact of the removal and relocation of Aboriginal people from their homelands and the forcible removal of Aboriginal children from their families. (https://thisisnofantasy.com/artist/yhonnie-scarce/, accessed 10 September 2018)Artist's Statement 'The More Bones the Better', 2016 Yhonnie Scarce was born in Woomera, SA and belongs to the Kokatha and Nukunu peoples. Scarce embraces a non traditional approach to glass blowing using glass as more than a mere material, acting as a lens and a mirror, Scarce reflects and exposes the tragedies of Australia’s colonisation. She applies the technical rigours of traditional glass blowing techniques in an innovative and unconventional manner. In particular Scarce uses glass to explore the lives and histories of Aboriginal Australians. Hand blown glass is shaped, engraved, painted and smashed to create indigenous fruits and vegetables such as bush bananas, bush plums and long yams symbolic of her peoples culture and traditions. With their elongated, torso-like shapes, they even evoke human bodies. Akin to a gatherer of bush food Scarce creates glass-gatherings of the persecuted. The repetition of brittle ambiguous bodies collected for experimentation and examination conjures the relentless impact of colonisation and the litany of abuses suffered by Aboriginal people. Within her research Scarce encountered a variety of ethnographic studies examining the use of scientific interventions amongst Indigenous cultures. These include Government sanctioned illegal drug testing of children in orphanages and other dubious medical practices amongst indigenous prison inmates. This work metaphorically looks at these situations and poses questions of what might have gone on in such a laboratory. The judge of the 2017 Guirguis New Art Prize (GNAP), Simon Maidment, Senior Curator, Contemporary Art, National Gallery of Victoria said; “The winning work by Yhonnie Scarce captures the sensitivity to materials she displays throughout her artistic practice. The blown and shattered glass elements are a delicate contrast to the shocking and little discussed histories of Aboriginal exploitation and abuse in the name of science in Australia. Engaging this topic, this work is haunting, in the same way those lived and documented experiences continue to haunt the collective unconscious of this country. Yhonnie Scarce’s work, The More Bones the Better 2016, I believe makes an important contribution to the Collection of Federation University Australia and will engage and move diverse audiences with its technical accomplishment, beauty and message. Yhonnie Scarce was born in Woomera SA and belongs to the Kokatha and Nukunu peoples. Scarce embraces a non-traditional approach to glass blowing using her medium as more than a mere material. Applying the technical rigours of traditional glass blowing in an innovative and unconventional manner, Scarce’s glass objects act as a lens and a mirror to reflect and expose the tragedies of Australia’s colonisation and, in particular, explore the lives and histories of Aboriginal Australians. Hand-blown glass is shaped, engraved, painted and smashed to represent indigenous fruits and vegetables such as bush bananas, bush plums and long yams, symbolic of Scarce’s people’s culture and traditions. While these elongated shapes on the one hand represent fruit and vegetables, gathered and grouped as in the gathering of bush food, Scarce’s torso-like bodies and forms are glass ‘gatherings’ representative of the gathering of people. Here, the many brittle bodies act as a metaphor for the collection, experimentation and examinations undertaken by government authorities on Aboriginal communities researched by Scarce. Exposing a variety of ethnographic studies, examining the use of scientific interventions on Indigenous cultures, Scarce also revealed Government sanctioned illegal drug testing of children in orphanages and other dubious medical practices undertaken on indigenous prison inmates. Scarce’s gatherings also reflect the impact of colonisation and the relentless conjuring and litany of abuses suffered by Aboriginal people. The More Bones the Better metaphorically looks at these situations and poses questions of what was undertaken and investigated in these laboratories. guirguis new art prize, yhonnie scarce, glass, aboriginal

Manufactured by Holden and Frost for the illumination on buggies during the period of ca1900Manufactured and sold by Holden and FrostBlack painted steel carriage lamp. Oval front lens, red dimple lens on rear ,clear glass sides rectangular in shape, oval dome chimneyPatent no 270buggies, lamp, civilian

Detached sector panel from upper lantern. The lens segment is one of a pair of freestanding panels that formerly stood on a platform in the upper lantern room on either side of a small fixed light. The platform rested above the 1860/62 Chance Bros. first order, fixed lens and could be accessed by a ladder. The two sector lens panels were each set in a bronze frame and comprised a curved wider (belt) piece in the centre with nine curved, slim line pieces above and below it (19 pieces in total). The belt aligned with the light source to provide optimal focus and range. The panels, the light and the platform were installed in 1934 to upgrade the original optical system with red warning lights. Fitting them above the lantern was a convenient and inexpensive way to do this, with each lens panel set up behind a red glass panel to project a red sector to the seaward over to Cape Howe and the Western Shore. The two sectors are likely to be Chance Bros. by manufacture although they do not appear to bear the maker’s name. This is probably because Chance Bros. typically fixed metal plaques to their apparatus and tended not to stamp smaller components such as their lens frames. It could possibly indicate that the two sectors are former components of a larger system, i.e. another lens. This can easily be confirmed by closely inspecting the bronze frames. A series of holes on the frame would indicate that ‘they would have bolted to other panels to make a larger lens assembly’. The absence of holes would confirm that ‘they were made specifically to stand alone’. The sector panels were removed from the Gabo lantern in February 1992. At some point after their removal, they were found in boxes marked with ‘Ince Pt.’, however it is thought that Ince Point lighthouse ‘never had … stand alone sectors’. The panel in the Gabo Island collection is one of two segments discovered at the Eden Killer Whale Museum in about 2007. One section was repatriated to Gabo Island and the other was to go to Smoky Cape Lighthouse in northern NSW. The Gabo lens segment has first level contributory significance for its historic value and provenance to the lantern room. It is recommended that Parks Victoria/AMSA seek to return the Smoky Cape segment to Gabo Island and reunite the sector panels.The Gabo lens segment has first level contributory significance for its historic value and provenance to the lantern room.Section of a lens from a lighting apparatus , rectangular louvers of glass enclosed in a metal frame.

The two hand-held, portable kerosene lamps each have green enamel caps over the glass. They were used from around the 1930s until 1993, and one is now located on the groundfloor level of the lighthouse and the other is in the assistant lightkeeper’s quarters. The brand name of the Point Hicks lamp, while not stated is probably Coleman, Tilley or Austramax, which were all similarly made, portable pressurised kerosene lamps. Coleman brand pressure lamps and lanterns were first made in about 1905 by American, William Coleman, and their English competitor was the firm, Tilley. The Australian company Austramax began manufacturing kerosene pressure lamps in Brunswick in 1946, making the bases and the workings by hand, turning out 1000s of lamps each week. Portable lamps were used worldwide where bright light was needed and they became essential as an emergency back-up source of light for the lightstation as well as the lantern room. Through the multiplication of light by the lighthouse lenses, they could provide a tower with a 26 nautical mile range. Lamps similar to the two Point Hicks examples can be found at Gabo Island, one of which is a green enamelled Austramax lamp; Cape Nelson (Austramax), and similar lamps are held at Cape Schanck and Cape Otway. The two Point Hicks lamps have first level contributory significance for their historic value and provenance, and as representative examples of lamps that were widely used in Australian lightstations between the 1930s and 1960s.PHLS0008.1 & PHLS0008.2 Pressurised kerosene lamp, cover over glass is made of green enamelled metal.

Associated sheet of paper inside box lists each of the test plates as having been tested and found defective.Cardboard box containing cotton wadding and straw padding layered above glass plates individually wrapped in tissue paper. Five plates in the top layer, followed by more padding, 2 more plates, padding, 8 glass plates, padding and straw. Plates are variously sized and circular in shape.Handwritten on box lid: 'REJECT TEST PLATES / MK1 DIAL SIGHT' unreadable handwritten inscription '18' '[E. E. N Wa...worth] / [...] / [Kob...]' '23/11/45' Munitions labelled with technical specifications of each lens. dial sight, optical munitions, glass, mk 1

Used as a visual aid in classrooms at Ballarat School of Mines Early media technology used by the histroical school of Mines in Ballarat Brass Lantern Slide projector, used for glass slidesof maximum 8x8 picture size. Projector has original power cord and phillips projection globe as well as 2 sets of lenses. Name plate on side door with manufacters identity " Radiguet & Massiot: Constructeurs, 13 et 15 Bould des Filles du Calvatre. Paris".projector, ballarat school of mines, paris, glass slides, radiguet & massiot, theatre, photography, lantren slide