The Lidwill machine was designed by Mark Lidwill in 1913, for the purpose of mechanical or insufflation anaesthesia. It was manufactured by Elliott Bros. of Sydney. Shortly afterwards, the Anaesthetic and Portable Machine Company of Sydney devised a machine that was functionally the same but also contained an electric lamp heater.Colour photograph of a modified Lidwill anaesthetic machine sitting on carpet, taken from above. The vaporiser is metal and circular, and has metal valves and controls and two orange tubes. The machine has an electric cord and power plug which is coiled on the floor.anaesthetic equipment, lidwill anaesthetic machine, mark lidwill, ether vaporiser, anaesthetic and portable machine company of sydney, vaporiser

Taking castings from the larynx of cadaver's, Archie Brain studied the anatomy and physiology of the upper airway in minute detail. He devised the Laryngeal Airway Marsk (LMA) as an alternative to endotracheal intubation. Since first gaining a patent in 1982, he produced over 1000 prototypes over the next 30 years in a constant effort to improve the device and patient safety. The LMA is a recent innovation and provides an alternative to endotracheal intubation and has made a significant contribution to safe airway management. Ovoid shaped black rubber layrngeal airway with orange access point stopper. Translucent rubber tube is glued into the airway and is cutaway within the internal space of the airway. The item is a prototype and the materials used to construct it are gathered from different medical items. The following text is present on the rubber tubing: 'EX 9.5 ORAL 12.9 USE ONCE Z79-IT 24 26 29'.anaesthesia, dr archie brain, laryngeal, mask, airway, medical advances, rubber, prototype, endotracheal

Part No 1636 - 6H - B1 fitted to Kittyhawk, B25, Vengence, Ventura, Liberator Black cylindrical body, face has background white markings 0 - 6 up & downCaution: / Do not blow in tube / PIONEER / REG.U.S.Pat>OFF. AN - 5825 - 1 / MFR'S PART NO. AC - 399 / SER. NO. AF - 43 139012 / BENDIX AVIATION CORPORTATION / SCLIPSE DIVISION / TETERBORO. NEW JERSEY. U S A rate of climb instrument, cockpit

This design was modelled on Queen Victoria's nursery bottles and would have been in use during mid 1880s to the early 1900s. This item is very similar to the Alexandra Feeding Bottle featured in the Maws catalogue of 1868. It was named after the then Princess Alexandra of Wales, later Queen Alexandra. This model had a glass stopper and a long rubber tube which connected at one end to a teat and to a glass tube at the other. The fittings were very difficult to clean and would hold milk particles, making them a breeding ground for the formation of bacteria. Sterilisation of feeding bottles by boiling, and boiling of milk and water, were not practiced effectively at this time.Globular shaped feeding bottle embossed with a crown on the upper surface. Next of bottle fitted with a glass thread. Writing imprinted on front of bottle, inside a ring, reads "THE VICTORIA FEEDING BOTTLE". The bottle has a flat shaped bottom to allow it to balance on a surface while being used."THE VICTORIA FEEDING BOTTLE"infant feeding, infant care

The first all transistor hearing aids appeared in 1953. They were created to replace vacuum tubes; they were small, required less battery power and had less distortion and heat than their predecessor. The vacuum tubes were typically hot and fragile, so the transistor was the ideal replacement. The size of these transistors led to developments in miniature, carbon microphones. These microphones could be mounted on various items. There were body hearing aids where the earpiece was connected to the hearing aid and battery pack worn on the body. Ear level hearing aids consisted of eyeglass, behind the ear (BTE), in the ear (ITE), and in the canal (ITC, CIC) hearing aids. A Widex 25 hearing aid from the 1950's made in Denmark. Brown and gold metallic casing with a volume control dial and an on/off switch. The curly wire runs to a circular outer disc. Although not present the disc would normally connect to an ear mould which is individually fitted to the wearer. The item comes in a soft leather case."DENMARK" inscribed on gold front. "WIDEX 25" inscribed on back. "WIDEX" on inside cover of case. "W" on outside cover of case device, hearing aid, loss, hard of hearing, deaf children australia, victorian school for deaf children, vsdc, denmark, widex

The first all transistor hearing aids appeared in 1953. They were created to replace vacuum tubes; they were small, required less battery power and had less distortion and heat than their predecessor. The vacuum tubes were typically hot and fragile, so the transistor was the ideal replacement. The size of these transistors led to developments in miniature, carbon microphones. These microphones could be mounted on various items. There were body hearing aids where the earpiece was connected to the hearing aid and battery pack worn on the body. Ear level hearing aids consisted of eyeglass, behind the ear (BTE), in the ear (ITE), and in the canal (ITC, CIC) hearing aids. Hearing aid with Pink and silver metal pack with attached wire to ear piece. Uses (A) battery. Ear piece moulded for wearer with dials for adjustments. In original box. Transitone and Universal Hearing Aids were manufactured by British Hearing Aids (Aust) P/L. Model 61T. NoV848 "TRANSITONE & UNIVERSAL/HEARING AIDS/BRITISH HEARING AIDS (AUST) P/L" printed on fabric inside lid of box. Inside battery compartment, label "MODEL 61T" ('T' handwritten) "V848" inscribed on hinge.

The first all transistor hearing aids appeared in 1953. They were created to replace vacuum tubes; they were small, required less battery power and had less distortion and heat than their predecessor. The vacuum tubes were typically hot and fragile, so the transistor was the ideal replacement. The size of these transistors led to developments in miniature, carbon microphones. These microphones could be mounted on various items. There were body hearing aids where the earpiece was connected to the hearing aid and battery pack worn on the body. Ear level hearing aids consisted of eyeglass, behind the ear (BTE), in the ear (ITE), and in the canal (ITC, CIC) hearing aids. A new aid type, the Calaid V, was introduced featuring a forward facing microphone, and three potentiometers for adjustment of maximum gain, maximum power output, and low frequency roll off. The Calaid V was introduced in the early 1980s and remained the most frequently used aid in NAL's service for the next ten years (From: THE CALAID: AUSTRALIA'S OWN HEARING AID by Laurie Upfold and Ray Piesse Single Behind-the-ear hearing aid. Provided and manufactured by the NAL (National Acoustic Laboratories), part of the Commonwealth Department of Health. "CALAID/V" on bottom face

The first all transistor hearing aids appeared in 1953. They were created to replace vacuum tubes; they were small, required less battery power and had less distortion and heat than their predecessor. The vacuum tubes were typically hot and fragile, so the transistor was the ideal replacement. The size of these transistors led to developments in miniature, carbon microphones. These microphones could be mounted on various items. There were body hearing aids where the earpiece was connected to the hearing aid and battery pack worn on the body. Ear level hearing aids consisted of eyeglass, behind the ear (BTE), in the ear (ITE), and in the canal (ITC, CIC) hearing aids. Part of the development of hearing aids Gold and burgundy metal casing, with an ear piece attached by wire. This is a body-worn hearing aid, with user instruction booklet. Manufactured by Rexton a subsidiary of Siemens."647 IV" on bottom of case, along with controls, "H N L" "M T O" and a numbered dial deaf children australia, hearing aid, rexton, siemens

The first all transistor hearing aids appeared in 1953. They were created to replace vacuum tubes; they were small, required less battery power and had less distortion and heat than their predecessor. The vacuum tubes were typically hot and fragile, so the transistor was the ideal replacement. The size of these transistors led to developments in miniature, carbon microphones. These microphones could be mounted on various items. There were body hearing aids where the earpiece was connected to the hearing aid and battery pack worn on the body. Ear level hearing aids consisted of eyeglass, behind the ear (BTE), in the ear (ITE), and in the canal (ITC, CIC) hearing aids. A Universal hearing aid supplied by Angus & Coote Hearing Aids. Universal Hearing Aids were manufactured by British Hearing Aids (Aust) P/L. Includes ear mould for right ear. In a teal leather box. ""Universal"/Mod 73-824" on back of pack. "Angus & Coote/HEARING AIDS" on inside of case.

The first all transistor hearing aids appeared in 1953. They were created to replace vacuum tubes; they were small, required less battery power and had less distortion and heat than their predecessor. The vacuum tubes were typically hot and fragile, so the transistor was the ideal replacement. The size of these transistors led to developments in miniature, carbon microphones. These microphones could be mounted on various items. There were body hearing aids where the earpiece was connected to the hearing aid and battery pack worn on the body. Ear level hearing aids consisted of eyeglass, behind the ear (BTE), in the ear (ITE), and in the canal (ITC, CIC) hearing aids. Tan plastic case hearing aid, with wire, ear piece and ear mold with metal clip. Made in England and sold by Myer Hearing Service. "MYER/HEARING SERVICE" engraved in gold on case. "MADE IN ENGLAND" on bottom of case. deaf children australia, hearing aid, myer hearing service

The first all transistor hearing aids appeared in 1953. They were created to replace vacuum tubes; they were small, required less battery power and had less distortion and heat than their predecessor. The vacuum tubes were typically hot and fragile, so the transistor was the ideal replacement. The size of these transistors led to developments in miniature, carbon microphones. These microphones could be mounted on various items. There were body hearing aids where the earpiece was connected to the hearing aid and battery pack worn on the body. Ear level hearing aids consisted of eyeglass, behind the ear (BTE), in the ear (ITE), and in the canal (ITC, CIC) hearing aids.Cream plastic hearing aid with metal back. Takes 3 batteries and there is a piece of paper in the battery case advising 'CAUTION'. Two round knobs on top, 'ON/OFF' and the other I assume is Volume. There is a plastic tag for attaching to a button (probably), headphone sockets. The front is metal lacework with a scrolled 'Z'"Z" on front. "ZEPHYR/HEARING AID/2546" on back. "U C"/"M"/"7777" on inside battery case.deaf children australia, hearing aid, zephyr hearing aid

Square cardboard box with a coloured illustrated lid with 'Tala' / Icing Set / How to Ice a cake. On one side of the box - 12 icing tubes in this set; Tala Icing set containing syringe, 12 tubes, turn table, icing book no. 1730, copyright design made in England. On the other 2 sides (opposite to each other.) Let all your kitchen ware be Tala - illustrated. Turning table is tin. 200mm outer stand, circle turntable 140 mm. Book: 'How to decorate a cake booklet' - 130 mm long x 195 mm wide and 5 mm thick; Pink plastic tray indented to hold metal cones 12 cones tubes each with different opening at the point. Icing syringe (nickel silver with brass collars). Plastic icing cone, Tala ware, Made in England 320 mm long, circumference 30 mm at point x 210 mm wideSee description.cooking, baking, icing, cakes, domestic, decorating

.1) Goggles, black plastic frame, foam padding, black strap. Brand name Oakley. .2) Camouflage paint in plastic container, hinged lid with mirror inside. 3 divided sections with dark green, light green & brown used paint. .3) Patch, square, at top - yellow, middle - white above blue, bottom - bright light green. .4) Foot powder in dark green plastic container, twist lid with holes. .5) Container, dark green plastic cylinder, 11 matches, assorted. .6) Container lid, snap on, for .5). .7) Tube of army personal insect repellent. Dark green plastic tube with screw top lid, unnumbered. Instructions & warnings printed on back of tube. .8) Metal signalling plate, Polished steel signalling plate with small hole in center. Instructions printed on one side. .9) Vinyl sleeve for signalling plate, green. Dole K.1) Written on foam in black texta: DOLEY. .2) Austcam NSN 6850-36-130-0172. Military Sunscreen DDM↑ 0598. .4) Foot Powder, Colbar Pty Ltd, 50g net, B/C 5-98, Formula Salicylic Acid 3%, Starch 10%, Talc 87%. .7) NSN 6840-66-106-0247.military equipment, containers, preventative medicine, goggles

Candle stick manufacturing moulds were extensively used throughout the Kiewa Valley and its regions to provide rural homes and businesses with illumination during times of limited light e.g. night time. These candles were used before the Kiewa Valley was placed of the electrical grid. The candles were made from parrafin wax. Before the 1920"s electricity was in limited supply due to the inability of the private electricity suppliers to service isolated rural regions. It was not until the Victorian State Government passed legislation (1920) to improve electricity supplies by forming the State Electricity Commission of Victoria (S.E.C.V.) Isolated rural communities could not meet the higher costs to have electricity supplies connected and therefore it was not until the 1950's that adequate domestic electrical power could be supplied.The isolation that the Kiewa Valley provided was of a greater hindrance to any utility (power,roads & telephone) where the cost per instillation was beyond the rural population's ability to pay either directly or indirectly. One of the benefits that the "closed" community of Mount Beauty had, when it was administered by the SECV was that some utility costs were a lot lower than that of the other settlements in the Kiewa Valley. This disparity led to a conference in 1928 of the rural and regional councils to demand from the Government an equality of electricity tariffs. This equality did not take place until 1965. The demand and usage of cheaper and affordable lighting that wax candles provided was for some rural families a way of life until the mid 1900's.This candle making mould is made from mild rolled sheet steel(tin). The top basin is rectangular in shape with beveled edges(facing in on all sides. There are six holes in the top basin for vertical hollow tubes to feed off. The six tapered cyclindrical tubes running from the top basin to the bottom raised platform base. All connections are welded together. The bottom of each cylinder has an opening for the candle wick. The wick is positioned in place before the molten wax is poured into the cylinders. A positioning ring has been welded to one bottom ring for stability.parrafin wax, candles, domestic household ighting

In 1890 D. Babcock invented a test for measuring the amount of butter fat in milk, either on the farm or in the dairy or creamery. Samples of milk were put in the glass vial and then spun (by cranking the handle) causing the cream to separate from the non-fat milk thus determining the percentage of cream in the milk. The product was then priced accordingly.Dairy farming in the Kiewa Valley was the main industry with farmers keen to test the quality of their milk before selling it. This centrifuge enabled them to test the amount of milk and cream being produced by their herd. This '1903 Butter Fat Tester' made 100 turns per minute. Early hand crank centrifuge for measuring the butterfat content of milk in the farm dairy or creamery. It has 4 brass / copper removable canisters with glass vials and tubes that fit inside. The glass vials bulge at the bottom and are marked with measurements 1, 2 etc.Numbers on the glass vialsmilk and cream tester, dairy farming, centrifuge

The stauroscope is an instrument for studying characteristic properties of anisotropic mineral particles. Later petrografic microscopes incorporate the stauroscope feature. Calderon Stauroscope in a hinged timber box. An optical device resembling a microscope with a vertical axes. The composite tube is made of brass, and is adjustabbly attached to a splayed-leg base equipped with a traingula section pillar. Instrument and accessoried housed in a brown polished timber box stauroscope, scientific instrument, microscope

Item originally belonged to Professor Bruce Mayes, University of Sydney c1950-65. According to Professor Warren Jones the item had been in a back room of the medical facility and Professor Mayes gave it to Warren Jones, otherwise it may have been thrown out. Warren Jones took it with him to Adelaide where he practiced from 1975. This item may have originally been imported from Germany.Uterine flushing tube, possibly Bozeman-type. Curved metal device in a loose 's' shape, with a bulbous point at one end, just above two circular metal loops which sit either side of main metal stem. Manufacturer is unknown.obstetric delivery

Pittock Collection : three tube spanners, varying in length (hexagon - 152, hexagon - 126 & square - 117mm). Extruded steel construction, no rod/s evident in coach builder's bag, reference 13000.2. Items stored in coach builder's bag, reference 13000.1.

Enlargement. of black and white photograph B91.172 Chemistry class. R.D.M. Soil Indicator colour chart on table and substances in test tubes. Front row: Margot George, Peter Smith. A further enlargement (B92.564) was used in the Centennial Display. Same students in B91.174.Inscribed, Students in Class Room Burnley Gardens B19-1238. Similar Negs B19-1237. Dup B87, B19-1239. Dup B88, B19-1240. Dup B89."r.d.m. soil indicator, colour chart, test tubes, margot george, peter smith, students in class, chemistry class

Margaret MitchellA rare and vintage gold painted metal Designoscope or Kaleidoscope with a prism and turntable for creating a kaleidoscopic effect. It is very rusted and worn. It has a triangular metal tube and a heavy base. It was designed for artists and illustrators rather than children. It has a coloured separate label."Designoscope British Made"kaleidoscopes, leisure object, optical toys

In 1806, William Colgate, a soap and candle maker, opened up a starch, soap and candle factory on Dutch Street in New York City under the name of "William Colgate & Company". In the 1840s, the firm began selling individual cakes of soap in uniform weights. In 1857, William Colgate died and the company was re-organized as "Colgate & Company" under the management of Samuel Colgate, his son. In 1872, Colgate introduced Cashmere Bouquet, a perfumed soap. In 1873, the firm introduced its first toothpaste, an aromatic toothpaste sold in jars. His company sold the first toothpaste in a tube, Colgate Ribbon Dental Cream (invented by the dentist Washington Sheffield), in 1896. In 1896, Colgate hired Martin Ittner and under his direction founded one of the first applied research labs.[3] By 1908 they initiated mass selling of toothpaste in tubes.In Milwaukee, Wisconsin, the B.J. Johnson Company was making a soap entirely of palm oil and olive oil, the formula of which was developed by B.J. Johnson in 1898. The soap was popular enough to rename their company after it - "Palmolive". Around the start of the 20th century Palmolive, which contained both palm and olive oils, was the world's best-selling soap. ). A Missouri-based soap manufacturer known as Peet Brothers merged with Palmolive to become Palmolive-Peet. In 1928, Palmolive-Peet bought the Colgate Company to create the Colgate-Palmolive-Peet Company. In 1953 "Peet" was dropped from the title, leaving only "Colgate-Palmolive Company", the current name.A metal cylinder with a screw top for a 'Colgate' shaving stick. Until the early 20th century, bars or sticks of hard shaving soap were used. Later, tubes containing compounds of oils and soft soap were sold. Newer creams introduced in the 1940s neither produced lather nor required brushes, often referred to as brushless creams.Soaps are used by wetting a shaving brush, which is made out of either boar hair or badger hair, and swirling the brush on the soap, then painting the face with the brush. Brushless creams do not produce a lather, thereby removing its ability to protect the skin against cuts.Cylinder : COLGATE & CO. / SHAVING / STICK / NEW YORK / USA Lid: C&Ccolgate company, colgate-palmolive pty ltd, morabin, bentleigh, cheltenham, razors, cut-throat razors, safety razors, early settlers, soap, shaving cream, toothpaste

A barometer is an instrument used for measuring atmosphere pressure thus determining weather changes.The first apparatus generally accepted as a barometer was that set up in Florence in 1644 by Evangelista Torricelli (1608–1647), a mathematician and physicist. Torricelli filled a glass tube with mercury, sealed it at one end, and inverted it with its open end in a dish of mercury. The level always fell a short way down the tube, then settled at a height of about thirty inches. He concluded correctly that the mercury column was sustained by the weight of the air pressing on the open surface of mercury, and further experiments convinced him that the space above the mercury in the tube was a vacuum. He noted that the level rose and fell with changing temperature, but he was unable to use his apparatus to measure variations in the weight of the atmosphere because he had not foreseen that temperature would affect the level of the mercury. News of this experiment circulated quickly among European scientists, who hastened to replicate the experiment. Torricelli's conclusions were not universally accepted because some disputed whether the air had weight, while both Aristotle and the Catholic Church denied the possibility of a vacuum. In France, the philosopher René Descartes (1596–1650) seems to have been the first person, probably in 1647, to attach a graduated scale to the tube so that he could record any changes attributable to the weather. At around this time Duke Ferdinand II of Tuscany organized the first short-lived meteorological network among scientists in other Italian cities, gathering observations of pressure, temperature, humidity, wind direction, and state of the sky.Theis barometer is an example of a household item from the early 20th century, used to determine the day's weather. The barometer is significant as an aid to human social, material and scientific development.Barometer, round, brass housing inset into carved wooden casing (lacquer mostly worn off). Decorative lettering for weather conditions "Stormy, Rain, Change, Fair, Very Dry". Workings are visible through opening in centre of dial. Indicator needle and another adjustable needle . Hook screwed into back of case.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, barometer, scientific instrument, weather forcasting instrument, weather gauge

The Australian Army bugle is a brass musical instrument used primarily for Military Purposes including signaling, commands, ceremonies and other official functions. They are no longer used in battle but still used as part of tradition.Brown/gold coloured bugle. Small hook at top so as to be able to attach it. Mouthpiece comes loose and inserted into the air pipe. Bugle is in the form of a mouthpiece inserted into a simple hollow tube of metal that circles twice before coming out to form into a widening tunnel.Mouthpiece has "Vincent Back Corp - 2 3/4c" engraved.brass bugle, musical instrument

Gunsight in a wooden storage Box. An arrangement of lens contained in a 6cm diameter x 70 cm long steel tube. Contained in a polished wood box with a hinged lid. Box also holds several accessories - aperture, resisters, filters. Serial Number 173scientific instruments, gunsight, lenses

Two glass tubes and a vulcanite pipe possibly part of an enema kit. Also included a thin oval shaped plastic band with a hole in the middle. These items are inside an Ingram's perfex enema box. The box is blue with white writing. Aileen and John Ellison Collection.medical, enema

Used by tramway revenue clerks, most likely the MMTB to count coins, as only so many 3d or 6d would fit into each container. Each has a hole in the base to enable it to be checked that it was empty prior to use or after being used. One of the 3d containers have a loose "washer" which shows the nature of the construction. Has been secured with a piece of string.Demonstrates the methodologies used to count coins and stack them in a revenue office. Provides a sample of each coin that would have been used.Brass coin holder - for use in counting 3d and 6d coins. Made from brass tube with a brass washer rolled or fixed to one end. In storage bag is a 3d and a 6d coin. 5 x 6d and 6 x 3d holders held in the collection.See physical descriptiontramways, tickets, cash handling, depots, revenue clerks, coins

This soda syphon used for making carbonated drinks is a French bottle made about the beginning of the 20th century. This bottle is of considerable antiquarian interest but unfortunately has no known local significance. It may, however, be the one given to the Historical Society by Mr and Mrs S. Lindsay of Koroit Street, Warrnambool. It will be useful for display. This is a French soda syphon made of clear glass in a double bulbous shape. It is covered with wire mesh and has a pewter spout. The pewter is somewhat corroded and there is one small bend in the wire mesh. There is a small glass tube inside the bottle and a there is a crack in the glass on the top sphere. On pewter spout: ‘Veritable Seltzogene D. Fevre Paris’. Label pasted on: ‘80’ soda syphon, veritable seltzogene de fevre,, paris, warrnambool