Provenance not clear. Leather case has 'MMBW' inscribed in black pen, indicating an association with Melbourne Metropolitan Board of Works. Item has been in the possession of Terry McCormack since 1972Hand held brass pocket inclonometer level, circa 1920. Leather case for safe storage. Semi circular graduated dial with 90 degree vernier scale with a small (20mm) magnifying glass to aid reading the vernier scale. Above the body, mounted at the rear of the graduated dial, is a spirit level tube which is tilted by finger movement to the milled hand wheel. The height to be determined is sighted through the instrument eyepiece and the bubble tube is tilted until the bubble, viewed in the mirror inside the sighting tube, is brought level with the graticule sighted at the top of the subject object. An angle is thus obtained and by measuring the distance on the ground to the object, trigonometry can be applied to determine the height of the object.Herga & Co. BRISBANE. Made in England

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

Black painted tin rectangular in shape with two hinged coloured filters at the front (red and yellow). Also a hinged piece of tin at the top which can be lowered over the top of the front filters. Small cylindrical chimney on the top. Regulator dial on the side. Round metal area inside to place candle inrailways, signal lamp, lantern

Information from Norman F. Dalton: Ballarat had a reticulated DC supply in the early part of last century and in 1905 had sufficient generating capacity to enable the trams to be changed from horse drawn to DC electricity. The use of electricity increased with the main power station located on Wendouree Parade, near Webster Street, under the ownership of The Electric Supply Company of Victoria. AC generating plant was installed in 1925 and conversion to AC proceeded. In 1934 the company was taken over by the State Electricity Commission Victoria (SECV) and more AC generation was installed and the changeover of customers was accelerated. This is around the time that the Synchronome Frequency Checking Mast Clock was installed at the Wendouree Parade Power Station. The SECV Annual Report of 1921 states: ::Section 11 of the act directed the COmmission to enquire into the question of securing the adoption of such standards of plant and equipment of a system, frequency and pressure for the generation and distribution of electricity as will admit of the efficient interconnection of undertakings throughout the State. In 1934 when the SECV took over the Ballarat operations the question of linking with the State grid had been a planned operation for some years but due to financial considerations had hindered it and in fact would continue to do so for a further 10 years. So while the need for close frequency control for interconnection was hardly an issue, the need to keep electric clocks correct was important, particularly as this item was a frequent sales point to cover the inconvenience and sometimes expense of converting from DC to AC. The clock is a very accurate pendulum clock with provision for varying effective length during operation for precise time regulation. There are two normal time dials and one is controlled by the pendulum and the other is operated by the system frequency. When the clock was in use it was installed by the MEter and Tests Laboratory and the time was checked daily by radio time signals. The two dials were repeated in the operators control panel in the Power Station. A maximum deviation between the two dials was set in the operating instructions (eg 5 seconds) and the operator would correct this when necessary by remote manual alteration of the turbine governor set point. The clock was used to drive and regulate a system of "slave" clocks which were used to display the time in various locations around the power station. A slave clock is a simple clock which is driven by a small electric motor, its accuracy is regulated by the master clock every 30 seconds to ensure that it and all the other slave clocks in the station are on exactly the right time; slave clocks were placed in various locations, from common rooms to workshops. A master clock could potentially run thousands of slave clocks at one plant. The clock also contains a rectifier. A rectifier is a device that is used to convert AC power to more stable DC current.Two clocks in a timber case. Both are electric, one is powered by the main pendulum mechanism, the other is a self contained electric clock. The main mechanism is of the gravity arm and roller type, which sends an impulse to the slave clocks every 30 seconds. The This Synchronome Frequency Checking Master Clock was used at the Ballarat Power Station. Below the main section of the case is a smaller cabinet containing a rectifier to provide consistent DC power for the clock. The rectifier was made by the Victorian company Hilco, which was located in Burwood. There is a high chance this is not the original rectifier from this clock as there appears to be brackets to hold a larger device in the space the rectifier occupies.Front below main clock face on front of case: "Patented Sychronome Brisbane" Lower left-hand clock face: "Frequency time" Lower right-hand clock face: "Standard Seconds" Synchronous electric clock mechanism on door (Frequency time clock): >200/250 V. 50~ >"Synchronomains" Made in England >Direction indicator for clock starting switch >"To start move lever in direction of arrow and release" >"Patent applied for" Mechanism for "standard seconds" clock: >"English Made" >"Patented" >Serial number "321" >0 above right-hand pillar on front-plate Mechanism for "standard seconds" clock: >"English Made" >"Patented" >Serial number "321" >0 above right-hand pillar on front-plate Mechanism for main clock face: >"English Made" >"Patented" >Serial number "8751" >0 above right-hand pillar on front-plate Inside case, back panel, top enamel plate: >Seconds Battery + Pos. > Battery Common or - Neg. >1/2 min dials Inside case, back panel, bottom enamel plate: external seconds dial Inside case, right hand side, electrical knobs: two switches, both "A.C. mains" Pendulum rod, below suspension spring: Serial number (?) 0000005 Rectifier in bottom cabinet: >"Hilco Rectifier" >"A.C. Volts 230/240" >"Model 1060/S" >"A.C. Amperes" >"Serial No. 1060/S >"Phases 1" >"D.C. Volts 6" >"C.P.S. 50" >"D.C. Amperes 1" >"Made in Australia by Hilco Transformers McIntyre St., Burwood, Victoria." Bakelite electrical plug: makers mark Lower cabinet, RH side panel, pressed tin plate: "AC" (upside down) Brass speed adjustment, outer right RH side: "S" and "F" Ivory and wood pendulum beat ruler: >Ruler, with 0 in centre and numbers 1-5 in ascending order from centre on left and right. > "Synchronome Patent." Steel plate, back panel, inside case, right hand side: >N R A" (descending) >"2191" serial number/part number Face of main clock: "Synchronome Electric" synchronome frequency checking master clock, electricity, state electricity commission, wendouree parade power station, secv, clock, time, pendulum, electric supply company of victoria, norman f. dalton, ballarat power station, rectifier, slave clock

Kerosene Lamp for a bike. Tin rectangular shape painted black. Silver round edging surrounding a glass lens. Protruding from the side is a small triangular shape with a red lens facing back. Also at the back is spring bracket used for mounting the lamp on the bike. One side also has a regulator dial. bike, bicycle, lamp

APH began producing it's own line of products to satisfy it's clients, outsourcing the manufacturer to overseas companies. This talking book machine, had an optional carry case, and dials to control tone, volume, speed, front buttons to record, rewind, forward, play, and stop tape. Playing both 2 and 4 track tapes, it also had Braille signs next to some of the buttons.Plastic rectangular light brown audio player with buttons for navigational controls, power cord, outlets for ear or head phones and black vinyl protective zip up cover Model no. 3-5194A.audio equipment, royal victorian institute for the blind

A female hand operates a switchboard, connecting outside callers to internal lines. The switchboard has a series of buttons with printed labels and some with Braille underneath them. On the operator's forefinger is a silver metal rod, probably used to depress the switches. To the bottom right of the image are both buttons with individual numbers as well as a rotary dial. In the background, her arm rests on the bench as she listens to the handset.Digital image of female using a switchboardemployment

Produced by General Electric (GE) for American Printing House for the Blind in Kentucky, this player has dials to control tone, volume, speed, side and buttons to record, rewind, forward, play, pause and stop tape. Handling both 2 and 4 track tapes, these players were targeted towards the vision impaired, as it allowed greater freedom to adjust recording styles to suit individual listeners. Plastic rectangular brown audio player with buttons for navigational controls, a handle and black vinyl carry pouch.audio equipment, assistive devices

The first transistor radio (the Regency TR-1) was produced by Regency Electronics in cooperation with Texas Instruments in 1954. Transistor 4 , the AWA transistor radio was manufactured by Amalgamated Wireless Australasia Limited (AWA), Australia's largest and most prominent twentieth century producer of radios, televisions, audio and telecommunications equipment. Transistor radios went on to become the most popular electronic communication device of the 1960s and 1970s. Billions of transistor radios are estimated to have been sold worldwide between the 1950s and 2012. They were exceptionally popular amongst young people in Australia due to their portability, allowing them to be taken wherever you wanted to gather with friends or, due to the headphone attachment, without disturbing those around you. These pocket radios are representative of technological developments which had a vast influence on social life and activities throughout Australia.4 pocket transistor radios of various brands. No. 1 orange Sanyo RP 1280 manufactured in 1979/1980. No2. is white bakelite No. 2 K--181 pocket transistor made by the Kmart Corporation c1975 and No. 3 is a Nation Brand AM Portable Receiver made in Hong Kong c1980. No. 4 Is an AWA Radiola B121 Solid State pocket transistor. All of them include a socket to plug in an ear piece.No. 1 on the front "SANYO RP 1280 and tuning dial. On the back: "SANYO MODEL RP 1280/ DC 3 V 2 x "AA" BATTERY/ SANYO ELECTRIC CO. LTD." No. 2 on the front "K-181" and tuning dial. On the back "Code 600-857/ AM POCKET RADIO/DC-3VC (UM-3x2)/ART 181. HONG KONG" No. 3 AM Portable Receiver Nation Brand on front No 4. on the front: below dial - AWA Radiola B121 ad at bottom "SOLID STATE" On the back: AWA Thorn Consumer Products Pty. Ltd./Model No. B121/Batteries 2 x UM-3 OR AA Cells/AM 520 -1620KHz/ Serial No. 75686/ Made in Hong Kong"radio communications, transistor radio

Item used by Navigators or Pilots of small aircraft. Belonged to Maxwell Lennox MATHESON 418447 RAAF. Refer Cat No1959 for his service history.NAVIGATIONAL Computer Mark III.D, metal - bakelite, construction rectangular box shape, top lid hinges open. Top lid has a circular adjustment. Inside has another circular adjustment. Centre is a graph in red which winds by a dial on side. Inside top lid hand written in black are items of Navigation."NAVIGATIONAL Computer MKIID REF No 68/180 ICAN CALIBRATION"electrical technology, appliances & accessories, navigational

A Tretorn '4' metal tennis racquet with double shaft; a screw-type tensioning bracket at bridge and separate aluminium head insert. Handle wrapped with maroon perforated leather grip tape. Nylon strings. Plastic butt cap with tensioning dial. Materials: Metal, Nylon, Adhesive tape, Adhesive label, Leather, Plastictennis

In August 1884, Alfred Hirst who had started his trade as a watch repairer and was described as a watchmaker extraordinaire established Hirst Brothers and Company, on Union Street in Oldham Manchester. He took his two stepbrothers into the business and the company was set up to produce timepieces and jewellery as well as importing “Limit company” Swiss watches and precision machine tools for the watch and clock trade. By 1902 Hirst Brothers. had become a limited company and was still growing, adding other businesses in Manchester in 1904 and at Birmingham in 1907. The quality of the clocks and watches was such that Alfred Hirst realised his greatest ambition in 1912 with a range of watches which carried the "Limit" trademark. These watch movements had originally been made in Switzerland and shipped to Hirst Bros. to be put into British made “Dennison” cases. This trade brought even more growth with additional sales offices opening in London and Glasgow. At the outbreak of the First World War in 1914 found them manufacturing aircraft parts including revolution counters and optical instruments. The firm had been tasked by the Ministry of Munitions to solve the problem of pilots dropping bombs by hand and as a result, they effectively created the first bomb rack. After the war, the company once again began to prosper and with the demand for their products increasing they looked to build a new purpose-built factory to manufacture their products. In 1917 they purchased a seven-acre field site at Tame Side Dobcross, the designing of the new factory was passed onto local architect AJ Howcroft. His brief for the design of the clockworks would have been prompted by Alfred Hirst who having visited modern factories in the United States was inspired by the latest factory designs providing as much daylight as possible during working hours. The factory was eventually completed in 1920, by the mid-1920s there were cheap clock imports from Germany and production turned to radio sets and other components as well as counter and gas meters for the "Parkinson and Cowan" company who was later to take over the business. In 1926 came the cotton crash and the District Bank who had loans with the company foreclosed on the Hirst loan. The company did survive and throughout the second World, War II were involved in munitions work at the factory as well as making instruments for various aircraft. In the 1950’s they were producing meters and high grade measuring equipment but by the 1970's the business had closed and the factory was demolished in the mid-1980 "s The item is a good example of the later use of an early mechanism “Fusee” that was originally invented around 1525 in Prague. This type of clock mechanism was replaced as watchmakers looked for mechanisms that could reduce the size of clocks and watches, it appears England was the only country to continue making clocks with a Fusee device until around 1900,s of which our clock is an example. The use of a Fusee movement eventually became obsolete in 1970,s. The item is significant for the collection as it is a clock with a movement that has long since been made obsolete. Fusee type gallery wall clock made by Tame Side with an 8-day mechanical fusee movement. The white enamel dial is a little crazed and some of the Roman Numeral numbers are fading due to over-cleaning. The movement has a hexagonal iron pendulum bob hooking onto a pendulum rod with a spring-wound anchor escapement.Only mark is stamped on the movement believed to be a production number "13490" and made in Tame Side. (If the clock had been made after 1912 it would have had a trade mark "Limit")flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock, wall clock, fusee, gallery clock, alfred hirst, tame side

Adams jnr wrote many elementary scientific works, as well as on the use of mathematical instruments. He often combined in his written works with religious themes and scientific content, often against the prevailing thoughts of the time. According to one popular magazine of the time (Gentleman's Magazine), his works were often accused of "growing errors of materialism, infidelity, and anarchy". He started writing at a young age and developed a love for it, his main interests included math and science, these subjects he often expressed in his written essay's. Notable works from Adams are. An Essay on Electricity, and Magnetism (1784). Essays on the Microscope (1787). An Essay on Vision, briefly explaining the fabric of the eye (1789). Astronomical and Geographical Essays (1790). A Short Dissertation on the Barometer (1790). Geometrical and Graphical Essays, containing a description of the mathematical instruments used in geometry, civil and military surveying, leveling and perspective (1790). Lectures on Natural and Experimental Philosophy, in five volumes (1794).George Adams Sr and Jnr were both notable opticians and scientific instrument makers of the 18th century. Their contribution to scientific innovation and optical development cannot be underestimated. Having one of their early drainage levels in the collection and in extremely good condition is an asset to the Flagstaff collection.Drainage level or optical level. A brass surveying instrument with Achromatic telescope, bubble level and dial fitted to the Tribrach or footplate that has leveling screws. Tripod is wood and brass with adjustable and unscrewable legs (for ease of transportation). Made by "G. Adams Fleet St, London". Used in surveying and building to transfer, measure and/or set horizontal levels."G. Adams - London".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, george adams fleet street london, optical instrument, scientific instrument, technical instrument, surveyors level, george adams snr, projection microscope

This is the MINJAH telephone exchange testing unit. The exchange was adjacent to the property of MINJAH which is situated near Hawkesdale in Western Victoria. The exchange operated between 1955 and 1985. The testing unit was used for detecting and testing faults in the telephone system. The keys along the front were called "Hospital Keys" and were used to give subscribers a temporary connection in the event of a break down. The telephone exchange was replaced by an automatic exchange.This is a good example of a manual telephone system in Western VictoriaThis is a rectangular polished wooden box with a telephone mechanism on the side connected by a hook. On the front right is a dialling system which has been detached. On the front left is a volt meter. At the front bottom are seventeen switches. In the middle front are twenty keys which can flash up in various colours. There is writing on the side . There is a black metal label with writingAVD HAND SET S314470 c 7060 H/56 LINE & SELECTOR TEST SET HT& Co. Ltd. LIVERPOOL ENGLANDtelephone testing, minjah, manual telephone exchange

This handset appeared via Australia Post Office and was to some degree manufactured in Britain just prior to 1939. During and after World War II these handsets were made in Australia. The handset belonged to the SEC Victoria and later the Kiewa Hydro Electricity Scheme. As this unit has a winder arm (to notify the switchboard) it would have resided in a workshop/machine shop and not in an office. The durability of the bakelite covering gave good protection in any environment. In years later the bakelite came in colours. This type of handset being able to endure rough handling was ideal for the surroundings of the alpine terrain. It would have been at the various outside outposts or foreman posts as swift communications was essential and communications with all sectors of work in the Hydro Electricity Scheme was mandatory, not only for safety reasons but also for efficient operational day to day progress. Also refer to article in "This Week" Newsletter 30th June 2023. Article attached to paper copy.This Australian Post Office 184 black coloured bakelite wall mounted phone was initially developed by Ericsson Telephones Ltd Britain. It was used by the SEC Office based at Mount Beauty and therefore has a winder (for power and notification to the switchboard. The hand piece (large ear and voice receptors)is placed vertically above the dial up winder.On the winder plate in hand writing is" turn handle lift handset" and below the handle "when finished replace handset turn handle"sec communications, wall telephone, internal communications kiewa hydro electricity scheme

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

Book - 52 A4 pages + manila card cover, stapled on the left hand side, titled "MMTB Telephone Directory - February 1979", providing telephone numbers within the MMTB system and external dialled numbers, with officer names where known or detailed and location or head office room number. Has handwritten updates to 1981.trams, tramways, mmtb, telephones, personnel, depots, workshops, substation

The lightstation was connected by telephone to Cann River in 1928. The lighthouse retains ablack Bakelite telephone attached to the lantern room wall on timber box mount. It has a crank handle with instructions for its use on the crank dial, and a coiled handset cord, which probably dates the phone to just after 1949 when coiled examples like these began to replace fabric covered smooth cords. An image in 1991 shows the phone in the lower level of the lantern room It is one of four telephones at the lightstsation; with two others attached to walls in the assistant keepers’ quarters, and one in the head keeper’s quarters. The four phones formed an intercom system that facilitated communication between the lightstation buildings. Three telephones of the same wall-mounted, crank dial type remain at Gabo Island Lightstation; four remain at Cape Otway and five older examples remain at Cape Nelson Lightstation As fixtures attached to the wall, the four telephones are considered to be part of the building fabric and therefore included in the existing Victorian Heritage Register listing for the lightstation (VHR 1983).As fixtures attached to the wall, the four telephones are considered to be part of the building fabric and therefore included in the existing VHR listing for the lightstation (VHR 1983).Four telephones with a crank handle mounted on a wooden base, one is fixed to the wall of the lantern room and is black bakelite. Yes

This clock was made by Charles Frederick Falck who was a watchmaker and jeweller in Beechworth from 1863-1908. Falck was born in Körlin, Prussia on May 22nd in 1833 and died at the age of 75 in 1908. Ovens and Murray Advertiser, Beechworth: edition June 13, 1908 OBITUARY: Falck was brought up to the business of watch-making, in which he developed exceptional mechanical ingenuity. Attracted by the favourable prospects held out by the Australian discoveries of gold he, like many other young adventurous spirits, left his native land to seek his fortune in the great southern Eldorado, arriving in Adelaide in 1854, and shortly after came to Melbourne where he worked as a journeyman, and subsequently started in business on his own account. Feeling inclined to test his fortune on the goldfields, he went to Blackwood but, meeting with little success, he returned to Melbourne where he was married. In 1862, he moved to Beechworth, where he commenced business as watchmaker and gold-buyer. He then embarked in vine-growing on the Sydney road, but eventually resumed his business avocations. His skill in practical horology was evinced in a clock of his own design and manufacture, surmounted by a golden eagle, which was exhibited at the first Melbourne Exhibition in 1856, and which afterwards formed a pre-eminent attraction in the window of his business premises in Ford Street. For many years, he filled the position of timekeeper to the Beechworth Racing Club, with complete satisfaction also at various sports meetings. He leaves a family of six sons and one daughter (Mrs. Jas. Broadfoot) all arrived at maturity. The funeral, which was well attended by a number of residents, took place at the Beechworth Cemetery on Sunday, the burial service being performed by the Ven. Archdeacon Potter. The cortege was capably supervised by Mr. D. Wilson, undertaker. The clock was returned to Beechworth in 2020 through the generous support of the Copland Foundation. Given that Mr. C. F. Falck traded as a watchmaker and jeweller in Beechworth for 45 years and traded with the 1855 clock mounted in his front window, there is a direct link between the clocks and the social, cultural and economic life of nineteenth century Beechworth at time when the town was developing and expanding in response to gold mining. This clock represent the significant skill and expertise of Charles Falck as an horologist. Medium-sized pendulum clock featuring a carved gilt wood eagle with wings outstretch (épandre - expanded with wing-tips directed upwards) and perched above a pendulum rod that holds a silver dial clock face within a reeded sunburst surround. The clock has an eight-day fuse movement with dead beat escapement wound from the clock face. C. F. F. FALCK / EXHIBITION 1856 / MELBOURNEburke museum, copland foundation, beechworth, leonard joel, auction, purchase, clock, pendulum, eagle, eagle clock, charles frederick falck, c. f. falck, falck, horology, pendulum clock, melbourne

This watch belonged to Norman Borthwick of Ecklin, who, with his wife and two children, Janet, aged 7 and Jack, aged 6, were survivors of the sinking of the cruise boat, Nestor, on the Hopkins River in January 1921. The boat was on its regular trip from the Hopkins River boatsheds to Jubilee Park with 80 passengers. Ten people were drowned when the boat began to take water and sank about a kilometre upstream. Norman Borthwick was wearing the watch at the time and the hands have stopped at 5.20 p.m. on the day of the tragedy. A hero of the day was Constable Sharrock who drowned after saving the lives of several of those on boardThis watch is of great significance as it is an item that belonged to Norman Borthwick who was wearing the watch when he survived the sinking of the Nestor in the Hopkins River in 1921. This was one of the great tragic incidents in Warrnambool in the early 20th centuryThis is a Swiss-made watch made of gunmetal with a glass face and a metal winder at the top and a ring to attach the watch to a chain. The figures are Roman numerals and there is a separate minute hand dial. The watch is much rusted and is not able to be easily opened to see the mechanism. The gold-coloured hands point to the time of 20 past 5. The face of the watch is discoloured on the right hand side.‘Le Duc, Swiss made’nestor sinking, norman borthwick, constable sharrock

The item was donated by Dr K McCaul of the Royal Women's Hospital, Melbourne, in 1966.Anaesthetic trilene was administered to the patient via rubber tubing from the Trilene inhaler, within which the anaesthetic was converted into a vapor. The cylindrical metal apparatus sits atop a flat, square stand with four black rubber feet. Item includes ports and valves for connection to a face mask and vaporising chamber, as well as mask attachment and metal pouring jug with spout.Red markings identifying the manufacturer and the measurement scale are located on both the stand and top twist dial. The base of the mask attachment piece is inscribed with the manufacturer's details: 'Cyprane Ltd'. The metal beaker is engraved with a line marked at the 15cc level. trilene inhaler, tecota, anaesthesia, beaker, mask, vaporise, obstetrics, childbirth, dr k mccaul royal women's hospital melbourne, 1966, vapor, face mask, vaporising chamber, cyprane ltd, keighley

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

This clock was made by Charles Frederick Falck who was a watchmaker and jeweller in Beechworth from 1863-1908. Falck was born in Körlin, Prussia on May 22nd in 1833 and died at the age of 75 in 1908. Ovens and Murray Advertiser, Beechworth: edition June 13, 1908 OBITUARY: Falck was brought up to the business of watch-making, in which he developed exceptional mechanical ingenuity. Attracted by the favourable prospects held out by the Australian discoveries of gold he, like many other young adventurous spirits, left his native land to seek his fortune in the great southern Eldorado, arriving in Adelaide in 1854, and shortly after came to Melbourne where he worked as a journeyman, and subsequently started in business on his own account. Feeling inclined to test his fortune on the goldfields, he went to Blackwood but, meeting with little success, he returned to Melbourne where he was married. In 1862, he moved to Beechworth, where he commenced business as watchmaker and gold-buyer. He then embarked in vine-growing on the Sydney road, but eventually resumed his business avocations. His skill in practical horology was evinced in a clock of his own design and manufacture, surmounted by a golden eagle, which was exhibited at the first Melbourne Exhibition in 1856, and which afterwards formed a pre-eminent attraction in the window of his business premises in Ford Street. For many years, he filled the position of timekeeper to the Beechworth Racing Club, with complete satisfaction also at various sports meetings. He leaves a family of six sons and one daughter (Mrs. Jas. Broadfoot) all arrived at maturity. The funeral, which was well attended by a number of residents, took place at the Beechworth Cemetery on Sunday, the burial service being performed by the Ven. Archdeacon Potter. The cortege was capably supervised by Mr. D. Wilson, undertaker. The clock was returned to Beechworth in 2020 through the generous support of the Copland Foundation and the Friends of the Burke. Given that Mr. C. F. Falck traded as a watchmaker and jeweller in Beechworth for 45 years and traded with the 1855 clock mounted in his front window, there is a direct link between the clocks and the social, cultural and economic life of nineteenth century Beechworth at time when the town was developing and expanding in response to gold mining. This clock represent the significant skill and expertise of Charles Falck as an horologist. Large swinging clock featuring a carved gilt wood eagle with its wings outstretched (abaisé - expanded with wing-tips lowered) and perched above a pendulum rod that holds a silvered dial clock face within a reeded sunburst surround. (Similar to #2019.056.01) The clock has an eight-day fuse movement with dead beat escapement wound from the clock face. C. F. FALCK / WATCHMAKERburke museum, copland foundation, beechworth, leonard joel, auction, purchase, clock, pendulum, eagle, eagle clock, charles frederick falck, c. f. falck, falck, horology, pendulum clock, melbourne

Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWIIMetal based inhaler with glass dome lid. From the glass dome an elbow joint leads to a bulb for a rebreather bag [no bag]. There is a cork sealing an opening at the rear of the metal base and a blue sticker adhered.Printed in white on blue sticker: O.2.10 Manufacturer's logo moulded into metal insertjoseph clover, portable regulating ether inhaler

Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWII.Metal dome chamber with flat base and two circular pains of glass on each side of the dome as viewing holes. There is a long connector tube with an elbow joint attached to a bulb for a rebreather bag. A previous exhibition label, typed in black ink on buff coloured card, has been tied to the connector.Moulded into the connector for the rebreather bag: MAYER & MELTZER No 212827 •Printed in white on blue sticker: O.2.9. •Stamped into dome: MAYER & MELTZER / LONDON •Typed onto exhibition label: MODIFIED CLOVER'S INHALER. / c.1906. / Name unknown. the modification consists / in windows to shew the ether-level in the / bowl. The inhaler has otherwise the same / restricted channels as the model of 1877 / and shares its faults. / (Gift of Dr. A.E. Rowden White, 1939).joseph clover, wilson smith

Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWII.Metal domed chamber with a bulb attachment on an elbow joint for rebreather bag. There is also a connector for a facemask, but no facemask.White printing on blue sticker: O.2.2. •Engraved on dome: Clover's Inhaler / 1877.joseph clover, portable regulating ether inhaler

Dr. Joseph Clover (1825-1882), an English physician, first described his Portable Regulating Ether Inhaler on Jan. 20, 1877. Clover was an especially sought after anesthesiologist and early pioneer in the specialty. This was the best-known of many inhalers that Clover designed. The dome-shaped reservoir was turned to points on a control dial to gradually increase or decrease the percentage of the air that passed over the ether. Several inventors based new inhalers on this, while the original continued to be manufactured as late as the beginning of WWII.Metal domed chamber with a bulb attachment on an elbow joint for rebreather bag. There is also a connector for a facemask, but no facemask.Engraved on dome of chamber: Clover's Inhaler / Mayer & Meltzer / London •Moulded in to metal at connector: MAYER & MELTZER RD. NO. 212327joseph clover, closed administration, mayer & meltzer