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 1851, letters sent through the mail were charged by the number of sheets it contained and the distance it travelled. For example, a letter consisting of one sheet of paper was charged the single rate; a double letter, that is two sheets, was charged double the single rate, a treble letter, was charged three times the single rate, and so on. In other words, each additional sheet of paper increased the charge by one rate. In Great Britain. Sealing a letter in an envelope effectively put an end to postal clerks' ability to count the number of sheets in a letter and an alternative method of determining the postage had to be found. Overweight mailings had previously required the items to be weighed but with the introduction of the Uniform Penny Postage act of 1839, the public could mail a letter not exceeding a half-ounce in weight within the United Kingdom for one penny if prepaid, or two pence if paid on delivery. At about the same time that the adhesive postage stamps and envelopes made their appearance, postal administrations began to experiment with strategically placed street letter boxes, known as pillar boxes because of their round, pillar-like shape, that permitted the public to mail letters from a place other than from a post office. For all these reasons, the use of postal scales became the nucleus of every post office. Scales had been in use since ancient Egyptian times so their use for everyday commerce was not unusual in the 1800s. What was new in 1840 was their ubiquitous use throughout the postal system. No post office could function effectively without one. Although the earliest scales used in post offices did not differ markedly from the ones in general use as time went on they were adapted specifically for postal use. For example, a paper sleeve, also known as a weight sticker, was attached that showed the applicable rate of postage for any given weight. This innovation was quite a time saver as postal clerks no longer needed to weigh the item first and then refer to a separate chart to determine the required postage for that particular weight. Victorian postal scales were used in village Post offices in the late 19th century, of which there are many examples today for sale. No maker can be attributed to the manufacture of the item. Postal scales with weights,. Balance scale has brass fittings and is mounted on a rectangular wooden stand, with depressions for brass weights; which measure 1/2oz, 1oz, 2oz, "Young Aton REL., C.N.0.9."flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, scales and weights, balancing scales, postal scales, letter scale

Hollis Brothers were first recorded trading from 11 Weaman Row in 1840 but appear to have started trading a little earlier. The firm later became Isaac Hollis & Sons and claimed establishment from 1814. Richard & William Hollis were recorded trading in Bath Street Birmingham from 1814 to 1818 so it may be that the Hollis brothers were descended from them. The brothers were Isaac Hollis (b.1815) and Frederick Hollis (birth date unknown), but Frederick died 20 December 1839. Isaac was recorded in the 1841 census living in Weaman Row. He was a 25-year-old gun and pistol maker, married to Emma 1821. They had two children, Isaac (1837), and Henry (1839). After Frederick died, Isaac carried on trading under the name of Hollis Brothers until 1845 when he re-named the business Hollis Brothers & Co who traded up to 1848. In 1844 Isaac entered into a short term partnership with William Tranter at 10 & 11 Weaman Row, presumably to complete a particular contract or supply certain parts. This partnership lasted until 1849. In 1848 Isaac took in Isaac Brentnall Sheath as a partner, and the firm of Hollis & Sheath was established, expanding into 10 Weaman Row. Hollis & Sheath were licenced makers of percussion breech-loading guns. In 1861 the firm changed its name to Isaac Hollis & Sons on the departure of Isaac Brentnall Sheath. Isaac Sheath died in July 1875. By about 1870 Isaac Hollis and Henry Hollis had taken over the day to day running of the business. Isaac Hollis was responsible for the overall management and the marketing of the firm's products. Henry was responsible for manufacturing. The firm became volume producers of inexpensive trade guns and sporting guns for the South African and the British colonies. In 1870 the firm opened a shop at 44a Cannon Street in London; in 1871 this moved to 83 Cheapside. Isaac Hollis Jnr died October 1875 in Birmingham aged 37. He was never married and in 1876/1877 Henry registered a limited liability company, Isaac Hollis & Sons Ltd, but by 1879 they were again trading as Isaac Hollis & Sons. From 1879 the London shop was at 6 Great Winchester Street. From 1932 to 1933 the London business traded as Hollis, Bentley & Playfair Hollis, Bentley & Playfair finally closed in Birmingham in 1953. This gun is a typical example of the type of firearm issued to the colony's military in 1861. Specifically made by Isaac Hollis and Sons for the military market of the time and sold through contractors Hebbert & Sons, military suppliers, in London. The gun was probably issued from the Hythe Armory to British troops (a training facility) or police prior to coming to Tasmania Australia around 1861.Gun; Percussion Carbine, .577 Cal. Colonial Tasmanian issue Artillery carbine, Pattern 1861. Muzzle loading "Cap and Ball" musket. Wood stock and ram rod. Inscriptions are on the stock and breech. Gun was made for Herbert & Co. London by Isaac Hollis & Sons, Birmingham.Stamped on stock "SOLD 95", " ISAAC HOLLIS & SONS" "GUN & PISTOL MANUFACTURES" "BIRMINGHAM" "LASTON ARMOURER HYTHE" "MANUFACTURED EXPRESSLY FOR HEBBERT & CO LONDON". Stamped on breech "25", and "25C ---05"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, firearms, gun, muzzle loading musket, isaac hollis and son, hebbert & sons, military supplies, lee enfield

Philip Webley was born in 1813, he was the younger brother of James Webley who was born in 1807. Both were born in Birmingham. Towards the end of the 1800s, the firm claimed establishment in 1790, this must have been the date James and Philip's father or grandfather originally established a bullet or gun implement making business. It was not, as is often stated, the date William Davis established his business. Philip Webley was apprenticed in 1827 to Benjamin Watson. James Webley also seems to have been apprenticed but to who is not known. In 1834 James and Philip established their partnership as percussioners, lock filers and gun makers at 7 Weaman Street,Birmingham which was William Davis' old premises Davis, a gun implement maker, mould and toolmaker, died in 1831 and his wife Sarah inherited the business at 84 Weaman Street which she ran with her daughter, Caroline. On 5 January 1838 Philip Webley married Caroline. Philip was recorded at 84 Weaman Street from 1838 as a gun percussioner, lock filer and gun maker and this is when the partnership was last recorded, but the brothers apparently continued to co-operate until 1845 when Philip reportedly sold his interest to James and used the money to purchase Sarah Davis' business. Even then, they worked together particularly about the design and manufacture of percussion revolvers. Philip Webley was recorded in the 1851 census as a 38-year-old gun and pistol implement manufacturer living at 84 Weaman Street with his wife Caroline they had four sons and one daughter Thomas William, Emma, and Philip Jnr, and two other sons, James, and Henry and Philip's cousin, also lived with the family probably as a nurse, Sarah Haywood. On 4 February 1853 Philip Webley registered patent No. 335 for a hinged revolver and on 14 September 1853 he registered patent No. 2127 for improvement for the first muzzle-loading percussion cap and ball revolver which became known as the "Longspur". In 1859 Philips son Thomas William, aged 21, was made a partner in the firm, which then changed its name to P Webley & Son and described itself as "Gun and Pistol Makers and Patent Revolving Pistol Makers", probably exploiting Philip Webley's patent No. 305 of February 1853 for a revolver frame and lock, and its improvement under patent No. 2127 of September 1853. Thomas later went on to managed the shotgun side of the business. From about 1863 up to the First World War, the firm made rook rifles for Holland & Holland. From the 1890s they supplied magazine rifles. In 1863 and 1864 the firm's address was given as 83-84 Weaman Street, but from late 1864 to 1875 their address was 84 Weaman Street. By 1874 the firm had a showroom in London at an unknown address. In 1875 the firm expanded into 82-84 and 88-89 Weaman Street. The item is an early muzzle loading sporting shotgun not in very good condition and is unusable as a firearm and not very significant historically or valuable, although made by a well known and respected manufacturer of firearms there are many better examples of shotguns made by P Webley and Son in collections and for sale. This particular example is of a standard pattern for utilitarian use of which many were made. Shotgun, black powder, muzzle Loading, double barrel, percussion cap. P Webley & Son maker on left and right lock and P Webley & Son James St London on top of barrel. Barrel split in two. Has 14 stamped under each barrel with Birmingham proof marks for black powder shotguns. on undersides of both barrels. Proof marks used are early metal parts have decorative engravings of a gun dog flushing a birdwarrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, gun, shotgun, double-barrel shotgun, firearm, muzzel loading shotgun, philip webley, black powder, percussion cap, hunting weapon, birmingham gun manufactures, w & c scott & son

Westclox had a highly successful factory in Scotland situated in the Vale of Leven Industrial Estate, in Dumbarton, around twenty miles from the City of Glasgow. Westclox had originally planned to start production in Scotland in 1939 but the War intervened and it was not until 1948 that they were able to fully commission their factory in Dumbarton. Westclox Scotland produced its first clock on the 21st September 1948; a spring wound alarm with a 4 inch dial. The Westclox factory in Scotland was a full manufacturing plant with all their clocks assembled from start to finish with only the basic raw materials being brought in by outside suppliers. 95% of the staff were local people and the firm trained their employees from scratch to a high level of skill and had an annual apprenticeship for toolmakers and classes in horology. By 1949 Westclox Scotland were making 10,000 clocks a week, and by 1950, 1,000,000 clocks had been produced since its opening. No home in the Dunbartonshire Vale was without at least one Westclox clock, nor any raffle complete without a clock as one of the prizes! Many of these clocks are still around today. So successful was the Dumbarton factory that in the mid 1950’s Westclox had to expand into adjoining buildings. The factory then added watches to what they made as well as timing devices for other sectors. By the mid 1960’s, employment levels at the Scottish plant were around 1100. Over a third of the clocks manufactured in Scotland were exported to some 110 countries across the globe. Difficult times came in 1967/68 when 400 workers were laid off and the future of the plant was in doubt primarily due to cheap clocks from the then communist countries. However, strong petitions to the UK Government produced the passing of an anti-dumping law allowed production from the factory to pick up. In 1968 General Time was bought out by Talley Industries, which was best known as a manufacturer of timing equipment, such as factory time clocks to various industries. Westclox in Scotland enjoyed several boom years under the then Managing Director, John Santos. Westclox Scotland in October 1974 hosted a Space Seminar for the Astronaut, Neil Armstrong and British Astronomer, Sir Patrick Moore. Both visited the Scottish factory to promote the introduction of Quartz time-keeping. In 1976 the Westclox plant in Dumbarton became the Headquarters of General Time (International Operations) Ltd. John Santos retired from General Time and Westclox in the early 1980s and by 1988 the future of Westclox in Scotland was almost over. The advent of Quartz clock technology, developed largely by General Time for use in the Apollo 11 Command Module, resulted in the reduction of mechanical clock production and sales, and the factory fully closed in 1988.The Westclox factory building in Dumbarton has been converted and is now home to many thriving small businesses. The item marks a time when clock production in the United Kingdom was at it’s peak producing clocks for sale in over a 110 countries, they were keenly priced and available to all. The company had many innervation's during it’s life regards clock and later wrist watch making. In 25 years the factory had produced over 50 million clocks, yet it was perhaps inevitable with the advent of Quartz technology that was ironically evolved, largely by General Time for use in the Apollo 11 Command space Module, that would ultimately herald the end of the mechanical clock.Wooden bedroom alarm clock small painted brown with a criss cross pattern in gold and a white enamel face roman numerals & a glass front, clock case is of a fancy design. Inscribed on face "Made by Westclox Ltd Scotland" .flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, clock mantle, clock, mantle clock, westclox ltd, horology, clock industries

This draw knife once belonged to a Sough Australian family of coopers, or barrel makers surnamed Schahinger. The maker was Hale Bros. of Sheffield. The brothers, John Thomas Hale (1853-1919) and Samuel Stafford Hale (1855-1948) owned the Moorfield Works. The firm's Corporate Mark of a horse's head was granted in 1842 and came with the statement that "All tools marked with a "Horse's Head" are Guaranteed". The firm made tools for edgers and joiners, wall drills, cold chisels, files and rasps, printers' and publishers' tools, butchers' and bread knives, and table cutlery. This draw knife was used by a cooper in South Australia for making wooden barrels in the traditional manner. The makers had a family business of making knives, cutlery and tools for trades people. This draw knife is relevant to the trades represented in a maritime village of the late 19th century. Draw knife; cooper's steel draw knife with bulbous wooden handles that have scored rings as decoration. The straight blade is 13 inches long. Inscription and logo of a horse's head on centre of blade. Made by Hale Bros of Sheffield. "HALE BROS / SHEFFIELD / - - - - " Image [Horse's Head]flagstaff hill, warrnambool, maritime-museum, coopers, draw knife, barrel maker, hale bros., sheffield, moorfield works, john thomas hale, samuel stafford hale, knife makers

Tobacco smoking became a popular leisure activity in the 19th century. The corkscrew and the tapper accessories are used to clean the pipe and remove the debris after the tobacco is smoked in the pipe. The tamper is marked Capstan, which is a brand of pipe tobacco. The brand was first used in 1894 when W.D. & H.O. Wills launched their new product. The pipe tobacco accessories are associated with tobacco pipes and with Capstan tobacco, which became available in the 1890s. Smoking has been a popular leisure activity since the 19th century and continues now. The manufacturer of Capstan, W.D. & H.O. Wills, was the first company to mass-produce cigarettes.Pipe cleaners; a pair of metal accessories tools for cleaning tobacco pipes. One is a corkscrew, and the other is a tapper, shaped like a tapered nail. The tapper has an inscription. The brand is Capstan."Smoke" "Capstan"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, capstan, tobacco pipe tools, tobacco accessories, pipe corkscrew, pipe tamper, tobacco tapper, tobacco smoking

Francis Powell (1861-) and Francis Hanmer (1858-1925) founded Powell and Hanmer Ltd in the Summer of 1885 for the manufacturer of bike and carriage lamps. Their first advertisements began to appear in November of 1885. In 1890 they lodged a Patent for “velocipede” lamps to be used by lightweight wheeled vehicles propelled by a rider, such as a bike, tricycle and railroad handcar. In April of 1913, they were selling headlamps for cars and in 1914 built their second factory manufacturing dynamo lighting sets in Rocky Lane Birmingham, also for the production of dynamos for motor cars. Then in 1929 Powell and Hanmer Ltd, was acquired by the Lucas company which was at that time the main competitor for the manufacture of non-electrical equipment for cycles and motorcycles. When a director of Powell and Hanmer joined the board of Austin motor cars, Lucas feared that Austins might encourage Powell and Hanmer to start to produce electrical equipment for supply to the company and as a result this association might affect Lucas's business with other large vehicle manufacturers. As a result, Lucas made an offer to Powell & Hanmer and purchased the business for £500,000. Carbide lighting was used in rural and urban areas of Australia which were not served by electrification. Its use began shortly after 1900 in many countries and continued past the 1950s. Calcium carbide pellets were placed in a container outside the home, with water piped to the container and allowed to drip on the pellets releasing acetylene. This gas was piped to lighting fixtures inside the house, where it was burned, creating a very bright flame. Carbide lighting was inexpensive but was prone to gas leaks and explosions. Early models of the automobile, motorbike and bicycles used carbide lamps as headlamps. Acetylene gas, derived from carbide, enabled early automobiles to drive safely at night. Thick concave mirrors combined with magnifying lenses projected the acetylene flame light. These type of lights were used until reliable batteries and dynamos became available, and manufacturers switched to electric lights. Acetylene lamps were also used on riverboats for night navigation. The National Museum of Australia has a lamp made in about 1910 that was used onboard the PS Enterprise, an 1878 Australian paddle steamer, currently owned by the National Museum of Australia in Canberra. It is still operational, and one of the oldest working paddle steamers in the world, listed on the Australian Register of Historic Vehicles.Acetylene Carbide lamp, Model “Panther” distinct patterned side red and green lenses. These lamps were also known as acetylene gas lamps. They work off a chemical reaction between calcium carbide and water.Model 75flagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, carbide lamp, motor vehicle, bike lamp, lighting, vehicle lighting, powell, hanmer, acetylene gas lamp, early lighting

This little book has been designed to fit into a small space such as a pocket, backpack or trunk. The brass book lock helps keep the pages and covers together, preserving them from being bent, torn or damaged in handling.The book includes four of ten parts of the Manual, published for use in training the garrison troops, including the placement and firing of cannon. The four parts included in this Volume I are: - Part 1 - Gunnery Part 2 - Ammunition Part 3 - Siege Artillery Part 4 - Garrison Gun Drills The remaining six of then parts are: - Part 5 - Material and Appliances Part 6 - Elementary Instruction Part 7 - Machines Part 8 - Mounting and Dismounting Ordnance Part 9 - Sleighs Part 10 - Sheers and DerricksThe book is significant to both British and Australian history, being issued for the training of the garrison defense of both countries in the late 10th Century. It is also significant for its connection with other historical military items within the Collection at Flagstaff Hill Maritime Museum and Village.Manual of Siege and Garrison Artillery Exercises Vol 1 [Parts I, II, III, IV] Publisher Her Majestys Stationery Office Date 1879, Corrected June 24th 1882 Small, red, hard-cover book with embossed gold letters and British Coat of Arms on the front. The book has a brass closure or locking clip across the text block. There are diagrams and a foldout table within the text. flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, training manual, book, british garrison, garrison artillery, siege exercises, british government training book, technical book, pocket book, manual of siege and garrison artillery exercises vol 1, garrison exercises, military training, defense training, british artillery, royal artillery, gunnery, gun drill, brass book lock, british war office, locking clip, reference book

Not much is known about William Rothwell other than he is recorded as working as an optician and scientific instrument maker in Manchester at 277 Deansgate Street from 1780 until 1820. An entry in the “Complete History of the Trades of Manchester” published in 1822, in which the author describes Mr William Rothwell as an intelligent young man who is conversant in several languages. He went on to describe him as an philosophical instrument maker of optical and mathematical objects, specialising in spectacles, all sorts of surveyors instruments as well as eye glasses of all types. At present that is all that is known of William Rothwell other than his products were made to the highest standards of the time. Today his products are now actively sought by collectors and are currently fetching high prices at auction sales overseas. The telescope is a rare item even though not much is known about Rothwell's history his scientific instruments and optical items fetch high prices when they become available as collectors look for rare and well made items from the 18th and 19th centuries. Its completeness and good condition make it a very good addition to the collection at Flagstaff Hill. A three draw military telescope brass with main cylinder section made of wood, main lens is removable for cleaning.Marked "Rothwell, Manchester"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, telescope, william rothwell, scientific instrument, manchester optician, optician

The ship’s communication system that was used from the late 19th century to early-to-mid-20th-century is called an Engine Order Telegraph (E.O.T.) or ship’s telegraph. The system has two parts, the Bridge Section and the Engine Room Section. The Bridge Section is usually mounted on top of a pedestal, and the Engine Room Section is often attached to a vertical surface. The standard commands printed or stamped onto the dial are the directions of AHEAD and ASTERN, and the speeds of STOP, SLOW, HALF, and FULL. The ship’s pilot on the Bridge of a vessel sends his Orders for speed and direction to the to the Engine Room with the E.O.T. He moves the lever or levers, depending on the number of engines the ship has, to change the indicator on the Bridge Section’s dial to point in the new direction and speed of travel. This change causes the Orders to be duplicated on the Engine Room Section’s dial and a bell to signal the change at the same time. The engineer then adjusts the ship’s engines and steering equipment to follow the pilot’s Order. The manufacturer, A. Robinson & Co. Ltd of Liverpool, established his business in 1780 and continued until 1968 when the business was purchased by marine products maker Chadburns, established in London in 1870.This Engine Room section is part of a ship's telegraph communication system and represents marine technology used in the late-19th to mid-20th-century. Engine Room Section of a ship’s telegraph or Engine Order Telegraph (E.O.T.). The round brass dial has inscriptions stamped around its edge and centre. Red inlaid glass plates have inscriptions in white paint on them. The inscriptions are nautical terms for direction and speed and include the maker’s details. A rotating pointer is joined to the centre of the dial. The maker is A. Robinson & Co. Ltd of Liverpool. Stamped: “FULL / HALF / SLOW / STOP / FULL / HALF / SLOW / STOP”, “AHEAD / ASTERN” Printed: “FULL / HALF / SLOW / STOP / FULL / HALF / SLOW / STOP” Stamped on the dial: “A. ROBINSON & CO. LTD / MANUFACTURERS / LIVERPOOL”flagstaff hill, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, marine technology, marine communications, engine order telegraph, e.o.t., ship’s telegraph, bridge section, engine room section, ship’s engine telegraph section, marine telegraph, a. robinson & co. ltd, liverpool

This timetable was found by Dave Maxwell behind an old photograph. David's family came to Warrnambool in 1838.The timetable is an example of travel in the late 19th century. It shows the frequency of voyages between London and Adelaide and the time taken to make the journeys by steamship in 1895. Orient Steam Navigation Company's timetable for steamship voyages outward bound from London to Adelaide, and inward bound back to London, for 1895. The document has black print on cream-coloured paper and is mounted onto a card backing. The timetable lists voyage n from January 1885 to January 1886, with details of month, date and times. The itinerary begins from London to Naples, Port Said, Colombo, King George's Sound and finally to Adelaide (Semaphore), taking 35 days for the journey. The steamship then returns to London. The timetable was approved by Her Majesty's Postmaster-General on the 14th September 1894. There are indecipherable inscriptions below the timetable."ORIENT STEAM NAVIGATION COMPANY'S LINE / FOR THE YEAR 1895 / APPROVED BY HER MAJESTY'S POSTMASTER-GENERAL ON THE 14TH OF SEPTEMBER 1894 " "OUTWARD ROUTE" "HOMEWARD ROUTE" "NAPLES TO ADELAIDE " ADELAIDE TO NAPLES"flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, orient steam navigation company limited, orient line, steamship line, 1895 travel, steamship, london, naples, port said, colombo, king george's sound, adelaide (semaphore), migration, early steamships, world travel, london to australia, london to adelaide, travel, late 19th century travel

Joseph Wilson Swan was born in 1882, he made many discoveries and inventions covering a wide range of scientific interest and practical usage. This book was withdrawn from the Ballarat School of Mines LibraryBlue paperback book, 50 pages: Biography Sir Joseph Swan and the invention of the incandescent electric lamp. Includes photographic images of Joseph Swan a carbon filament lamp.sir joseph swan, invention, incandescent electric lamp, history, filament lamp, electricity, ballarat school of mines library

http://special.lib.gla.ac.uk/exhibns/Kelvin/miscellany.html https://www.radiomuseum.org/dsp_hersteller_detail.cfm?company_id=16089Cylindrical metal case with glass front. Semi-circular dial with kilowatt marking from 0 to 35. Mounting rods on backManufacturer's Name " Kelvin & James White Ltd Glasgow and London"scientific instrument, electric power, power measurement, astatic wattmeter, kilowatts, kelvin & james white, glasgow, london

Hilliard and Thomason was established in Birmingham, and closed in 1908.Sterling silver presentation trowel in blue leather hinged presentation trowel with blue suade and satin lining. The trowel handle is silver plate and can be screwed off the trowel, and is hollow. The trowel is hallmarked H&T = Hilliard and Thomason - Sovereign Head/Duty Stamp = 1784 - 1890 - Lion passant guardant = silver quality- Anchor = Birmingham - b in oval = 1876Engraved into the trowel "Presented by the President & Council School of Mines Ballarat to the Hon. A.J. Peacock Minister of Public Instruction on his laying the Foundation Stone of New Buildings April 14th 1899hilliard and thomason, silver, presentation trowel, ballarat school of mines, new classrooms, administration building, buildings, andrew peacock, andrew j. peacock, silversmith, a building

Maroon hard covered bookarchitectural design, ornamental plaster work, ornamental metal work, lighting fittings, stained glass, mosaic, architecture

Brown hard covered bookarchitectural design, architecture

Green hard covered oversized book with 30 illustrated plates/ robert adams, james adams, ballarat technical art school, ballarat technical art school library, book plate

14 pages, individual pages, some pages torn, all pages discoloured and stained mining; english mechanic directory; gas engines; wright patent adjustable axle guage

Formerly in the Ballarat School of Mines LibraryMaroon hard covered book of 148 pagesdecorative art, rathone holme, kathleen frost, ballarat school of mines library, architecture, furniture, ceramics

Bound copies of magazines. Black fabirc cover with black leather spine and corners, with gold lettering on the spine.ballarat technical art school, woodworker, craftsman, ballarat technical art school library, bookplate, woodworking, carpentry

A type of instrument used in the 1900s to measure very low currents by sending beams of light to the mirror and reflecting this back onto a wall using the mirror as an amplifier. Small currents in V/A can display a displacement of a few inches on the wall. This instrument has to be balanced, hence the air bubble level and adjustable feet. The meter was scaled in degrees. Galvonometer with all brass body shell removable for initital adjustments. Two observation ports. Base with levelling feet.scientific instrument, galvonometer

This item was acquired by the Ballarat School of Mines Electrical Engineering department for use in electric power laboratory as a source of D.C., and also for instructional purposes. This central mercury arc element was located in a cabinet with transparent side panels, and equipped with the required electric accessories, to be a self-contained stand-alone unit. Head of the Electrical Engineering Department at the time was John M. Sutherland.Mercury arc rectifier, 3-phase input. Constructed of blown glass, and complicated configuration: the central inverted truncated cone is provided with 3 large diameter "horns' and four smaller ones. Each horn has electrical connection to outside, some have side horns. Approximately half a cup of free mercury inside the glass complex. No. 33369scientific instrument, x-ray, x-ray tube, xray, john m. sutherland, electrical engineering, ballarat school of mines

The test rig is contained in a metal frame with sloping front panel that contains the indicator and number seting knobs. A pespex lift-up lid coves numerous valve sockets and a set of coding wheels. Both sides and back covered with pespex. Metal surfaces panted hammerton grey. abbreviated working instructions and AVO Valve data manual.Serial Number 1961scientific instrument, ballarat school of mines, valve characteristic meter