A team of eight horses being driven by a man to prepare a paddock. In the background another horse is also yoked up to a machine.Black and white photograph of a farming scene in the Wimmera, VictoriiaVerso: Scene in the Wimmera about 1915farm, horse team, agriculture, wimmera c1915, ploughing, farming c1915

A mandrel (/ˈmændrɪl/; also mandril or arbor) is one of the following: * a round object against which material can be forged or shaped; or * a flanged or tapered or threaded bar that grips a workpiece to be machined in a lathe. A flanged mandrel is a parallel bar of a specific diameter with an integral flange towards one end, and threaded at the opposite end. Work is gripped between the flange and a nut on the thread. A tapered mandrel (often called a plain mandrel) has a taper of approximately 0.005 inches per foot and is designed to hold work by being driven into an accurate hole on the work, gripping the work by friction. A threaded mandrel may have a male or female thread, and work which has an identical thread is screwed onto the mandrel.Iron frame with handle. Vice section for attaching to bench. Mandrel for shapingmachine wheel, mandrel, forged, shaped, holds workpiece

Robert Ashton Lister was born in England in 1845 into an industrial family. After attending the Paris Exhibition in 1867, Robert argued with his father and formed the R.A. Lister Company to produce agricultural machinery at his factory in Dursley, England. In 1889 he linked his machine with Pederson’s cream separator which now ran at a consistent speed due to a spinning centrifugal separator thus producing consistency of cream. It was marketed through the Commonwealth and Robert himself drove right across Alberta in Canada with horse and buggy to promote the machine. He also expanded the use of his machine to sheep shearing. In 1909 the Company acquired the rights to manufacture petrol driven engines. When World War 1 began in 1914 the Company focused on producing petrol engines, lighting plants and munitions for the War Department, the workforce was mainly female as the men enlisted and left for the Front. After the War, Robert Lister retired, and the Company was taken over by his grandsons Robert, Frank, George and Percy with A.E.Mellerup. Their father Charles represented the Company in North America and Europe. Foreign competition and over supply of second-hand ex-military engines and lighting sets saw profits drop but the Company managed to recover under the leadership of Managing Director Percy. In 1929 the Company designed the CS (cold start) diesel engine producing 6-7kW which became known as the Lister 9-1. The engines were all painted the same shade of Brunswick green. By 1936 Lister was producing a wide range of petrol and diesel engines most of which were small at 1.5 to 3 horsepower. These could be bought ‘stand-alone’ or powering a complementary range of pumps, churns, cream separators, auto-trucks, generating plant and sheep shearing equipment. The most successful was the D Type Lister introduced in 1937 most of which were rated at 1.5hp at 700rpm. More than 250,000 were sold up to 1964 and although RA Lister ceased production many years ago, hundreds of these engines are still in use today.Green Lister stationary engine with petrol engine Size 71J, 3 HP, 450 RPM painted Brunswick Green. Used to power pump or similar purpose. The engine was made in1928, Dursley, UKfarm machinery, churchill island, engine, stationary engine, lister

The Underwood Motor Manufacturing Co started making 3hp 2-stroke engines, in either marine or stationary styles from about 1946 at 135 Queensberry St, North Melbourne. By about 1949 the 3.5hp 4-stroke engine was introduced. this engine was sold by Baltic Simplex as the Simplex Challenger, replacing the RB&T built S type. By the mid 1950's the firm had shut up shop. In the Sands & McDougall directories of 1948 & 1949 they were listed as Underwood Petrol Engine Co. The following years they were back to Underwood Manufacturing Co. The two-stroke version came in such variations as marine, stationary, tank, hopper cooled and air cooled, each believed to have run on a mixture of 30 parts Standard grade petrol to one part oil. Most but not all water cooled two stroke engines feature a water circulating pump. The 3-4hp four stroke engine used petrol for starting then switched to kerosene when warmed up. Most were 3hp. From a 1947 advertisement the machine was noted with rope start, quickly detachable magneto and the angled spark plug which would have been a marine version with a clutch and hand throttle. The stationary engine had the clutch replaced by a governor. The magneto on these engines did not rotate. it was oscillated by an eccentric on the crank and a link to an arm on the magneto drive shaft. There were other variations including a hopper cooled one with a normal marine base and a chain driven magnet. Dark green with surface rust "Underwood" in white lettering on red background on tank.farm machinery, stationary engine, petrol engine, churchill island

This engine has a blue green casing and has been made portable as it is mounted on a tray supported by four red metal wheels. It could be moved around the paddocks or sheds pulled by horses or oxen. There is no identification plate on the engine and there are no maker’s stamps or marks therefore it is difficult to name the company responsible for its manufacture. Engines like this were invaluable on farms to operate threshing and milling machines, pumps, saw benches, hay balers and chaffcutters, among other things. This engine is currently attached to a chaff cutter. The value is also in the fact that it has two belt drive wheels so could be used to perform two different operations simultaneously depending on available horsepower.Blue green casing; two belt drive wheels; red wheels. Attached to green chaff cutterchurchill island, farm machinery, stationary engine, belt driven

The splitter's axe was used to cleave timber apart into shingles or palings. A timber handle or haft would have been inserted through the socket. The cast iron blade was placed vertically into the timber end. The blade was then driven into the timber with a rough mallet while the haft was used to guide the split along the grain. As the timber split, the haft could be twisted to lever the two pieces apart. This tool is sometimes called a froe or frow.Machine made, painted black, cast. No handle. Shows signs of use. Socket warpedchurchill island, farm, tool, tools, splitter, splitter's, axe, paling, shingle

The Bird Mark 4 is an anaesthesia assistor or controller with pressure and volume controller to be driven by a respirator. Combination of Mark 4 with respirator makes an automatic anaesthesia respirator eliminating manual bagging. The machine can work through Boyle anaesthetic system. It is designed for both paediatric and adult application. (Drugs and Equipment in Anaesthesia Practice, Aruna Parameswari, 2019)Green metal box atop a clear plastic unit with a black bellows inside, which forms one part of the overall unit. The unit is attached to a pole, enabling height adjustment. The pole is, in turn, attached to a set of four castors [not original].White text on black stick on strip on top of metal box: DO NOT PULL APART / FOR USE IN THEATRE ONLY A series of instructions are printed in white text over the unit.anaesthesia assistor, anaesthesia controller, pressure controller, volume controller, paediatric, adult

Experimentation with electricity for medical purposes has its origins in the late 18th Century. Throughout the 19th Century it became more common, including as a proposed treatment for 'nervous' disorders. This device is a small, portable, 'at-home' device.Device for administering electric stimulation to patients. Consists of a wooden box containing a hand driven generator, with terminals for the attachment of electrodes that may be held by the patient or placed against the patient's skin. The directions for use include information about wetting the sponges and the patient's hands before cranking the machine to produce a small electric shock.

QUASLARC Generator Built by the Quasi-Arc Co. Ltd. Victoria London SW.1, This generator is believed to have been used for welding purposes. The generator is driven by a belt from a nearby steam plant. The quasi-arc co ltd 6 kw. d.c generator 60/30 volts 0/200 amps 1200 rpm comp cont rating No 4696 Historic - Industrial Generator Large casting with a drive pulley on one end, cast aluminum covers, bronze makers plaque. The quasi-arc co ltd 15,grasyenor ????ens. Victoria,London,S.W.1 This machine is designed for use with ????? Arc electrodes 6 kw. d.c generator 60/30 volts 0/200 amps 1200 rpm comp cont rating No 4696puffing billy, generator, welding, quasi - arc

Saw Bench - New Record Saw Bench Timber framed with steel wheels, belt driven saw blade powered by a Rosbery internal combustion engine. The Rosebery Engine No C28437 R.P.M 800 H.P. 6 Manufactured By Westinghouse Rosebery Pty.Ltd. Sydney Rosebery Engine Works Ltd began as the engine and pump manufacturing division of Buzacott & Company, and in 1923 became an incorporated company. In 1935, Westinghouse gave Rosebery Engine Works the right to manufacture and sell nearly all Westinghouse products. The name of the company then changed to Westinghouse Rosebery Ltd From the late nineteenth century, petrol engines gradually supplanted steam engines for running a wide range of machines, and in turn petrol engines were largely supplanted by electric motors. The Champion was a successful small petrol engine made by the large Sydney company, Westinghouse Rosebery, based on the American-designed Fuller and Johnson engine. With hopper cooling and a fuel tank between the skids, and weighing only 240 pounds (109 kg), it was easy to mount on wheeled transport, making the Champion a self-contained mobile source of power. Engines of this type were used in rural areas for driving chaff cutters, small saw benches, pumps and orchard sprayers. These engines were also commonly used in both rural and urban areas for powering concrete mixers. Both Westinghouse Rosebery in NSW and Toowoomba Foundry in Queensland made these engines in large quantities, beginning in the 1920s when tariff protection made local manufacturing viable. The production of small petrol engines continued in Australia until the 1970s, when reduced tariff protection led to increased competition from cheaper imported engines. Historic - Industrial Timber working - belt driven saw blade powered by a Rosbery internal combustion engine. Timber framed with steel wheels, belt driven saw blade powered by a Rosbery internal combustion engine. The Rosebery Engine No c28437 R.P.M 800 H.P. 6 Manufactured By Westinghouse Rosebery Pty.ltd. Sydneysaw bench, puffing billy, new record, internal combustioin, westinghouse rosebery pty.ltd., rosebery pty, internal combustion engine.

Circa 1920s petrol driven cross saw. It was mainly used cross cutting felled logs The Land on which the Menzies Creek railway station and Museum are built on was once apart of James Hermon's & his son William Hermon's property on which this Drag Saw was used. reference : Jinkers and Whims: A Pictorial History of Timber-Getting By Jack BradshawHistoric - Industrial Timber working petrol driven cross saw - Drag SawLarge, mechanical saw mounted on a steel shaft connected to tin fuel and water containers. The machine has two large spoked wheels, a rotating Crankshaft and an extended arm/rod attached to a crank and flywheel.New Record puffing billy, drag saw, timber cutting, early mechanical equipment, james hermon & sons, menzies creek, 1920s

Onkaparinga started in South Australia in 1869. Migrating from Germany, two brothers, Heinrich and Edward Kramm, both weavers, purchased and brought with them some machinery and established themselves in Hahndorf in a mud hut. Their original plant consisted of one carding machine, one spinning mule of 30 spools and 2 hand looms. The spinning mule was horse driven, the others all hand operated. The wool was washed by hand and dried in the sun then teased by hand. Now 145 years later the brand name Onkaparinga, is known all over the world, the products reflect the experience, passion and ingenuity of over a century's tradition in providing luxurious home wares. Donated to the National Wool Museum by Joyce GrayLight orange waffle weave woolen blanket, with nylon trimming. Product tag included with plastic case. On product tag - The better way to sleep. Onkaparinga onkaparinga, blanket, wool, kramm

Textile machine - Gill box. Combs and brushes driven by electric motor. Name plate of machine is missing.

Hinged food mixer with egg beater blades of chrome plated steel. Brass handle, chromed. Base worked steel painted with hammertone paint. White plastic base to hold missing lemon squeezer. Bowl to mix in missing. Has five small rubber legs.Has a planetary action and is hand driven. Beats eggs, cream and potatoes. The juice can run down into the basin when lemon is squeezed.domestic items, food preparation

Used in an orchard workshop to cut metal.Belt driven power hacksaw or metal cutting saw with overhead drive shaft and a section of canvas drive belt.'Drawcut' make, on bow and 'adjust tension' etc on adjuster.trades, metalworking

Given by Harold Bake and was used by him.|2007 - Seized gearbox repaired.Petrol driven motor Qualcast lawn mower (motor - Villiers Midget made in England) with a large roller.Qualcastdomestic items, gardening, machinery, engines - internal combustion

Yields information the first tram to be driven from the BTPS depot building under power.Colour photograph of the inauguration of No. 27 to be moved under power on 12 Oct. 1974 - Vice President Bill Jessup drove the tram - see Page 2 of the 1974/75 Annual report and page 23 of December 1974 Trolley Wire for a similar photo by Bob Prentice. Richard Gilbert on the "podium", prior to the launch. Printed on Kodak paper.On Rear in red ink machine printed "Nov 74.M"trams, tramways, depot construction, btps, operations, tram 27

"Grace Blake’s conversations with older members of the Club have elicited the following information during July 2014: • Don Christie recalls the machine being acquired by (or donated to) SMRC in the 1960s. SMRC later donated it to APRC. • Bob Duncan remembers it being at APRC. • Max Shaw joined the club in 1946 but doesn’t recall it at all. • Peter Watson recalls collecting the rowing machine from the old APRC club house before its demolition (c. 1995). The AP-SMRC machine carries a ‘maker’s plate’ with the name Moore... Moore Crane and Engineering Company Pty Ltd was a subsidiary of Malcolm Moore Industries Ltd whose manufacturing engineering works were located on Williamstown Road, Port Melbourne from 1927. The founder established the main business in 1921 and retired in 1953.21 The business was delisted from the Australian Stock Exchange in 1976. Grace Blake advises that some of the earlier SMRC members were plumbers and therefore worked in trades connected with engineering. She reports that Peter Watson recalls some of his contemporaries completing their engineering apprenticeships at Malcolm Moore Industries Ltd in the 1970s. There are still many unanswered questions concerning the history and provenance of the rowing machine at the time of writing this report, but the connection with a local engineering works is certainly fascinating. Questions to explore in the future include: Did Moore manufacture the machine, or import it (and perhaps assemble it) under licence? Was this machine a ‘one-off’ or did Moore make / distribute others within Australia? When, why and how did SMRC acquire the machine? Why did SMRC decide not to retain it, but to pass it over to APRC? And how did APRC use it?" 2014 Significance Assessment, pp38-40. "The ‘Moore’ Rowing Machine at the Albert Park – South Melbourne Rowing Club (AP- SMRC) is a rare example in Australia of the Kerns patent design from 1900. This machine may not, however, be that old in construction or use. The AP-SMRC machine is almost intact, appearing to lack only the leather straps for fastening the rower’s feet to the foot-rests. Spalding manufactured the design in the USA in the early decades of the 20th century, but the metal elements in its models are traditionally black. The bright red paint on the AP-SMRC machine suggests something different. The AP-SMRC machine carries a maker’s plate that associates it directly with a local engineering business, Malcolm Moore Industries Ltd of Williamstown Road, Port Melbourne. Club members recall the machine being at the South Melbourne Rowing Club in the 1960s, and being transferred at a later date to the Albert Park Rowing Club. The machine has not been used since the founding of the amalgamated AP-SMRC and requires careful conservation. The ‘Moore’ rowing machine is of national research significance as a rare survivor, in Australia, of the well-regarded Kerns patent design that was popularised by Spalding in the northern hemisphere. The English River and Rowing Museum website quotes a testimonial from an AG Spalding & Bros’ Mail Order Catalogue: ‘This machine was described by ‘an experienced oarsman’ ... “to be the most perfect rowing machine ever produced”. A feature was the adjustment of the resistance so “the weaker sex can use the machine”’. Its historic significance lies in its rarity (and perhaps uniqueness) as an aid to the training of rowers at two successful clubs on Albert Park Lake. Additional historic significance lies in the connection that the rowing machine represents between local rowing clubs and a major local manufacturing engineer. The ‘Moore’ rowing machine bridges the realms of innovation and application, of industry and recreation, of land-based and aquatic sports, and of two neighbouring rowing clubs on the Albert Park Lake." 2014 Significance Assessment, p43"A rowing machine that appears to be built to the Kerns patent design from 1900 but may not be that old in construction or use. The machine is heavy and includes parts made from cast iron. The cast iron components are painted in a distinctive bright red. The wooden seat moves on timber slides. Resistance is created by spring mechanisms at the ends of two frame elements that connect with two wooden ‘oars’, and by the central chain-driven system that co-ordinates with the rower’s movements. The machine carries a maker’s plate with the single word ‘Moore’ in an oval design, using white letters against a navy background, fastened to the base board and close to the foot-rests." 2014 Significance Assessment, p38Moorerowing, apsm rowing club, significance assessment, malcolm moore industries ltd, kerns, 1900, sculling machine, albert park rowing club, south melbourne rowing club, albert park lake, rowing machine, ergo

After scouring, the wool fibres are still tangled together. Carding untangles the fibres by brushing and straightening. The wool moves through a series of wire brush rollers that revolve at different speeds and in different directions to tease apart the wool. The fibres emerge from the machine as a continuous filmy web - called a sliver. The sliver must be thinned and divided into strands before the next process. Carding machines constantly require tuning. A highly skilled technician maintained and adjusted the speed of the rollers on the machine. This machine was developed by the CSIRO in the 1960s as a small-scale experimental machine. Industrial carding machines were four times the size of this one. Gold plaque on display with machine until 2018 read: G.H. Mitchell & Son, Adelaide have celebrated 125 Years of involvement with the Australian Wool Processing Industry by contributing the funds necessary to restore The Carding Machine, Noble Comb & The Gill Box. Also another gold plaque read: Experimental Carding Machine donated to The National Wool Museum by C.S.I.R.O Ryde has been rebuilt by Nick Sokolov of Comb Research & Development with the help of Bernard Tolan.Carder with small roller missing at coiling end. Driven by three horse power motor. Wooden slated feed table synchronised to overall gearing.carding machine, machines, wool industry, manufacturing, wool processing

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

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

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

Burnley College training of students and maintenance of Burnley Campus gardens.Petrol driven chainsaw, coloured with pale yellow enamel paint. 'Canadien 210' Model 2-10 No. 21107. Serial Number (obscured), Power Machinery Ltd, Vancouver, British Colombia, Canadahorticulture, arboriculture, sawing timber, tree maintenance, wood saw, burnley college of horticulture