X-Rays were first discovered on 08 November 1895. By 18 July 1896 staff members of the Ballarat School of Mines (SMB), were experimenting with the exciting new discovery. The history of x-rays began on 08 November 1895 at the University of Wurzburg in Bavaria. The discovery was officially announced on 25 December 1895. The first radiographs in Ballarat were taken at the School of Mines in July 1896 according to the Ballarat School of Mines (SMB) Annual Report. Frederick J. Martell, the Registrar of SMB arranged for the importation of tubes, while John M. Sutherland, an electrician, conducted most of the experiments giving 6 inch, 12 inch and 16 inch sparks respectively. In a short time brilliantly successful results were obtained, with some SMB Roentgen negatives taken at this time still in existence today. Samuel Ernest Figgis, H. R. W. Murphy, D. McDougall, and Frederick J. Martell carried out experiments at the SMB on Saturday evening 18 July 1896, producing 'perfect' negatives of a hand and wrist. A Roentgen Tube and an induction coil giving a two inch spark, the coil being sparked by the SMB's dynamo, were used to obtain these results. The Courier reported that 'the exposure of five minutes was ample' but concluded that 'the length of the exposure will be shortened as experiments proceed.' The Ballarat Courier reported on 20 July 1896 that: "Thanks to the energy of the staff of The School of Mines, Ballarat, and particularly to Messers F.J. Martell and D. McDougall, the assistance of Rontgen X-rays will soon be available, for the relief of suffering humanity, at this institution." Martell was an ardent amateur photographer, and Duncan McDougall's experience as an electrician has enabled the two gentlemen to carry their experiments on to a perfectly successful issue. At first these gentlemen, together with Professor Purdie and Mr W. Huey Steele, conducted a series of experiments by the aid of a Bonetti glass-plate induction machine which had been constructed by Mr McDougall. The results were very good, the various bones of the hand being distinctly visible. The following people were among those who witnessed the first X-ray experiments to be carried out in Ballarat. Andrew Anderson, President of the School of Mines, a large number of ladies and gentlemen, the medical profession Dr Edward Champion (1867-1929) Dr Gerald Eugene Cussen (1888-1943) Dr William Edward Davies (1868-1928) Dr Charles William Henry hardy (1861-1941) Dr Edward Kenneth Herring(1864-1922) Dr Joseph Lalor (1859-1907) Dr James Thomas Mitchell (1856-1945) Dr Edward Graham Ochiltree (1857-1896) Dr Robert Denham Pinnock (1849-1902) Dr Joseph Francis Usher (c1832-1909) Dr Grace Vale (nk-1933). The staff of SMB Professor Alfred Mica Smith Professor D. J. Dawbarn Mr. F. J. Martell. (http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_X-Ray_pioneers.shtml) "Seven patients of the doctors who were present were treated. In each case the patient was suffering from the effects of an old wound or some other injury to other a hand or foot. One patient, a boy had a finger broken some years earlier and when xray plate of the injury was developed it indicated plainly the fracture on one of the joints of the third finger. In another case a woman had a foot had a foot X-rayed and the photograph revealed the seat of an earlier imjury to it. Likewise an injury to the bones of a hand of an elderly man was revealed by an x-ray photograph. Every X-ray photograph that evening showed the importance of this new development in electrical science and the doctors present agreed the "the results of the experiments on their patients, by showing the exact seat of the injury and its present condittion, would materially assist them iin supporting cures." (Warren Perry, The Ballarat School of Mines and Industries Ballarat, p 146.)A number of photographic xrays as taken by the Ballarat School of Mines in 1896. The xrays include bones, hands, feet, shoes and more. ballarat school of mines, scientific equipment, x-ray, xray, photography, foto, roentgen tube

X-Rays were first discovered on 8 November 1895. By 18 July 1896 staff members of the Ballarat School of Mines (SMB), were experimenting with the exciting new discovery. The history of x-rays began on 8 November 1895 at the University of Wurzburg in Bavaria. The discovery was officially announced on 25 December 1895. The first radiographs in Ballarat were taken at the School of Mines in July 1896 according to the Ballarat School of Mines (SMB) Annual Report. Frederick J. Martell, the Registrar of SMB arranged for the importation of tubes, while John M. Sutherland, an electrician, conducted most of the experiments giving 6 inch, 12 inch and 16 inch sparks respectively. In a short time brilliantly successful results were obtained, with some SMB Roentgen negatives taken at this time still in existence today. Samuel Ernest Figgis, H. R. W. Murphy, D. McDougall, and Frederick J. Martell carried out experiments at the SMB on Saturday evening 18 July 1896, producing 'perfect' negatives of a hand and wrist. A Roentgen Tube and an induction coil giving a two inch spark, the coil being sparked by the SMB's dynamo, were used to obtain these results. The Courier reported that 'the exposure of five minutes was ample' but concluded that 'the length of the exposure will be shortened as experiments proceed.' The Ballarat Courier reported on 20 July 1896 that: "Thanks to the energy of the staff of The School of Mines, Ballarat, and particularly to Messers F.J. Martell and D. McDougall, the assistance of Rontgen X-rays will soon be available, for the relief of suffering humanity, at this institution." Martell was an ardent amateur photographer, and Duncan McDougall's experience as an electrician has enabled the two gentlemen to carry their experiments on to a perfectly successful issue. At first these gentlemen, together with Professor Purdie and Mr W. Huey Steele, conducted a series of experiments by the aid of a Bonetti glass-plate induction machine which had been constructed by Mr McDougall. The results were very good, the various bones of the hand being distinctly visible. The following people were among those who witnessed the first X-ray experiments to be carried out in Ballarat. Andrew Anderson, President of the School of Mines, a large number of ladies and gentlemen, the medical profession Dr Edward Champion (1867-1929) Dr Gerald Eugene Cussen (1888-1943) Dr William Edward Davies (1868-1928) Dr Charles William Henry hardy (1861-1941) Dr Edward Kenneth Herring(1864-1922) Dr Joseph Lalor (1859-1907) Dr James Thomas Mitchell (1856-1945) Dr Edward Graham Ochiltree (1857-1896) Dr Robert Denham Pinnock (1849-1902) Dr Joseph Francis Usher (c1832-1909) Dr Grace Vale (nk-1933). The staff of SMB Professor Alfred Mica Smith Professor D. J. Dawbarn Mr. F. J. Martell. (http://guerin.ballarat.edu.au/aasp/is/library/collections/art_history/honour-roll/honourroll_X-Ray_pioneers.shtml)Two men, one seated, one standing standing in a room with early electrical equipment. They are conducting pioneer X-rays at the Ballarat School of Mines in 1896. Seated on the left is John Waters Sutherland.A bromide of this images states "Experimenting with X-rays, 1896"ballarat school of mines, x-ray, xray, john sutherland, sutherland, electricity, photography, foto, roentgen tube, medical

This book was owned by Alf Gresham Johnston who was a former SMB mining student from the Ballarat School of Mines. He died at the age of 29 during military service in South Africa. The following is from the Federation Uni Honour Roll at http://federation.edu.au/about-us/our-university/history/geoffrey-blainey-research-centre/honour-roll/j/alfred-gresham-johnston-1872-1901 The October 1901 Ballarat School of Mines (SMB) Students Magazine reported 'Alf. Johnston's gone. The news came as a shock to all of us at the school. He who was with us a few short months ago, in all strength of sturdy manhood, has met a soldier's death in South Africa, and we sincerely mourn his loss…. His heart was in the school, and he did his best to further its interests … His last act on leaving Australian shores was to send a telegram from Albany to Prof. Mica Smith, to whom he was warmly attached, wishing the School and all connected with it "Good-bye". In his short, all to short, life of 29 years, he had more adventure than falls the lot of most men, and possibly the spirit of adventure, and also, of duty, prompted him to throw in his lot with the "colors," and leave for the front. The news of his death comes to us with added weight of sadness when we remember that he was one of the organisers of the School entertainment last year to help swell the fund for the erection of a statue to fallen Victorian soldiers.'A small red book with a double black line bordering the front cover, with the text Longmans Elementary Science Manuals on the bottom of the cover. On the back cover is an L&Co logoOn the title page is the inscription of the original owner of the book Alf G Johnston School of Mines Ballarat 1899. Inside the front cover and on page 19 is the stamp of the School of Mines Ballaratalfred johnston, steam engine, compound engines, condensers, heat, horse-power, transfer of heat, combustion of fuel, saturated steam, cranks and crank shafts, watt governor, boilers, alf johnston, william ripper, boer war

Black folder of clippings, photos, newsletters, Extra Muros, history, relating the the Ballarat Teachers' College class of 1949. It includes a short biography on Frank Lord: Teacher and Soldier by Wal Wallballarat teachers' college, william ellwood, dana street primary school, monica miller, reunions, anniversary, meph mcewan, joe scarlett, john hogan gervasoni, john gervasoni, jack gervasoni, margaret bennett, queen elizabeth ii, buckingham palace letterhead, forty-niner rose, mattee hayes, peter fryar, tom turner, cynthia silver lewin, margaret reynolds bennett, harry cumming, peg aloreo harris, verna lees kaye, lesley latch frank, gladys white hogg, lindsay campbell, joan cool read, maureen godfrey fithall, grahame fithall, david collins, ron edmonds, a gladness found, graham bartle, frank lord, allan sonsee, cecil allan sonsee, john neville stewart obituary, john hogan gervasoni obituary, richard stowell obituary, rita butt campbell obituary, john blackie obituary, jack dridan obituary, wilma gardy byrne obituary, joan johnson binns obituary, lesley latch frank obituary, mattee hayes ilton obituary, margaret panther leask obituary, moyra ahern smith obituary, margaret blaby gledhill obituary, dana street primary school letterhead

A broom is a cleaning tool. It consists of stiff fibres attached to, and roughly parallel to, a cylindrical handle, the broomstick. In the context of witchcraft, "broomstick" is likely to refer to the broom as a whole. A smaller whisk broom or brush is sometimes called a duster. History of broom design Brooms have changed very much in their construction, since they developed from ad-hoc use of branches and bundles of several natural fibres. Originally, all brooms were round, a shape that is easy to construct but inefficient for actually sweeping. Brooms could be attached to a handle, either short for a whisk broom, or long for a broom used to sweep the floor or fireplace. The word for the tool was originally besom, broom simply being the material of which it was normally made. The fibres used in modern brooms are from broom corn. They are long, straight, durable, and bound together in the plant. The newest major change is the flat broom, invented by the Shakers in the 1800s, which has far more width for pushing dirt and nearly all brooms produced today are flat brooms. https://simple.wikipedia.org/wiki/BroomThis object is an example of how a simple material can be turned into a useful item.Brush of plaited green & orange coloured rope like material. Brush section is like taffeta, blonde.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, brush, broom, rope

A mass produced utilitarian item made for domestic decorative use. No history or manufacturing provenance currently available.The subject item at this time cannot be associated with an historical event, person or place, provenance is unknown. The item is assessed as a collection asset as it is believed to have been produced after 1910 and before 1950.Container of pressed metal. The container has a broad, thin lip, and its round body flares outwards towards base, then tapers inwards to a short heel. A loop holding a metal ring is attached to the side, near the top. A decorative geometrical transfer pattern in blue and cream covers the body and inside of the lip. In the centre of one side is a round frame with the portrait of an Egyptian woman within.warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, flower vase, decorative object, tin vase

This wooden juggling club or exercise club may also be referred to as a juggling pin. It is very similar in shape to a bowling pin or an Indian club. It dates approximately to the early 20th century. It may have been used as one of a pair for gymnastics or exercise, or part of a larger set used by a juggler for entertainment in a circus or carnival. At some time it may have been used with a ball or disc as part of a Skittles or bowling game set. The historical collection of Federation University Australia, Victoria, includes a very similar but slightly shorter club, labelled ‘timber skittle”, as can be seen in their photograph. Another example of very similar-shaped, same-sized clubs can be seen in the collection of Nobelius Heritage Park and Emerald Museum, Emerald, Victoria. JUGGLING Jugglers entertain audiences with their tricks and routines at events such as circuses, amusement parks, parties, shows on television or theatre, schools and parties. Juggles also compete at International Championships to obtain world records, performing as individuals or in groups or teams. Contemporary champion juggler David Cain performs a Juggling History Show that both entertains and educates his audience. His routines date from the early 1600s to the 20th century. He uses a wide variety of equipment in his acts including juggling clubs. EXERCISE Exercise clubs or Indian clubs were used in 19th century Victorian times as part of exercise or strengthening programs when they were swung in certain patterns and movements. Even in the early 20th century workplace a few minutes of Indian club swinging was common practice for the relief of tension. A video clip of an American school room in 1904 shows a group of boys and girls skilfully wielding clubs in an exercise sequence (see ‘Links” section). The 1904 and 1932 Olympic Games had an event called Club Swinging. Rhythmic gymnastics was added to the Olympic Program at the L.A. Games in 1984 where competitors use apparatus such as rope, hoop, ball, ribbon and clubs. The clubs come in a variety of weights and heights and have been used from the mid-1800s until around the 1930s in schools and military institutions. They are decorated in a variety of patterns and colours and some have feature lines or scored rings on them. This juggling club is significant for its association with education, entertainment and sport in the late 19th and early 20th century.Wooden juggling club (or pin, skittle or Indian club). Vintage, bottle-shaped club with a flat, slightly concave, base. Its turned, solid timber body tapers out from the base then in again to a very narrow handle with a round knob joined onto the top. Two concentric feature lines are scored into the wider part of club. It was possibly used in exercise, gymnastics or as a skittle. Sections of the club have two brown painted stripes; paint on the lower strip has been worn off at the base . There are remnants of white paint in two areas, possibly the remains of a maker’s name or decoration. There also appears to be an inscription stamped into the wooden handle but this is illegible. Late 19th to early 20th century.Remnants of what appears to be stamped lettering and painted labelling.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, wooden skittle, entertainment, bowling skittle, wooden juggling pin, wooden juggling club, wooden exercise club, indian club, exercise club, club swinging, rhythmic gymnastics, sport equipment, juggling equipment, wooden club

This deck cannon is believed to be a replica Carronade as it has no foundry mark, year of manufacture, proof marks or weight of carronade on it. However, its design matches the design of Carronades used in the early to mid 19th century. History: The carronade was designed as a short-range naval weapon with a low muzzle velocity for merchant ships, but it also found a niche role on warships. It was produced by the Carron iron works and was at first sold as a complete system with the gun, mounting, and shot altogether. Carronades initially became popular on British merchant ships during the American Revolutionary War. A lightweight gun that needed only a small gun crew and was devastating at short range was well suited to defending merchant ships against French and American privateers.   Its invention is variously attributed to Lieutenant General Robert Melville in 1759, or to Charles Gascoigne, manager of the Carron Company from 1769 to 1779. In its early years, the weapon was sometimes called a "mellvinade" or a "gasconade". The carronade can be seen as the culmination of a development of naval guns reducing the barrel length and thereby the gunpowder charge. The Carron Company was already selling a "new light-constructed" gun, two-thirds of the weight of the standard naval gun and charged with one-sixth of the weight of the ball in powder before it introduced the carronade, which further halved the gunpowder charge. The theory of its design was to use less powder and had other advantages that were advertised in the company's sales pamphlet of the time, state. The smaller gunpowder charge reduced the barrel heating in action, also reduced the recoil. The mounting, attached to the side of the ship on a pivot, took the recoil on a slider, without altering the alignment of the gun. The pamphlet advocated the use of woolen cartridges, which eliminated the need for wadding and worming, although they were more expensive. Carronades also simplified gunnery for comparatively untrained merchant seamen in both aiming and reloading that was part of the rationale for adopting the gun. Other advantages promoted by the company were. The replacement of trunnions by a bolt underneath, to connect the gun to the mounting, reduced the width of the carriage that enhanced the wide angle of fire. A merchant ship would almost always be running away from an enemy, so a wide-angle of fire was much more important than on a warship. A carronade weighed a quarter as much as a standard cannon and used a quarter to a third of the gunpowder charge. This reduced charge allowed Carronades to have a shorter length and much lighter weight than long guns. Increasing the size of the bore and ball reduces the required length of the barrel. The force acting on the ball is proportional to the square of the diameter, while the mass of the ball rises by the cube, so acceleration is slower; thus, the barrel can be shorter and therefore lighter. Long guns were also much heavier than Carronades because they were over-specified to be capable of being double-shotted,(to load cannons with twice the shot, for increased damage at the expense of range). Whereas it was dangerous to do this in a carronade. A ship could carry more carronades, or carronades of a larger caliber, than long guns, and carronades could be mounted on the upper decks, where heavy long guns could cause the ship to be top-heavy and unstable. Carronades also required a smaller gun crew, which was very important for merchant ships, and they were faster to reload. Additional notes: Cannon cast in England, Wales and Scotland had their imperial weight chiselled or engraved in the format of 4-2-0 on the bottom of the cascabel, indicating the weight of the cannon as 4 hundredweight, 2 quarters and 0 pounds. Since a hundredweight equals 112 pounds and a quarter weight is 28 pounds the total weight is 504 pounds or about 228 kilograms. The small bore replica carronade and carriage is part of a collection of nineteenth Century Flagstaff Hill Guns and cannons, and is a representation of carronades used from the early 18th up to the 1850s on merchant and military ships particularly the British Royal Navy until 1850. This example is not significant in the historic sense but demonstrates the type of artillery used aboard vessels of the time for protection & offensive military actions. Cannon, cast iron, small smooth bore cannon on the stepped wooden carriage with wooden wheels. It appears to fire a 12-pound cannonball. The Cannon barrel can have its elevation adjusted via a sliding sloped block at the rear of the cannon. Gun carriage has loops for locating and holding the carriage in position with the use of ropes. It is believed this carronade is a replica of a mid-to-late 19th-century Carronade cannon.Cast into metal; [Royal emblem of Queen Victoria (VR "Victoria Regina")]warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, cannon, naval cannon, cannon on carriage, 19th century cannon, fortifications, smooth bore cannon, 12 pounder, carronade, artillery, replica, deck cannon, cannon in carriage, ship cannon

The design of this and other similar treadle powered dental engine (or dentist drill) was in common use by dentists from the 1870’s into the 1920's. When electricity became accessible to most communities the electrically powered dental engines began to take over from the treadle power. Over the ages teeth were extracted using picks and scissors and other gouging instruments. Bow drills, hand drills and even a "bur thimble" drill were later used to prepare cavities for filling. Some drills were made bendable by attaching flexible shanks between the metal bur and the handle, giving access to the teeth at the back of the mouth. Other mechanical devices were introduced along the way, such as clockwork drills, but they were hard to handle and inefficient. Over the centuries “dentistry has been performed by priests, monks and other healers. This was followed by barbers; the barber’s chair may well have been the precursor to the dental chair. “(SA Medical Heritage Society Inc.) In 1871 James Morrison patented the first commercially manufactured 'foot treadle dental engine', the first practica dental engine although others had been introduced as early as 1790 (by John Greenwood). Handmade steel burs or drills were introduced for dental handpieces, taking advantage of the significant increase in the speed of the drill. In 1891 the first machine-made steel burs were in use. The treadle drill reduced the time to prepare a cavity from hours to less than ten minutes. In 1876 the Samuel S. White Catalogue of Dentist Instruments listed a 12 ½ inch wheel diameter dental engine, with 14 bright steel parts, for sale at US $55 In today’s market, this is the equivalent to US $1200 approx. The specifications of that dental engine are very similar to the this one in our Flagstaff Hill Maritime Village’s collection. It is interesting to note that workings of a similar treadle dentist drill were used and modified to power a treadle spinning wheel of one of the volunteer spinners at Flagstaff Hill Maritime Village. The foot treadle dental engine was a milestone in dental history. “Historic importance of treadle powered machines; they made use of human power in an optimal way” (Lowtech Magazine “Short history of early pedal powered machines”) The invention of a machine to speed up the process of excavation of a tooth lead to the invention of new burs and drills for the handpieces, improving speed and the surgical process of dentistry. They were the fore-runner of today’s electrically powered dental engines. This treadle-powered dentist drill, or dentist engine, is made of iron and steel and provides power for a mechanical dental hand-piece that would be fitted with a dental tool. The drill has a three footed cast iron base, one foot being longer than the other two. A vertical C shaped frame is joined into the centre of the base, holding an axle that has a driving-wheel (or flywheel) and connecting to a crank. A slender, shoulder height post, made from telescoping pipes, joins into the top of this frame and is height adjusted by a hand tightened screw with a round knob. On the post just above the frame is a short metal, horizontal bar (to hold the hand-piece when it is not in use). A narrow tubular arm is attached to the top of the stand at a right angle and can move up and down. At the end of the arm is a firmly fixed, flexible rubber hose protected for a short distance by a sheath of thin metal. At the end of the hose there is a fitting where the drill’s hand-piece would be attached; a small, silver coloured alligator clip is also at the end. A treadle, or foot pedal, is hinged to the heel to the long foot of the base, and joined at the toe to the crank that turns the driving-wheel. There is a spring under the toe of the treadle. The metal driving-wheel has a wide rim. Touching the inside of the rim are four tubular rings that bulge towards the outside of the driving-wheel, away from the pole, and all meet at the hub of the axle. The axle is bulbous between the inside of the driving-wheel and the frame then passes through the frame and is attached on the other side. The driving-wheel has a groove around which a belt would sit. The belt would also fit around a pulley on the arm, at the top of the post. The pulley is joined to a rod inside the arm and this spins the drill's hand-piece and dental tool holder. The two shorter feet of the base are made from a long metal bar that has been curved outwards, and its centre is bolted to the base of the pole. Under the ends of the curved legs of the base are wedge shaped feet. The driving-wheel is decorated in light coloured paint on both sides, each side having three sets of floral decals evenly spaced around them, and each about a sixth of the wheel's circumference. Similar decoration is along the sides of the frame. The foot pedal has decorative cutout patterns in the centre of the foot and at the toe. On the long foot of the stand is some lettering with a fine, light coloured border around it. The lettering is hard to read, being a dark colour and flaking off. There are also remnants of fine, light coloured flourishes. The foot pedal has lettering of the maker’s trade mark cast into the metal at the ball of the foot. Lettering on the base is peeling and difficult to read. The foot pedal has a trade mark cast into it that looks like a combination of ‘C’ , ‘S’ , ‘A’, ‘R’. flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, dentist, teeth, dental drill, dental engine, treadle drill, foot powered drill, treadle engine, orthodontics, dental surgery, james morrison

The design of this and other similar treadle powered dental engine (or dentist drill) was in common use by dentists from the 1870’s into the 1920's. When electricity became accessible to most communities the electrically powered dental engines began to take over from the treadle power. Over the ages teeth were extracted using picks and scissors and other gouging instruments. Bow drills, hand drills and even a "bur thimble" drill were later used to prepare cavities for filling. Some drills were made bendable by attaching flexible shanks between the metal bur and the handle, giving access to the teeth at the back of the mouth. Other mechanical devices were introduced along the way, such as clockwork drills, but they were hard to handle and inefficient. Over the centuries “dentistry has been performed by priests, monks and other healers. This was followed by barbers; the barber’s chair may well have been the precursor to the dental chair. “(SA Medical Heritage Society Inc.) In 1871 James Morrison patented the first commercially manufactured 'foot treadle dental engine', the first practica dental engine although others had been introduced as early as 1790 (by John Greenwood). Handmade steel burs or drills were introduced for dental handpieces, taking advantage of the significant increase in the speed of the drill. In 1891 the first machine-made steel burs were in use. The treadle drill reduced the time to prepare a cavity from hours to less than ten minutes. In 1876 the Samuel S. White Catalogue of Dentist Instruments listed a 12 ½ inch wheel diameter dental engine, with 14 bright steel parts, for sale at US $55 In today’s market, this is the equivalent to US $1200 approx. The specifications of that dental engine are very similar to the this one in our Flagstaff Hill Maritime Village’s collection. It is interesting to note that workings of a similar treadle dentist drill were used and modified to power a treadle spinning wheel of one of the volunteer spinners at Flagstaff Hill Maritime Village. The foot treadle dental engine was a milestone in dental history. “Historic importance of treadle powered machines; they made use of human power in an optimal way” (Lowtech Magazine “Short history of early pedal powered machines”) The invention of a machine to speed up the process of excavation of a tooth lead to the invention of new burs and drills for the handpieces, improving speed and the surgical process of dentistry. They were the fore-runner of today’s electrically powered dental engines. This treadle-powered dentist drill, or dentist engine, is made of iron and steel and provides power for a mechanical dental handpiece that would be fitted with a dental tool. On the foot is painted lettering naming it "The Brentfield" and there is a fine line of light coloured paint creating a border around the name. The paint under the lettering is peeling off. The drill has a Y-shaped, three footed cast iron base, one foot being longer than the other two. A vertical frame is joined into the centre of the base, holding an axle that has a driving-wheel (or flywheel) and connecting to a crank. A slender, shoulder height post, made from adjustable telescoping pipes, joins into the top of this frame. On the post just above the frame is a short metal, horizontal bar (to hold the hand-piece when it is not in use). A narrow tubular arm is attached to the top of the stand at a right angle and can move up, down and around. There is a pulley each side of the joint of the arm and a short way along the arm is fitted a short metal pipe. A little further along the arm a frayed-ended cord hangs down from a hole. At the end of the arm is another pulley and a joint from which hangs a long, thin metal pipe with two pulleys and a fitting on the end. A treadle, or foot pedal, is joined to the long foot of the base, and joined at the toe to the crank that turns the driving-wheel. The metal driving-wheel has a wide rim. Touching the inside of the rim are four tubular rings that bulge towards the outside of the driving-wheel, away from the pole, and all meet at the hub of the axle. The axle fits between the inside of the driving-wheel and the frame then passes through the frame and is attached on the other side. The driving-wheel has a groove around which a belt would sit. The belt would also fit around a pulley on the arm, at the top of the post. The pulley is joined to a rod inside the arm and this spins the drill's hand-piece and dental tool holder. The foot pedal has a cross-hatch pattern on the heel and the ball of the foot has tread lines across it. The end of the toe and the instep areas have cut-out pattern in them. "The ____/ Brentfield / __ DE IN L___" (Made in London) painted on the long foot of the base. Marked on the drill connection is “Richter De Trey, Germany”flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, dentist, teeth, dental drill, dental engine, treadle drill, foot powered drill, treadle engine, orthodontics, dental surgery, james morrison, the brentfield, richter de trey, german dental fitting, london dental drill

Mazazine on 21 pages featuring a black and white image of the Ballarat Arch of Victory on the front cover. Contents include: * Making Australia's History (John Campbell Miles and Mount Isa) by S. Warren Shears * Cricket Club Notes by Arthur Smith (Doug Mills, Stan Fraser, Tubby Grundy) * Badminton Notes (W. Shears, I. JOnes, T. Hubble, M. Drabsch, Joan Sutherland) * Combating Asian 'Flu (Photo of June Blundell receiving injection from Dr W. Jenkin) * Greater Love (Original short story by L.W.) * Social Page * What is a Boy by Allen Beck Images include photographs of workers on the job, and the Lucas Past Employees Memorial Cairn on the Learmonth end of the Avenue of Honour. e. lucas and co., s. sarori, f. gillies, john tunbridge, lucas memorial cairn

The author, Wal Wall, attended Ballarat Teachers' College in 1949. Frank Lord was principal of Ballarat Teachers' College from 1946-1950.A biography of Frank Lord, Principal of the Ballarat Teachers' College from 1946 to 1950.frank lord, ballarat teachers' college, world war one, f.w. lord, world war two, principal, wal wall, family history, genealogy

Several paper letters and notes "Dear Sly Eye" 1985, Mrs Phillips 1983, To Council Members1985, etc 22nd August 1960 Letter from G. M. Veitch (Principla) to Mr McCaskill re HIstory of school (Ex VC3501) Buff coloured - One page, blue typed, short letter. 16 December 1982 Letter from P Adgemis (Humanities Department) and B.K.Knox (Principla) to Mrs E.V. Pullin thanking her for her help in collecting historical material with the school magazine 'Echoes' (Ex VC3501):A4 page - typed letterrts, ringwood tech

Collection of pages (originally in a blue plastic binder labelled "Wieland History"). Includes various trees with Car WIELAND at the head, His oath of Memorialist, Oath of Allegiance, Marriage Certificates and a short typed biography of Raymond Stanley WIELAND

92p.,3 leaves : ill. indexnon-fictionA short history of the City of Sandringhamsandringham, pioneers, early settlers

This design of ink bottle or ink well was commonly referred to as a ‘penny ink well’ because it was very inexpensive to produce. It is also known as a dwarf bottle. It was recovered from the wreck of the 1895-1902 ship Inverlochy and is part of the John Chance Collection. Pen and ink has been in use for hand writing from about the seventh century up until the mid-20th century. Up until around the mid-19th century a quill pen made from a bird’s feather was used. In the 1850s the steel point pen was invented and could be manufactured on machines in large quantities. In the 1880s a successful portable fountain pen was designed, giving a smooth flowing ink and ease of use. Ink wells, used with steel nib dip pens, were commonly used up until the mid-20th century. The pens only held a small amount of ink so users had to frequently dip the nib of the pen into an ink well for more ink. Hand writing with pen and ink left wet writing on the paper, so blotting paper was carefully used to absorb the excess ink and prevent smudging. Ink could be purchased, ready to use, or in the powdered form, which needed to be mixed with water. After the invention of fountain pens, which had a reservoir of ink, and then ballpoint pens, which also had ink that flowed freely, the dip pen was slowly replaced. However, artisans continue to use nib pens to create beautiful calligraphy. INVERLOCHY 1895-1902 - The Inverlochy was a steel sailing barque built in Scotland in 1895 for international trade. In 1902 the Inverlochy left Liverpool under the command of Captain E.R. Kendrick. There were 21 officers and crew and the captain’s wife Mrs Kendrick, on board, bound for Australia with cargo that included tools, chemicals, liquor (beer, whisky, stout, rum, and brandy), steel, iron, wire netting, hoop iron, tinplate and pig iron), and steel wire for the Melbourne Tramway Company, tiles, soap, soft goods and earthenware. On December 18 almost at their destination, the Inverlochy ran aground on Ingoldsby Reef at Point Addis, near Anglesea. The crew and passengers left the ship via lifeboat and landed at Thompson’s Creek, then walked about 20 kilometres to Barwon Heads. Salvagers were interested in the 10 miles of cable in the hold. Mrs Kendrick’s ‘high grade’ bicycle was amongst the items salvaged but she lost her jewellery and two pianos. By February 1903 the ship had broken up and objects such as bottles and casks of liquor were washed ashore. Bad weather shook the wreck in June 1903, causing the ship’s spars and figurehead to be washed ashore. This ink bottle is historically significant as it represents methods of hand written communication that were still common up until the mid-20th century, when fountain pens and ballpoint pens took over in popularity and convenience. The Ink bottle also has significant as it was recovered by John Chance, a diver from the wreck of the Inverlochy in the late 1960s to early 1970s. Items that come from several wrecks along Victoria's coast have since been donated to the Flagstaff Hill Maritime Village’s museum collection by his family, illustrating this item’s level of historical value. This Ink bottle is significant because of its historical connection to the barque Inverlochy, which is an example of a commercial international steel sailing barque and is listed on the Victorian Heritage Database VHR S338. The Inverlochy is significant for its cargo, which is a snapshot of the kind of goods imported into Australia at the turn of the 19th century, including cable for the Melbourne Tramway Company. The wreck of the Inverlochy is important as an accessible dive site that shows the remains of a large international trading vessel and its contents. It is valuable for an insight into Victorian era of shipping and maritime history. Ink bottle, glazed, prange-brown ceramic cylinder, ring of clay on top for lip, narrow mouth, very short neck on wide shoulder that reaches out to edge of of straight-sided body, flat base. On the shoulder, close to the neck, are concentric lines in the clay. There are dark areas around the lip and mouth opening. The clay appears to have a fold line on its body. The material has flecks of darker material in it. Sediment around shoulder. Handmade. Also called a Penny Ink Well.flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, john chance, inverlochy, scotland, captain e.r. kendrick, melbourne tramway company, tramway cable, ingoldsby reef, point addis, anglesea, thompson’s creek, barwon heads, ink bottle, writing equipment, writing accessory, office equipment, stationery, domestic, stoneware, clay, ceramic, pottery, ink well, inkwell, penny ink well, nib pen, dip pen, ink, hand writing, record keeping, household, business, vintage, blotting paper, dwarf ink

This light hanging mechanism could have been used for an adjustable chandelier with candle holders. It would likely be attached to the ceiling by its long stem to suspend the light fitting. A chain would have been threaded around each pulley, with one end joined to the top of the light fitting and the other end joined to a counter weight. The four counter weights would allow the light fitting to be raised or lowered to the desired height with little effort, to allow for lighting the candles or change the intensity of the light. This light fitting was once installed on the famous sailing ship, the Loch Ard, which was built in 1873 and tragically wrecked in 1878.The fitting was recovered from the wreck almost 100 years later, at the time it was discovered. LOCH ARD 1873-1878 – The Scottish-built clipper ship Loch Ard was bound for Melbourne in 1878 with 54 people on board. The mixed cargo it carried included items for the 1880 International Exhibition in Melbourne, one of which was the now famous Majorca ware Minton ‘Peacock’ statue. The Loch Ard was wrecked on June 1st when the ship crashed into Mutton Bird Island, east of Port Campbell. The only survivors were Tom Pearce, a crew member, and Eva Carmichael, a young passenger who was rescued by Pearce. The Gibsons, owners of nearby Glenample Homestead, cared for Tom, and for Eva who stayed longer before returning to Ireland. The wreck of the Loch Ard was discovered in 1967, before the introduction of the Victorian historic shipwreck legislation. In 1969 it was decided that all recovered material should be lodged with the Receiver of Wrecks. In 1980 Flagstaff Hill Maritime Museum Divers received a permit to recover artefacts from the wreck to safeguard them from looters. In 1982 the site was listed as a Historic Shipwreck, and the Maritime Archaeology Unit recovered loose artefact material. The light fitting is recognised as being historically significant as an example of lighting either as part of the ship ‘Loch Ard’ or part of the ship’s cargo, imported for use in Colonial Victoria in the 19th to early 20th century. Flagstaff Hill’s collection of artefacts from LOCH ARD is significant for being one of the largest collections of artefacts from this shipwreck in Victoria. It is significant for its association with the shipwreck, which is on the Victorian Heritage Register (VHR S417). The collection is significant because of the relationship between the objects, as together they have a high potential to interpret the story of the LOCH ARD. The LOCH ARD collection is archaeologically significant as the remains of a large international passenger and cargo ship. The LOCH ARD collection is historically significant for representing aspects of Victoria’s shipping history and its potential to interpret sub-theme 1.5 of Victoria’s Framework of Historical Themes (living with natural processes). The collection is also historically significant for its association with the LOCH ARD, which was one of the worst and best known shipwrecks in Victoria’s history. Light fitting; hanging mechanism with simple pulley wheels for pendant light. Metal pipe, closed and hooked at one end, stem has three decorative rings, and open end has a short narrower metal pipe inserted. Narrow pipe has a three tiered, scallop-edged dome attached to the end. The dome encloses remnants of broken chain length and is attached to a set of four pulley wheels arrayed in a circle with their edge sat right angles to each other. The light fitting was recovered from the wreck of the Loch Ard.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, shipwreck artefact, loch ard, victoria, eva carmichael, tom pearce, lighting, lidht fitting, pendant light, chandelier, pulley light, adjustable height light

Yellow evening dress of chiffon over taffeta fabric. Full length with short sleeves and round neckline. Empire line. Inverted pleats from bodice to hem at centre front reveal a panel insert (33cm), decorated with ribbon embroidery. Large fabric bow attached at bodice at top of inverted pleats. Sleeves decorated with ribbon embroidery 38cm zipper at centre back from neckline.costume, female, yellow evening gown

Life Death & Gold in the Whipstick, a story of Raywood and surrounds - retold in 2015, some short descriptions, obituaries and stories written in the 1860s and later by the correspondents of the day describing life in the goldfields of Bendigo's Whipstick, centred on Raywood, Neilborough, Sebastian and Myers Creek. 117 pages, spring bound with plastic cover, contains maps, illustrations and photographs.Ian Belmonthistory, australian, raywood

Black and white photograph of a room at Fortuna Villa. This room is highly decorated with framed photographs, small figurines, tall ornate lamp with bulbous glass, glass fuel container, left is a small carved table with small figurine, tray and container, next is another table covered with a decorated cloth, in the corner is a taller cabinet style cupboard with glass panels in the door, and a number of small items with a framed photo at the rear, next is a short standard light with artistically decorated shade, to the right is very decorative shelving unit, with small figurines on the shelves, large decorated cylinder with lid, smaller jar with painted decoration and deep lid, foreground has a table made up of 4 triangular pieces and a glass vase and flowersindustries

Camisole. Cream cotton, 4 metal buttons,covered in fabric. eyelet and embroidered pattern on front and sleeves, and across shoulders at back.Bodice is gathered at front and back, onto a peplum, which has rounded fronts. Short cap sleeves, edged in embroidered cotton scallops.costume, female, underwear

Camisole. Ivory coloured fine cotton with lace inserts. Short sleeves edged with lace. Round neck. Front opening with three buttons. Small peplum. Cotton tape tie around waist. Two looped panels of lace inserted into each side of front. One looped panel of lace in each sleeve, Fabric probably was once a tufted voile.costume, female, underwear

Camisole. Wide boat shaped neckline. Short flared sleeves, cut on the bias. Sleeves sewn in to give a rolled effect to the seam. Linen. All hand stitched. (JH) Mended in a beautiful hand stitched manner. 8 metal eyelets for tying in front. Much mended, Delicate, (Beautiful).costume, female, underwear

Camisole. Cream coloured cotton. Lace yolk with short sleeves edged with lace. Front opening with three buttons. Small peplum. Cotton tape tie at waist. Lace yoke octagonal in shape, 9cm deep. Round neckline edged with lace - 2.5cm deep. Machine stitched. Drawstring tape at waistline. Three fabric covered buttons. Hand stitched button holes.costume, female, underwear

Camisole. Ivory coloured fine cotton with cut out embroidery lace edge along hem with inverted Vshape. Front opening with three buttons with patterned edges. Cap sleeves. Round neckline has scalloped, embroidered edge, and insertion for a ribbon to drain the neckline. Identical inserrtion and scalloped edge on the short sleeves.costume, female, underwear

White cotton camisole with short sleeves edged with 3cm cotton embroidered and cut work lace. Square neckline edged with two bands of embroidered and cut work lace. Bodice gathered onto a 9 cm deep peplum with rounded fronts. Three hand stitched button holes and two pearl buttons.costume, female, underwear