Box of dip pen nibs made by William Mitchell Calligraphy dating back to late 19th or early 20th century when dip pens with steel nibs were the main writing instruments. The pen nibs are shaped to fit into a slot in the base of a wooden or Bakelite pen holder. The hole at the front of the nib is for collecting ink from a well, which is then stored in a reservoir at the back of the nib. The nibs are stamped with their nib size and Pedigree (what type of nib it is) and maker’s details. William Mitchell Calligraphy still makes these nibs today with a slightly difference finish. (ref: Sales and Marketing Director of William Mitchell Calligraphy in 2016). HISTORY of the Ink Pen Quills and ink were common writing tools until the early 19th century when the pen trade began mass producing steel nibs and pens. The steel nibs each have a hole in the middle that acts like a well for the ink. When the nib is dipped into the ink well the writer needs to ensure that it is dipped to only just past that well. India Ink was one of the most popular inks used with the nib pens, notable for its satin-like smooth flow. This ink is composed of a particularly fine carbon mixed with water; it can also be obtained as a dry stick that is then crushed and mixed with water as required. The Jewellery Quarter of Birmingham had the largest concentration of independent jewellers in Europe. Birmingham became the centre of the world’s pen trade for many years -, during the 1800’s over 100 factories, employing 1000s of skilled workers, manufactured the ‘Birmingham Pen’. ABOUT WILLIAM MITCHELL CALLIGRAPHY LTD.* (*The following text is quoted from the William Mitchell Calligraphy website) British based William Mitchell Calligraphy has been designing and manufacturing exceptional pens for almost 200 years. The William Mitchell heritage in making pen nibs began whilst working with his brother John Mitchell in the early 1820s. William Mitchell established his own business in 1825 to become one of the leading nib manufacturers and famous for lettering pens. Almost 100 years later William Mitchell merged with Hinks, Wells & Co, another pen manufacturer, to form British Pens, employing around 1000 people in the Bearwood Road area of Birmingham. During the early 1960s British Pens acquired the pen business of other pen manufacturers Perry & Co and John Mitchell, once again reuniting the two brothers. Joseph Gillott, who were famous for their artist drawing and mapping nibs, amalgamated with British pens in 1969. William Mitchell and Joseph Gillott established in Birmingham during the early part of the nineteenth century and [their products] are still proudly made here. British Pens were subsequently purchased by its current owner Byron Head, the owner of William Mitchell (Sinkers) in 1982, and was subsequently renamed William Mitchell (calligraphy) Ltd. Established in 1827 Joseph Gillott was one of the pioneers of mass steel pen nib manufacturing. The company was particularly strong in the American market, prompting Elihu Burrit, the American consul, to write “In ten thousand school houses across the American continent between two oceans, a million children are as familiarly acquainted with Joseph Gillott as with Noah Webster” (The compiler of the famous American dictionary). The company consequently received visits from many notable Americans, including president Ulysses S Grant. Email on file, from Mike Chappell, Sales and Marketing Manager, William Mitchell Calligraphy, “20161122 - William Mitchell re pen nibs” How to use a dip pen to create modern calligraphy, https://thepostmansknock.com/how-to-use-a-dip-pen-to-create-modern-calligraphy/ India Ink, Wikipedia https://en.wikipedia.org/wiki/India_ink birmingham Pen Trade, Wikipedia, https://en.wikipedia.org/wiki/Birmingham_pen_trade The Pen Museum, http://penmuseum.org.uk/ The early 19th century invention and later mass production of pen nibs such these in our collection had a large impact on education and literacy because the nibs could be produced in great numbers and affordable prices.Box of patent Mitchell nibs containing 48 "Pedigree" nibs. Box depicts picture of William Mitchell on lid, and picture of nib pen on lid and side. Made in Birmingham, England. Nib “0505 Wm MITCHELLS PEDIGREE ENGLAND” Box “PEDIGREE / MAINFOLD SLIP”, “WILLIAM MITCHELL / BIRM - - - - - - LOND” flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, william mitchell calligraphy ltd, pen nib, writing implement, writing accessories, dip pen, birmingham manufacturer, communication in writing, mass produced pen nibs

This strong, heavy bank safe was made by W. Marr in London. It was formerly owned by the ANZ Bank in Portland, Victoria. Portland’s ANZ Bank was originally a branch of the Bank of Australasia, which first came to Australia in 1835, opening in Sydney. Portland’s Bank of Australasia began in a bluestone building built on the north corner of Julia and Bentinck Streets by stonemason William Robb in 1855, around the time of Australia’s Gold Rush. Eventually, in 1951, the Bank of Australasia merged with the Union Bank to become the Australia & New Zealand Bank, known as the ANZ. Portland’s branch of the Bank of Australasia then moved into the old Union Bank building at 44 Percy Streets; both bank buildings were built around the same. The maker of this safe, W. (William) Marr, obtained a patent in 1834 for what is believed to be the first fire-retarding patent, building this into the lining of strong boxes. Others made further design improvements such as hardening the metal plates used to make the boxes. In about 1840 Thomas Milner, a Sheffield tinsmith, made the earliest safes that could safely protect their contents from a surrounding fire. This was achieved by including tubes of a substance between the inner and outer walls of the safe that would react to the heat and the contents would put the fire out. In 1851 an Exhibition at London’s Crystal Palace included fire-proof safes from different vendors. William Marr was listed under Fireproof Box Makers in the 1842 London Trades Directory, at 33 Broad Street, and 52 Cheapside. William Marr & Son were appointed to supply Her Majesty’s National Debt Office and other departments in 1860, with the address 9 Walbrook, Vulcan Safe Works, Skin Yard, Bankside, Southwark, London. 1n 1870 the address for William Marr listed under Safe Makers and Agents in the London Trades Directory was 67 Cannon Street. The manufacturer, W Marr, is significant as an inventor of a way to make a strong box fireproof, then patented his secure safe. This invention indicates that security of money was of great importance in the mid-1800s as it continues to be today. The secure safe would have given much comfort to those with investments and savings, as well as to the bank itself, the custodian of other people's money. This safe was made in London and exported to colonial Australia, giving significance to the safe as an item that was high in the list of the needs of the early Australians and their businesses. The safe has local historical significance as it was used by the original Bank of Australasia in Portland, which was built in 1855 and went on to become the ANZ Bank, still in operation today. The bank was an integral part of the establishment and growth of commerce in Colonial Victoria.Safe; heavy metal bank safe, painted green. Double doors each have top and bottom external hinges, and two front panels; the top panels are arched. The thick doors have five sliding locks. Inside is a fixed metal compartment with a locked sliding metal drawer, and several fitted shelves plus some temporary removable shelving. Both doors have a decorative brass knob near the centre opening. Left door has an oval artificial keyhole and a space where another fitting has been attached. The right door has a second brass knob and an oval keyhole. The top panels of the left door has an oval plaque with an inscription; the right door has evidence that there was an oval attachment. Made by W. Marr, London.Text embossed on plaque: "W. MARR / PATENTEE & MANUFACTURER / 52 / /CHEAPSIDE / LONDON" flagstaff hill, warrnambool, shipwreck coast, flagstaff hill maritime museum, flagstaff hill maritime village, maritime museum, great ocean road, shipwreck artefact, safe, bank safe, vault, security, finances, anz bank, portland bank, w marr, william w marr, financial institution, savings, gold exchange, loans, investments, safety, safe maker, lock maker, iron box, strong-room

The bosun’s chair is a typical piece of equipment included on board a vessel in the late 19th and early 20th century. The nautical word 'bosun' is an abbreviation of the word 'boatswain' who is the person responsible for the repair and maintenance of the vessel. It could be used when rigging the sails and for rescue at sea, along with a thick rope anchored on shore or a rope between ships. It could also be used to move passengers to and from a ship as well as cargo on, to and from the vessel. A bosun's chair is a simple piece of equipment made from a short plank of wood and a sturdy piece of rope. It looks a little like a child's swing but usually has a pulley system that allows the user to adjust the length of the hanging piece of rope, and in so-doing adjusts the height above the floor or ground or sea. In modern times a harness would also be worn by the bosun’s chair user for safety reasons. Bosun's chairs are also used by window cleaners, construction workers and painters. The bosun’s chair is sometimes just a short plank, or even a canvas sling. The bosun's chair is significant for its association with maritime equipment carried on board a vessel in the late 19th and early 20th century for maintenance and safety purposes. It was occasionally used to save lives. The bosun's chair is also significant as an early version of equipment still used today. Since its invention there have been many safety features added in certain industries such as window cleaning and painting.Bosuns chair, rectangular slab of wood with two holes at both ends through which rope ends are threaded for support and the loops above the seat are tied with sailor's knotting to form a triangle. flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, bosun's chair, bosuns chair, boatswains chair, rigging, maritime equipment, bosun's seat, life saving, marine technology, ship rigging

The art of making glass can be traced back to 2600 BC in Mesopotamia. Egyptians practised making glass around 2500 BC. Artificial glass first appeared in the Egyptian or the Mesopotamian civilization, whereas they used tools made out of volcanic glass obsidian in the Stone Age. Ancient China, however, discovered how to make glass a little later. Glass beads are known to be one of the earliest products made out of glass. Their creation is thought to be primarily accidental. In the later Bronze Age, glassmaking came to a halt. Glass was a luxury material back then. Archaeological excavations suggest the use of glass in England during the middle ages. In the 10th century, stained glass found a place in cathedrals and windows of palaces. After the Renaissance, architectural methods changed substantially, leading to a decrease in stained glass as a building material. Domestic use of glass increased following the industrial revolution. Vessels, glass windows, and glass beads gained popularity in Europe during this period. During the 19th century, many people preferred glass windows and doors as a decorative option. In the late 19th century, some designers brought back stained glass in decorative windows. It was during this period that Mr Tiffany discovered several methods to make domed glass handicrafts. People discovered the true versatility of using glass as a building material only in the 20th century. With glassmaking technology receiving an industrial boom, you could produce several different types of glass. Toughened glass, laminated glass, bulletproof glass, and smart glass all boosted the use of glass in buildings. Today, several skyscrapers, small and big homes, and offices use glass in almost all aspects of construction and design. https://www.aisglass.com/glass-made-step-step-process/The invention and development of glass, both as domestic items and in building, has been nothing short of revolutionary. Prior to the use of glass for windows, the interior of buildings were extremely dark, even during sunny days. The use of glass domestic objects, that could be easily washed, led to improved hygiene.Moulded patterned glass butter dish. Base has been broken.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, glass, kitchen item, butter

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

This lead sealing capsule was recovered from the tragic wreck of the sailing ship ‘Loch Ard’. It may have once been on a bottle amongst the ship's cargo, its provisions or the passengers’ personal luggage. It is now part of the John Chance collection. Bottles in the early 19th century were handmade. They were not necessarily uniform in size or shape, so sealing was not always successful. If the bottles were stored they often became contaminated by rats and mice breaking the cork or wax seals, or by insects attracted to the contents if the seal on the bottle leaked. Lead sealing capsules were used from 1843 to overcome this problem. The lead was heated until it was malleable, then moulded by hand to fit over the sealed bottle’s mouth and neck. This was more successful if wire was also used under the capsule for added security (similar to modern champagne bottles). The capsule couldn’t be re-fitted so it was discarded after the bottle was opened. Capsule designs from about 1862 used tin-plated lead foil and often had the inscriptions and trademarks of the content makers on them. Eventually it was found that the lead was toxic. The lead was replaced by tin, aluminium, and later plastic. Today’s home brewers can buy readymade plastic capsules that fit over the bottle then twist to lock it firmly into place and can be re-used. Digs at archaeological sites often reveal lead sealing capsules. These are collected and catalogued. The information gathered from inscriptions, makers’ marks, logos and descriptions of the bottle contents has provided valuable insights into the history and the dating of other items on the sites. This lead sealing capsule was made to seal a handmade glass bottle and is historically significant for representing its invention to solve a preservation and integrity issue with bottle seals in the mid-to-late 19th century. Its design has evolved and is still in use today. This sealing capsule is representative of their historical use of capsules as a tool for dating and interpreting archaeological sites around the world. The sealing capsule is also significant as it was recovered by John Chance, a diver from the wreck of the Loch Ard in the 1960s-70s. 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. The sealing capsule is also significant for being connected to the wreck of the Loch Ard (1873-1878), which is historically significant to both Victoria and Australia. The loss of the ship has been described as one of the ‘worst shipwreck tragedies’ and is well known in Victoria for the tragic death of 52 out of the 54 lives on board. The Loch Ard wreck's historical significance as a large international passenger and cargo clipper ship has been recognised and it is now registered on the Victorian Heritage Database, VHR S417. The wreck site is labelled as ‘one of Victoria’s most spectacular diving sites’ and the area is a popular tourist site. It is part of Victoria’s Underwater Shipwreck Discovery Trail.Bottle sealing capsule, cylindrical with thin, round top separated from thicker body (taped in place and fragile). Made from grey-white lead, uneven in thickness and shape. Remnants of a thick substance are inside the capsule.flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, john chance, loch ard, bottle seal, bottle capsule, handmade bottle, antique bottle, sealing capsule, lead capsule, bottle closure, bottle foil, bottle preservation, bottle finish

A dead eye is a part of a vessel’s rig On board sailing ships, dead eyes were used in three different areas. Traditionally dead eyes are made of wood but they have different forms according to where they were used in the vessel rigging. The most common type of dead-eye is flat, with three holes and was used to tension the shrouds, the heavy lines which steadied the masts on each side. Each shroud had a dead eye at the lower end, which corresponded to a similar dead eye attached to the side of the ship. The two were connected with a rope called a lanyard, which was used to tighten the assembly. The stays, heavy lines running forward from the masts, were also tensioned with dead eyes. These are much larger and rectangular, with four or six holes. The third type of dead-eye was a two-holed version attached to an eye at the end of the parallel, which tied a yard to the mast. The loose ends of the parallel rope passed through the dead eye and then down to the deck, making it possible to tighten or slacken the parallel from the deck so that the yard could be more easily manoeuvred. It was especially important for the mizzen yard, which had to be shifted from one side of the mast to the other when tacking the ship.An item used on sailing ships rigging this item of ships equipment and its use has been used from the beginning of the invention of sailing ships going back to ancient times. Its use on sailing vessels had not changed in design or use until they went out of fashion and steamships took their place.Circular wooden ships rigging dead eye with three holes Noneflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sailing vessel rigging, dead eye, sailing equipment

Black leather look binder containing information, letters, diagrams, plans, drawings, graphs, telegrams & photographs all relating to Scalebuoys.sciences, instruments - general, scalebuoy, bendigo-inventions-scalebuoys-bendigo electronic co-abbott

Black and white photograph showing Scalebuoy attachment with typed description.sciences, instruments - general, scalebuoy, bendigo-inventions-scalebuoys

Four scalebuoys stacked above each other in a metal frame one with a copper turbine arrangement on top. An electromagnetic apparatus containing mercury, promoted for its ability to convert ordinary tap water in the home into therapeutic bathing and drinking water with healing powers related to a wide range of medical conditions. The scalebuoy was also sold for a remarkably diverse list of other uses and benefits. Invented by Richard Hartley Smith Abbott, a well known Bendigo businessman following World War 1.Bendigo Electronic Coy Patd A.C. Scalebuoysciences, instruments - general, scalebuoy, bendigo-history-inventions-business-abbott

Hand held Scalebuoy with chromed handle and cage with a glass ball enclosed containing a small amount of liquid mercury. Invented by Bendigo businessman Richard Hartley Smith Abbott, a well known Bendigo businessman, used for improving the quality of water.Bendigo Electonic Coy Patd A.C. Scalebuoysciences, instruments - general, scalebuoy, bendigo-history-inventions-abbott

Brown leather sample case containing 8 Scalebuoys of various sizes and shapes held in a blue velvet holder with small leather securing straps.Bendigo Electronic Coy. Patdsciences, instruments - general, scalebuoy, bendigo-inventions-scalebuoys-hartley abbott

Large bundle of approximately 300 double sided sheets of directions for the use of the Scalebouy hand shaker for bath basin or drinking vessel printed by the Bendigo Electronic company of Australia Pty Ltd Sole Distributor Frank A Stevenson 62 Honeysuckle Street Bendigo.sciences, instruments - general, scalebuoy, bendigo-inventions-scalebouys-bendigo electronic company

Index, bib, ill, p.236.non-fictionIt is difficult to overestimate the excitement that accompanied the birth of the Spitfire. An aircraft imbued with balletic grace and extraordinary versatility, it was powered by a piston engine and a propeller, yet came tantalisingly close to breaking the sound barrier. First flown in 1936, the Spitfire soon came to symbolize Britain's defiance of Nazi Germany in the summer of 1940. Flown by pilots of many nations, it saw service as far afield as Australia and the Soviet Union. Spitfire: The Biography is a celebration of a great British invention.spitfire, world war ii - air warfare

Index, bib, p.438.non-fictionPart I: Studies from psychology Introduction Instinct theories and comparative psychology The moral equivalent of war / William James The instinct of pugnacity / William McDougall Emotion and society / D.O. Hebb & W.R. Thompson Psychoanalytic perspectives Why war? / Sigmund Freud Personal aggressiveness and war / E.F.M. Durbin & John Bowlby Toward a psychiatry of peoples / Harry Stack Sullivan Wholeness and totality / Erik H. Erikson Authoritarian personality and foreign policy / Daniel J. Levinson Social learning and intergroup relations War, peace, and social learning / Mark A. May Drives toward war / Edward C. Tolman The role of expectancy / Gordon W. Allport Part II: Studies from sociology and anthropology War / William Graham Sumner The social function of war / Robert E. Park An anthropological analysis of war / Bronislaw Malinowski Warfare is only an invention not a biological necessity / Margaret Mead Primitive warfare: a methodological note / Joseph Schneider Part III: War, liberal democracy, and industrial society The military and the industrial society / Herbert Spencer The garrison state / Harold D. Lasswell On war, society, and the military / Alexis de Tocqueville Military elites and the study of war / Morris Janowitz War and industrial society / Raymond Aron.armed conflict - history and teaching, conflict - history

Designed and built in the early 1920’s by Charles Robert Prosser , a Melbourne Engineer, for an enquiry by the Commonwealth Government into ways of solving the break of gauge problem. Breaks or changes in railway gauges existed at most state borders of Australia during the first half of the 20th century. Upon completion of this model, it was placed on display in the Federal Parliament then located in Parliament House, Melbourne. Patents on the Break of Gauge Bogie Application number Title Applicant(s) Inventor(s) Filing date 1921000390 Improved means of adjusting the wheels of rolling stock to suit railway tracks of different gauges Charles Robert Prosser Charles Robert Prosser 1921-02-01 1917004843 Improvements in and connected with railway or other ticket supply tubes Charles Robert Prosser Charles Robert Prosser 1917-08-09 1915016191 IMPROVEMENTS IN AND CONNECTED WITH THE ADAPTATION OF RAILWAY ROLLING STOCK TO DIFFERENT GAUGES Charles Robert Prosser Charles Robert Prosser 1915-05-01 1915015980 Improvements in and connected with the adaptation of railway rolling stock to different gauges Charles Robert Prosser Charles Robert Prosser 1915-04-09 1914012931 Improvements in and connected with the adaptation of railway rolling stock to different gauges Charles Robert Prosser Charles Robert Prosser 1914-04-20 The Sydney Morning Herald Fri 2 Sep 1921 Page 6 BREAK OF GAUGE DEVICE. http://nla.gov.au/nla.news-article28088233 Historic - Railway Invention Break of Gauge Bogie Break of Gauge Bogie made of iron and wrought iron & brassboggie, break of gauge, puffing billy

This photograph of Slawa and her sister was taken a few months before Slawa and baby Eva left Vienna, in December 1938. They joined Karl in Switzerland. After leaving Europe, she did not see her sister again for 30 years – years which are documented in the many letters held by the Studio, sent over this time. In 1968 Slawa and Rella met one more time in Paris.This photograph documents the important relationship between Slawa Horowitz-Duldig and her sister Rella Horowitz, later Laisne. Rella assisted Slawa in the process of developing her invention of the modern foldable umbrella, and hid the family's artworks and furniture, designed by Slawa and the firm of Sigmund Jaray, in her apartment in Paris during the Second World War. It is of historical significance as it documents life in Vienna prior to the Second World War.

Used by owner, Phil Bennett, who lived at 122 Thames St., Box Hill from 1926 until his death in 1998Chook-feeder: A 4-gallon Shell 'Teepol' detergent tin with home-made chute riveted onto opening. The chute is made of two sheets of iron, and covers half the opening (leaving room to add the feed) narrowing at the end. A round wire handle is attached to the tin across the middle of the opening. The detergent tin has the original labelling on all four sides in varying degrees of visibility.On top of chute: 'Full 27/2/82'rural industry, livestock, inventions

non-fictionDaniel Harvey was well-renowned for his famous orchard and vineyard equipmentharvey daniel, orchards, inventions, vineyards

This is an incomplete record of those people who signed Laurie's autograph book. Most of the pages contain remembrances from members of Laurie's extended family however some relate to Mont Albert Central School where Laurie was a student. Those entries which are dated are from 1957. This is part of a large donation relating to the Young / Mair / Deakin families. In Europe autograph books have a history that can be traced back to 15th century university students. In Australia autograph albums were particularly popular towards the end of the 19th century, although there are known examples as far back as the 1830s. The increase in popularity coincides with printing and book binding becoming more affordable. Autograph books came in many sizes but were typically small with blank pages, usually in pastel colours. The books were often exchanged so the gathering of autographs was a very social pastime. Pages were filled with not only names, signatures and personal details but also poems, limericks, drawings, personal messages, small pieces of verse, and other mementos, such as pressed flowers, locks of hair and even embroidery. Although they could be very personal, unlike a diary they were meant to be viewed as part of the exchange. Autograph books from the 1950s may have a different focus. Although it remained common to collect the autographs of friends it was also highly desirable to collect the signatures of the famous, especially rock and television stars. Autograph books are of social relevance because they reflect the sentiment of the era of creation; they can also be reflective of social change, major political events or new inventions. Nine pages which have been cut from an autograph book. The pages are faded pink, blue and green in colour with a gold edge. All but one have inscriptions on one side only. laurie young, beryl young, ernest lance young, ernest augustus young, arthur john young, m w damiel, e s hall, c c mansell, autograph books, teachers, head master, mont albert central school

It belonged to Beryl Mair of 20 Barton Street, Surrey Hills and was given to her by Mr W Sandoe on 12.11.1928. There are entries from family members and class mates from Mont Albert Central School (MACS). The first entry is written by her father, Dave Mair. Entries from: D Mair, Lance Young, Norma Dunn, I Goodes, Lorraine Potts, Mary Griffin, L E Jarman, J Stalker, Jean Fowler, Ailsa Hank (with an ink drawing of a cottage), May Leach, Merle Botten, Beryl Skinner, Enid Marro(w ?), Betty (S ?)oule, Fred A Teague, A Mock, Kath Paul, Melva Dare, Marjorie Smith, J Hargreave, Ethel Lillifant. Three entries are quotation only. One page lists teachers of Mont Albert Central School: E C Cairns, E E Holden, Alfred Harley, R Blackburne, R W Campbell, M (?) Sheahan, ------- (undecipherable), H McConville. Those dated are mostly from 1930.The Mair family were resident in Barton Street for several generations. Beryl's father Dave Mair was a keen sportsman and founder of the Kangaroo Social Club of cricketers. Beryl married Lance Young. This is part of a large collection relating to the Mair, Deakin and Young families.In Europe autograph books have a history that can be traced back to 15th century university students. In Australia autograph albums were particularly popular towards the end of the 19th century, although there are known examples as far back as the 1830s. The increase in popularity coincides with printing and book binding becoming more affordable. Autograph books came in many sizes but were typically small with blank pages, usually in pastel colours. The books were often exchanged so the gathering of autographs was a very social pastime. Pages were filled with not only names, signatures and personal details but also poems, limericks, drawings, personal messages, small pieces of verse, and other mementos, such as pressed flowers, locks of hair and even embroidery. Although they could be very personal, unlike a diary they were meant to be viewed as part of the exchange. Autograph books from the 1950s may have a different focus. Although it remained common to collect the autographs of friends it was also highly desirable to collect the signatures of the famous, especially rock and television stars. Autograph books are of social relevance because they reflect the sentiment of the era of creation; they can also be reflective of social change, major political events or new inventions.A small autograph book with a mottled brown cover and faded pastel pages with gold edging. The end pages are detailed in beige and pink. There are multiple entries, those dated are mostly from 1930. Front cover: "Autographs" in gold within a gold oval. Front inside page in black and red ink: "BERYL MAIR / 20 / BARTON / STREET , SURREY HILLS / from / MR W SANDOE / 12/11/28" Embossed in back cover, lower right: "MADE IN ENGLAND" beryl mair, autograph books, dave mair, barton street, ernest lance young, lance young, norma dunn, i goodes, lorraine potts, mary griffin, l e jarman, j stalker, jean fowler, ailsa hank, may leach, merle botten, beryl skinner, enid marro(w ?), betty (s ?)oule, fred a teague, a mock, kath paul, melva dare, marjorie smith, j hargreave, ethel lillifant, teachers, mont albert central school, e c cairns, e e holden, alfred harley, r blackburne, r w campbell, m (?) sheahan, h mcconville

Col. Harley Tarrant was an astute businessman and a part-time soldier. He was born at Clunes in 1860 and as a young man worked with an engineering firm in Sydney. He later joined the Board of Works in Melbourne. and later entered the early car manufacturing and retailing trade. In 1905 Harley Tarrant built the first car to be built and sold in Australia. For a time he was a surveyor and worked in Surrey Hills but motoring became his prime interest. In the early 1890s he set up a workshop in what was then Post Office Place, Melbourne. He built stationary engines which ran on kerosene and in the first years of the twentieth century, with partner W Howard Lewis, built the first petrol driven car in Australia. This photo is of his sixth car and was taken after the finish of the 1st Sydney to Melbourne Dunlop Reliability Trial, which Tarrant won. Harley Tarrant produced cars between 1901 and 1907 at the Tarrant Motor and Engineering Company in Queen's Bridge Street, South Melbourne. The first car had a rear-mounted two-horse power Benz engine. Two-cylinder models were later produced followed by 4-cylinder models. The only Tarrant car in existence in 1984 was owned by Harley Tarrant's grandsons, Kenneth and Peter Holmes of Melbourne. The 1906 Tarrant car featured on an Australia Post stamp in 1984. It was one of a series of 5 stamps featuring Australian veteran and vintage cars.Black and white photo of a car without a hood in the driver's seat of which is a man with cap, driving dust coat and goggles, identified as Harley Tarrant. Beside him is a young girl in a large frilly; she is identified as Doreen Tarrant, his daughter. Another man with cap and goggles is talking to him and a gentleman in a bowler hat looks on. There is a women and 2 children in the background in front of a large brick wall decorated in two coloured bricks. cars, inventions, dunlop reliability trial, tarrant motor and engineering company, mr harley tarrant, miss doreen tarrant, mrs doreen holmes, col harley tarrant

p.365.fictionA collection of short storiesengland - fiction, england - short stories

Mrs Potts Sad Iron Set . This double point design with detachable handle was patented in the United States of America by Mary Potts in 1871. It was sold in sets of three bodies with one handle and a stand or trivet. The detachable insulated handle was designed to always remain cool for ironing. The handle was detachable, so that several irons could be on the stove at one time and the handle swapped between several bodies. This item is an example of an invention that was universally adopted to make the task of ironing safer and more efficient.A set of double pointed flat irons which detachable handle. This set includes a trivet to rest the unused iron on. All components are made from cast irondomestic appliances, flat irons, sad irons, mrs potts irons

The Recco system was developed in response to an avalanche tragedy in Are, Sweden in December 1973. The inventor and founder of RECCO, Magnus Granheed assisted in the rescue work. He was frustrated by the primitive methods for locating buried victims that existed at that time, by “probing” with ski poles and digging at random. Unfortunately two people were found deceased. created a passive reflector that could be carried by a skier at all times. After careful research and consultation with professional rescuers, the first prototype was finalised in the beginning of the 80s. In 1983, the company called RECCO was founded. Today the system consists of two parts: a reflector integrated into clothing, boots, helmets and body protection worn by skiers and riders and a detector used by organised rescue teams. These avalanche reflectors were given to participants at the 1987 Interski International Ski Institute Instructors' conference held in Banff, Canada.The invention of these reflectors was critical to increased safety for participants in outdoor activities including skiing at Falls Creek,Two Recco Reflectors which are worn on a skier's equipment or clothing. These strips contain a passive reflector which can be detected by searchers in an emergency situation.From left to right: INTERSKI Banff 1987 / RECCO Avalanche Radar Reflector / INTERSKI ARE 1991recco reflectors, recco system, avalanche rescue, magnus granheed

In 1932, Edward Thomas Both invented the first portable direct reading electro cardiograph. This item is a three lead electrocardiograph tracing conducted on one of Dr Angus' patients in 1939. Dr William Roy Angus (1901-1970) came to Warrnambool in 1939, purchasing the general practice of Dr John Hunter Henderson. He was the last serving Warrnambool Port Medical Officer. A health problem after the war prompted a change from general practice to ophthalmology. Dr. Angus became an important ophthalmologist , pioneering the use of the intrascleral cartilage implant which resulted in cosmetically better artificial eyes. He was an Honorary Consultant Ophthalmologist at Warrnambool Base Hospital for 31 years. He was Secretary of the Victorian South West sub-division of the Australian Medical Association from 1949 to 1956 and Chairman from 1956 to 1958. His obituary in the Medical Journal of Australia (July 1970) stated he was "dedicated and devoted to both his profession and his patients" .This item provides a link to an Australian invention of medical equipment which improved diagnosis and treatment of heart conditions in the 1930's. It is an example of diagnostic recordings used by a Warrnambool doctor in 1939.This is a card record of a three lead "Both" Electrogram. The upper one third has places for the date patient details and diagnosis. There are three electrocardiogram tracings over graph paper in the bottom two thirds of the item. The reverse side has a handwritten in ink interpretation of the tracings.Front: BOTH ELECTRO-CARDIOGRAM No. Date July 4th 1939 Rate 130 Name Age Diagnosis The patient name has been blacked out. Dr. Angus is printed in the top right hand corner. Rear: The P wave in lead 1 is broadened and notched, and has a suggestive "plateau" top. This may indicate a mitral stenosis, auricular hypertrophy. E Bannondr william roy angus, both electro-cardiogram, dr angus collection