This item is an important example of the early technology of artificial light. It has historical significance in demonstrating lighting devices used before the widespread use of electricity.Kerosene/oil hand-held lantern with carry handle. Red glass window (for a show of red light) and a clear glass window that opens for lighting of wick. (Dietz Dainty Tail Lamp)lantern candle dietz-dainty-tail-lamp

The kerosene lamp was one of the most common oil lamps used and was manufactured until the 1980s. This lamp appears to be a modern reproduction of an earlier optional wall-mounted kerosene lamp. The lamp has been produced as an example of a 19th and early 20th-century marine kerosene navigation lamp. Marine lamp; portside metal kerosene lamp with two flat sides, and a curved front. The front has a red ridged glass lens insert and the name "port" is inscribed on a fixed brass plaque. A round chimney is on top of the lid and it has a catch. The fuel tank and wick can be removed through the base. The metal appears to be electroplated.Inscribed on the plaque; "PORT"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, lamp, ship lamp, port lamp, marine lamp, navigation lamp, port, lantern, kerosene lamp, marine technology, ship light, portable lamp

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.Cylindrical drinking glass with stepped relief around lipNoneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, glass

Glass manufacturing has evolved over thousands of years. Glass making has been traced back to 3500 BC in Mesopotamia. The earliest known glass objects were beads, perhaps made by accident while working with metal. In the late Bronze Age, several civilizations discovered how to make vessels and glass bottles by wrapping threads of melted glass around cores of sand or clay. Later, moulds were used to form dishes and table wares. Around the 1st century BC, glassblowing was discovered. This made glass containers less expensive than pottery. Mould-blown glass, the process of blowing a piece of molten glass into a wooden or metal mould, was invented during the 1st century AD. This technique was faster with more consistent results. It paved the way for mass production. It wasn’t until the late 1800s that the production process to become more efficient. In 1887, a company in England created a semi-automatic process that could produce up to 200 bottles an hour. This process has been refined to the point where modern machines can yield more than 600 containers per minute. Blown vs. Manufactured Glass Bottles Nowadays, glass bottles, jars, and cups are usually manufactured on a bigger scale than is found in individual glassblowing studios. If we still depended on hand-blown glass for all of our glass containers, we would see some major differences in the process of creating bottles and jars. First, there's the time. Hand blowing glass takes a significant amount of time, even for one simple container. In contrast, hundreds of jars per minute can be made using modern technology. This leads to the second advantage: price. Because of the automated and streamlined process, the price for manufactured containers is much lower than that of hand-blown glass. Third, manufactured bottles will be much more consistently uniform than bottles blown by hand. Automated glass manufacturing produces nearly identical batches of jars. Glass blowing is awesome for unique, beautiful pieces of art. But for lots of lower priced and uniformly shaped containers, automatic manufacturing is the preferred method to create glass bottles and jars. https://www.containerandpackaging.com/resources/glass-bottles-brief-history The invention and development of glass for domestic items including bottles, has been nothing short of revolutionary. The use of glass bottles, that could be easily washed, led to improved hygiene, and mass manufacturing of drinks of all types, including milk, cordial and alcoholic beverages.Green Glass Bottle Possibly a ginger beer bottle.Concave indentation at the base. Also on base are two raised lumps. flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, glass

This unit was designed and manufactured in a factory where many local people of Bacchus Marsh worked. Ref. Historical Notes-Significance Assessment Study ( October 2008)Bakelite tabletop radio,small box,camel-coloured leatherette covered,glass front,three dials,electrical cord,4 vlave reflex super heterodyne, cord attached, incription on set reads "MARSHMAN MUSIC MASTER".Maker's mark in blue print "MARSHMAN MUSIC MASTER" (Inscription on the central area of the glass front of the unit) "BROADCAST" is printed in cream twice in the area of the radio Frequency Band listings.electrical, , bacchus marsh, bakelite, radiogram, bob butler, post war invention, leatherette, technology, 1950 s, small scale radio, heterodyne, cabinet radio, arbee supply c0, civilian radio, manufacturer s drawings, wiring layout, console model

William Thomas George was born in Birmingham in 1884 and was a tin plate worker. He and his wife Ellene had a son Leslie Thomas George. The firm W T George & Co was formed sometime later. In 1939 his firm produced ship lamps. The Patent Number GB546575 on the lamp's plate was assigned to Leslie Thomas George in 1941 for improvements in, or relating to, ships' lanterns. From that time the patent number was affixed to their namufactured Meteorite lights. The ship navigation lamp is important as an example of the evolution of marine safety technology. Countries began passing laws and regulations in the 1830s that required ships to show navigation lights at night or in poor weather. From the late 1840s colours were standardised; red for portside of the vessel and green for starboard, a white masthead light, and a white light at anchor. By 1914 the International Convention for the Safety of Life at Sea was formed and continues, with decisions and notifications on improvements and changes.. Lamp; Portside ship's lamp is rounded in the front with two flat sides coming to a point at the rear. Glass has circular ridging. Metal handle with lid and clasp. The reflector has red colouring. Inscribed on fixed plates on the front, with maker's details and Patent number. This Meteorite lantern was made by W T George and Co Ltd, of Birmingham. "Port" "W T George and Co Ltd" "Sherlock Street Birmingham" "Meteorite 68990 Patented No 546575 and others pending"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, portside ships lamp, portside, port lamp, ship's lamp, marine lamp, navigation lamp, w t george & co, coloured lens, red lens, ship fitting, marine technology, navigation light, signal lamp, leslie thomas george, gb546575, patent gb546575, meteorite, lantern, lamp, light

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

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

There are two distinct types of milk consumption: a natural source of nutrition for all infant mammals and a food product for humans of all ages that is derived from other animals. Milk is a key contributor to improving nutrition and food security particularly in developing countries. Improvements in livestock and dairy technology offer significant promise in reducing poverty and malnutrition in the world. Pasteurization is used to kill harmful micro-organisms by heating the milk for a short time and then immediately cooling it. In the past, milk was always packaged in glass milk bottles The first glass bottle packaging for milk was used in the 1870s. The first company to do so may have been the New York Dairy Company in 1877 with a small glass lid and a tin clip. Lewis P. Whiteman holds the first patent for a glass milk bottle c1884,which was sealed with a waxed paper disk. The Express Dairy Company in England began glass bottle production in 1880. Melbourne Glass Bottle Works Spotswood 1880 - 1990. Milk cartons first came to Australia in 1958, when the Model Dairy in Melbourne began packaging milk in 150 ml and 500 ml cartons. At the time, 160,000 new glass bottles were needed in Melbourne alone every week to keep up the delivery of 1.3 million bottles of milk a day. n 1970, the blow-moulded disposable plastic milk bottle was introduced. In 1987, only about 2% of milk was still being sold in glass bottles. Glass milk bottles are now rare .Melbourne Glass Bottle Works Co Pty Ltd (1903 - 1915) Registered in Victoria in 1903 the company amalgamated with the Waterloo Glass Bottle Works Ltd in 1915 to form Australian Glass Manufacturers Company, Limited. Melbourne Glass bottle works Spotswood 1872- 1915 The Melbourne Glass Bottle Works (former), comprising a complex of buildings constructed between 1880 and 1940, at Booker Street, Douglas Parade, 2-38 Hudson Road, Raleigh Street and Simcock Avenue, Spotswood. The former glassworks was established in 1890 and originally made bottles for pharmacists Felton Grimwade before it was sold to the state government by US multinational, OI glass manufacturers A clear glass 4 oz bottle for PURA Creamery Carnegie. . A waxed cardboard disc lid from Devonshire Dairy Hepburn Springs is not related to this bottle but is an example of the typical lid used during this period Bottle : PURA / CREAMERY / CARNEGIE / CONTENTS 4 OZS Base : 120 Lid circumference : DEVONSHIRE DAIRY HEPBURN SPRINGS:/ Lid centre: PURE MILK/ T.B. TESTED COWS / PHONE 223 melbourne glass bottle works, spotswood melbourne, milk, dairy, dairy produce, dairy farmers, market gardeners, pioneers, early settlers, moorabbin, cheltenham, pasteur louis, pasteurization, pura creamery carnegie, devonshire dairy, hepburn springs, waxed paper milk bottle lids, felton grimwade co ltd,

A hair fashion accessory for 20thCentury ladies. Plastic is a material consisting of any of a wide range of synthetic or semi-synthetic organics that are malleable and can be moulded into solid objects of diverse shapes. Due to their relatively low cost, ease of manufacture, versatility, and imperviousness to water, plastics are used in an enormous and expanding range of products. They displaced many traditional materials, such as wood, stone, horn and bone, leather, paper, metal, glass, and ceramic, in most of their former uses including jewellery. Parkesine is considered the first man-made plastic. The plastic material was patented by Alexander Parkes, In Birmingham, UK in 1856.The world's first fully synthetic plastic was bakelite, invented in New York in 1907 by Leo Baekeland who coined the term 'plastics'. After World War I, improvements in chemical technology led to an explosion in new forms of plastics, with mass production beginning in the 1940s during World War 11 due to shortages of silk and ivory.A plastic, tortoise shell pattern, lady's hair-comb in the mantilla style with diamante decoration.hair fashion, hairdressing, coiffure, plastic, personal effects, jewellery, moorabbin, bentleigh, cheltenham, early settlers, world war 1 1914-1918, world war 11 1939-1945, silk, ivory, bakelite,

A plastic, costume jewellery, fashion accessory for early 20th Century ladies Plastic is a material consisting of any of a wide range of synthetic or semi-synthetic organics that are malleable and can be moulded into solid objects of diverse shapes. Due to their relatively low cost, ease of manufacture, versatility, and imperviousness to water, plastics are used in an enormous and expanding range of products. They displaced many traditional materials, such as wood, stone, horn and bone, leather, paper, metal, glass, and ceramic, in most of their former uses including jewellery. Parkesine is considered the first man-made plastic. The plastic material was patented by Alexander Parkes, In Birmingham, UK in 1856.The world's first fully synthetic plastic was bakelite, invented in New York in 1907 by Leo Baekeland who coined the term 'plastics'. After World War I, improvements in chemical technology led to an explosion in new forms of plastics, with mass production beginning in the 1940s during World War 11 due to shortages of silk and ivory. A small, black plastic brooch with a verticle pin at back and diamante decoration .fashion, costume jewellery, personal effects, moorabbin, bentleigh, cheltenham, early settlers, jewellery, plastic

The Kerosene lamp was one of the most common oil lamps used and was manufactured until the 1980s. The Anchor Lamp design was used for marine purposes in the days of sailing ships when a ship at anchor or sailing in the dark was required to display a white light on the top of its main mast. The Anchor Lamp's top loop was for a rope to hoist it up the mast, and ropes through the two bottom loops to anchor it in place and prevent it from swaying. The light could be seen by ships up to 20 miles away due to the magnification of the Fresnel glass lens. This lamp in our collection has a design is similar to the early marine designs but its finish and materials resemble lamps made in the 20th century to represent the older ones. The etched "20" on its cover could represent the 20-mile distance the light could shine, and the "↑" Broad Arrows could represent a maritime navy ship. The lamp is an example of 19th and early 20th-century Anchor Lamps fueled by kerosene and used onboard ships when at anchor or sailing at night.Kerosene lamp; This Anchor Lamp design has a brass frame, a handle with a loop at the top, a rail around the base two opposing loops, and a kerosene burner and tank with ventilation holes around it. A clear glass Fresnel 360-degree lens covers the burner. It is an All Round design. The brand Anchor is inscribed on a plate fixed to its brass cover. An etched inscription on the cover includes the Broad Arrow symbol identifying government property.Engraved plaque: "Anchor" brand. Etched into the metal: "↑20↑"warrnambool, shipwreck coast, flagstaff hill, flagstaff hill maritime museum, flagstaff hill maritime village, kerosene lamp, lighting, ship light, anchor lamp, marine technology, marine lamp, 20 mile light, broad anchor, oil lamp, whale oil lamp, ↑

Slightly green clear glass bottle with a broken lip. There are a series of four vertical rows of circular indentations which diminish in size as they approach the neck of the bottle. No apparent labels or marks. Base size 7.6 cm in diameter, height 34 cm.food technology, bottling, soft drink bottle

Broken Green Glass Champagne Style Bottle. Neck of Bottle is Missing. An etched label surrounds the figure of a bird in the shape of an eagle. Above the eagle are the words ''H. Simpson Eaglehawk.'' Below the bird the label says ''BOTTLE NOT SOLD'' The diameter of the base of the bottle is aaproximately 8 cm and the height is approximately 20 cm.''H. Simpson Eaglehawk'' etched label contains eagle motiffood technology, bottling, soft drink bottle

Harper & Climas Bottle. Clear glass bottle with neck broken off and missing. Base is 8 cm in diameter. Height is 23 cm. A large amount of writing is moulded into the bottle along with a pictorial representation of a poppet head. The word ''Registered '' is superimposed on the poppet head. Written vertically on either side of the poppet head are the words ''HARPER CLIMAS'' and across the top and below the poppet head are the words ''This bottle is the property of the ALPINE BREWING & CORDIAL COMPANY BENDIGO. Any person using this bottle will be prosecuted.'' On the base of the bottle is a Capital M.''ALPINE BREWING & CORDIAL COMPANY BENDIGO'' ''HARPER CLIMAS'' ''REGISTERED'' ''M''food technology, bottling, cordial bottle

Blue castor oil bottle with thin neck screw top mouth. Moulded into the glass are the words ''GROVES McVITTY & Co. PTY LTD. CASTOR OIL''. A moulded stamp on the base of the bottle has the letters and numbers ''D661 GM.'' The base is 4 cm in diameter and the bottle is 20 cm high.''Groves McVitty & Co. Pty Ltd. Castor Oil'' ''D661 GM.''food technology, bottling, castor oil bottle

Small green glass bottle. No inscriptions.food technology, bottling, soft drink bottle

Oswald-Eaglehawk Very large Green Champagne Style Bottle With Champagne Cork In The Mouth And A Remanant Of Silver Foil Remaining. The Bottle Is Broken Below The Neck, But Held Together Via Cellotape. Diameter 14 cm x Height 44 cm. The Bottle Has Three Circular Paper Labels. Each Label Contains The Words ''Tonic Beer Manufactured By D. Oswald Eaglehawk.'' The Label Background Is Dark Blue With White Lettering.''Tonic Beer Manufactured by D. Osewald Eaglehawk''food technology, bottling, ginger beer bottle

Green Glass Champagne Bottle, Rubber Stopper Intact. Diameter 7 cm x Height 25 cm.food technology, bottling, champagne bottle

Green Glass Bottle. A rubber stopper has been pushed into the bottle. No label. The glass is fluorescing. BBC 4733 stamped into the base of the bottle. Diameter 4.5 cm x Height 22 cm.BBC 4733 Stamp On Basefood technology, bottling, soft drink bottle

Green Glass Bottle. The words ''WHITTAKER BROS.'' ''MAYBOROUGH'' and ''DUNOLLY'' are moulded into the bottle vertically. The bottle is showing fluorescence. Diameter 6cm x Height 22 cm.''WHITTAKER BROS.'' ''MARYBOROUGH'' ''DUNNOLLY''food technology, bottling, softdrink bottle?

Green Torpedo Glass Bottle. On one side are some words that appear to be ''O.R.M.E 'HAWK.' The bottle is the shape of a torpedo and is approximately 7 cm in diameter in the centre and 23 cm in length.''O.R.M.E 'Hawk'' 'R. Oswald'food technology, bottling, soft drink bottle

A Clear Glass Bottle With Smooth Mouth. Moulded Label ''Wm. WHITTAKER & SONS DUNOLLY On The Front. It also has a moulded coat of arms with a kangaroo and an emu on either side of a shield with a rising sun on the top. The bottle is approximately 6 cm in diameter and 22 cm high.''Wm. WHITTAKER & SONS DUNNOLLY''food technology, bottling, soft drink bottle

Green Glass Stoppered Bottle. With The Words ''Wm. WHITTAKER & SONS DUNOLLY Lemonade'' On The Front. A Capital ''M'' is on the Base. Diamter 5.5 cm x Height 21 cm.''Wm. WHITTAKER & SONS DUNNOLLY Lemonade'' ''M''food technology, bottling, soft drink bottle

Green Glass Stoppered Bottles. Slightly Chipped On The Lip. The Moulded Label ''J.G. SPAIN Kyneton & Woodend.Lemonade.'' J.G.S. On The Front On The Back of The Bottle Are The Words ''This bottle is the property of J.G. SPAIN and must be returned.'' A Capital S Is Moulded Into The Base.''J.G. SPAIN Kyneton & Woodend Lemonade'' ''J.G.S.'' ''S''food technology, bottling, soft drink bottle

Bruce & Sons Clear Glass Stoppered Bottle. Diameter 6 cm x Height 25cm. A Central Join Is Apparent Along Bottle's Length. On The Front of The Bottle Is A Moulded Label With The Words ''W. BRUCE & SONS, Registered B;B Trademark Lemonade Bendigo.'' On The Back of The Bottle Is The Moulded Statement ''This Bottle Cannot Be Sold Or Used By Any Other Person'' appears. On The Base of The Bottle is a Capital M.''W. BRUCE & SONS'' ''Trademark B.B.'' ''M''food technology, bottling, softdrink bottle

Green Bottle. Stencilled On The Glass Are The Words ''BRUCE & SONS, B - B, BENDIGO'' diameter 8.5 cm, x height 30 cm. Tonic Beer manufactured by D. Oswald, Eaglehawk.''BRUCE & SONS, B & B BENDIGO''food technology, bottling, soft drink bottle

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1967. Bendigo Institute of Technology, Engineering School, Applied Science. View from inside one of the rooms of the new building, room has a lot of the builders' tools in it, along with a broken pain of glass.Perutzeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1967. bendigo institute of technology, engineering school, applied science. view from inside one rooms new building, room has builders' tools broken pain glass.

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1967. Bendigo Institute of Technology, Engineering School, Applied Science. Construction underway, glass in windows, lots of debris on ground.Kodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1967. bendigo institute of technology, engineering school, applied science. construction windows debris