Victorian Institute of Occupational Safety and Health (VIOSH) Australia is the Asia-Pacific centre for teaching and research in occupational health and safety (OHS) and is known as one of Australia's leaders on the field. VIOSH has a global reputation for its innovative approach within the field of OHS management. VIOSH had its first intake of students in 1979. At that time the Institution was known as the Ballarat College of Advanced Education. In 1990 it became known as Ballarat University College, then in 1994 as University of Ballarat. It was 2014 that it became Federation University. VIOSH Australia students are safety managers, senior advisors and experienced OHS professionals. They come from all over Australia and industry. Students are taught active research and enquiry; rather than textbook learning and a one-size fits all approach. VIOSH accepts people into the Graduate Diploma of Occupational Hazard Management who have no undergraduate degree - on the basis of extensive work experience and knowledge. Book outlines the requirements to be considered - chemicals, conditions re ventilation, protective clothing such as respiratory devices, gloves and eye and face protectors. An understanding of the effects of various chemical solutions. A detailed Glossary of health and safety terms is included. Alternative options for solvents etc is also given. The importance of a safety hazard audit register for hazardous substances is detailed. Glued and cloth bound book of 161 pages. Cover light fawn with black print and binding.viosh, safety and health, victorian institute of occupational safety and health, art facilities, chemicals, ventilation, safety audits, hazardous chemicals and substances, protective clothing, bob hall

This is a test tube holder or rack and what are its uses? A test tube holder is used in a laboratory and it is used to hold/support test tubes containing chemicals waiting for further operations. Although it is called a test tube holder, it is also used to Read more: http://wiki.answers.com/Q/What_is_the_use_of_test_tube_holders#ixzz16ZofJVqDscientific experiments science laboritory chemicals minerals vaccines microbiology cultures medium solutions

The photographic developers were used to develop plates, films and lantern slides. They had to be mixed as per instructions on the bottles. These may have been used by an individual or by a local school or organisation.Wilma Davies, a long term resident of the Kiewa Valley, donated this photographic equipment.1 brownish/black cardboard box with hinged lid at top. Label is black, white & orange on front & across top of lid. This label continues down the sides and was a seal. The box contains: 3 clear glass cylinders with white markings used to measure 1 cc of liquid, showing 5cc and 10cc. Also: 1 brown glass, rectangular shaped bottle "Kodak Amidol" 1 ounce nett. It has a black plastic screw lid, a white label on 3 sides with black & orange print. Also: x2 round brown glass bottles with a sealed orange rubber(?) over tin(?) sealed (screw?) lids. Label "Johnson Colourform Developer "A" solution" all around with white label on the front and "Activol" and 'Caution' on the back all in black and orange print.Johnson Colourform Outfit on box. White marks showing 1cc on glass cylinders and 5cc and 10cc. "Kodak Amidol" etc. on 1 bottle "Johnson Colourform developer "A" Solution on 2 bottles.photographic equipment, photography, chemicals, processing equipment, johnson of hendon, kodak, colourform outfit, photo developer, wilma davies

Vince® is an oral rinse and dentifrice used to cleanse and refresh your gums. Vince is pleasantly flavoured and buffered for safe daily use. It releases oxygen – a helpful adjunct in promoting better oral hygiene for the mouth, teeth and gums. Vince also helps promote healing of the mouth and gums to relieve occasional soreness and irritation from dental appliances such as braces or dentures or mouth sores and wounds such as a split lip.. Ingredients : Sodium Alum, Calcium Carbonate, Sodium Perborate Monohydrate, Sodium Carbonate, Magnesium Trisillicate, Tricalcium Phosphate, Sodium Saccharin, Flavor, D&CRed#28. Lee Pharmaceuticals (Lee) incorporated in 1971 may have bought Vince Pty Ltd. It is a manufacturer of personal care and cosmetic products and is based in South El Monte, California. The Company’s portfolio of products includes aloe vera products, antacids, cosmetics and douche, cough and cold products, cough and cold products, baby care, laxatives, lip balm products, men's personal care, Monticello drug division, oral care, pain relievers, personal care, skin care, tobacco accessories, topical ointments and creams and vitamins and nutritional items. Vince may still be available from the Monticello Drug Division of Lee Pharmaceuticals Ltd Bocasan (British market name) and Amosan (U.S. market name) are oral rinse preparations that are similar to Vince they are now made by Oral-B Laboratories. A small green glass jar, with a screw top lid, containing 'VINCE' mouth hygiene solutionFront label : VINCE / Regd. Trade Mark / FOR/ MOUTH HYGIENE / EFFECTIVE / REFRESHING / COMPLEMENTARY TRIAL SIZE Back label : DIRECTIONS ................./ VINCE LABORATORIES / LTD / NEW YORK N.Y. SYDNEY N.S.W.toiletries, mouth wash, medications, chemicals, pharmacy, cheltenham, moorabbin, vince laboratories ltd., sydney, new york, early settlers

Potassium permanganate is an inorganic chemical compound with the chemical formula KMnO4. Formerly known as permanganate of potash or Condy's crystals, it is a strong oxidizing agent. It dissolves in water to give intensely pink or purple solutions, the evaporation of which leaves prismatic purplish-black glistening crystals. c1859 London chemist Henry Bollmann Condy had an interest in disinfectants; he found that fusing pyrolusite with sodium hydroxide (NaOH) and dissolving it in water produced a solution with disinfectant properties. He patented this solution, and marketed it as 'Condy's Fluid'. Although effective, the solution was not very stable. This was overcome by using potassium hydroxide (KOH) rather than NaOH. This was more stable, and had the advantage of easy conversion to the equally effective potassium permanganate crystals. This crystalline material was known as 'Condy's crystals' or 'Condy's powder'. Potassium permanganate was comparatively easy to manufacture.A brown glass bottle with a red plastic topped cork stopper for 'Tromax' , 'Purple Crystals' ie Permanganate of Potash , that was used as an antiseptic and disimfectant.TROMAX BRAND / PURPLE CRYSTALS/ or Permanganate of Potash / (Poisonous )/ For Household and Medicinal Uses / 2oz. / TROMAX / A PRODUCT OF/ SIGMA Co.Ltd. / MANF. CHEMISTS / MELBOURNE. Directions for Use are on back of bottlepharmacy, medicines, tromax, purple crystals, permaganate of potash, disinfectants, sigma co.ltd. melbourne, athritis, glassware, bottles, moorabbin, bentleigh, cheltenham

"Potassium permanganate is an inorganic chemical compound with the chemical formula KMnO4. It is a salt consisting of K+ and MnO−4 ions. Formerly known as permanganate of potash or Condy's crystals, it is a strong oxidizing agent. It dissolves in water to give intensely pink or purple solutions, the evaporation of which leaves prismatic purplish-black glistening crystals. (Which is what in contained in the bottle.) As an oxidant, potassium permanganate can act as an antiseptic. For example, dilute solutions are used to treat canker sores (ulcers), disinfectant for the hands and treatment for mild pompholyx, dermatitis, and fungal infections of the hands or feet. Potassium permanganate is used extensively in the water treatment industry. Historically it was used to disinfect drinking water. (From Wikipedia)" Eight sided, rectangular, clear glass bottle containing grey filings. It is closed with a cork, which is probably broken off. Label indicates Potassium Permanagate manufactured by Felton, Grimwade & Duerdins Ltd. "POTASSI PERMANGANATE."/"POISON"/"Felton Grimwade & Duerdins Ltd." on label on front. There are numbers in the glass on the bottom: "1608 M" and small difficult to read letters. deaf children australia,, chemical, antiseptic, potassium permanganate, water purifier, felton grimwade & duerdins ltd, bottle

Stirrer, used in Optical Glass work, Hartung & associates, 1941 Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).

(Sir) David Orme Masson was Professor of Chemistry at the University of Melbourne from 1886 to1923. As well as being a distinguished teacher and researcher, he contributed significantly to Australian scientific and public life, being instrumental in the establishment and governance of many important bodies including the CSIRO. Masson supported Antarctic research for 25 years, beginning with Douglas Mawson's expedition of 1911. Born in England and receiving an MA, BSc and DSc from the University of Edinburgh, he was a gifted, elegant and disciplined lecturer and a researcher of substance. His research work included the theory of solutions, from which emerged the term 'critical solution temperature'; the periodic classification of the elements; and the velocity of migration of ions in solutions. Much of his research was done in collaboration with talented students such as David Rivett and his own son Irvine Masson. Masson was knighted in 1923. He is commemorated by the Masson Theatre and Masson Road at the University of Melbourne; a mountain range and island in Antarctica; a portrait painting by William McInnes in the foyer of the School of Chemistry; the Masson lectureship from the Australian National Research Council; and the Masson memorial scholarship from the Royal Australian Chemical Institute.Set of rare gases in a box coming from Irvine Masson to his father.

An original Kerr-Grant Microbalance, modified by E.J.Hartung This balance was invented in the chemistry department by Bertram Dillon Steele, later first Professor of Chemistry at the University of Queensland 1910-1930, in collaboration with Professor Kerr Grant, Physics. The design was widely used by other chemists, including Masson's mentor, Professor Ramsay, working in London on newly discovered rare gases (especially Radon), and Professor Hartung in Melbourne, investigating the chemistry of the decomposition of silver salts in photographic processes. The principle of the microbalance was to measure the change in density of a gas by the shift in the balancing beam due to a change in pressure of the gas in the balance case. The quartz balancing beam was made by Bertram Steele who was particularly skilled in glassblowing. A quartz beam is the beam of the Aston microbalance based on the Steele/Grant instrument, and described by F.W. Aston, the inventor of the mass spectrometer. The bulb at one end of the beam contained a fixed amount of air, so that a change in the pressure of gas in the balance case changed the buoyancy of the beam, yielding a displacement in the beam which could be measured. By this means, differences in weight of about 10 nanogram could be measured, in amounts of up to 0.1 gram. Such differences are significant the increase in weight of a metal sample due to surface oxidation (Steele's interest) in the weight loss due to radioactive decay of Radium (Ramsay's work), and in the estimates of density change due to the isotopic distribution of Neon (Aston). Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).An original Kerr-Grant Microbalance, modified by E.J. Hartung.

Large dark wooden one fits the dish ordered by D.O.Masson shortly after arrival in Melbourne. (Sir) David Orme Masson was Professor of Chemistry at the University of Melbourne from 1886 to1923. As well as being a distinguished teacher and researcher, he contributed significantly to Australian scientific and public life, being instrumental in the establishment and governance of many important bodies including the CSIRO. Masson supported Antarctic research for 25 years, beginning with Douglas Mawson?s expedition of 1911. Born in England and receiving an MA, BSc and DSc from the University of Edinburgh, he was a gifted, elegant and disciplined lecturer and a researcher of substance. His research work included the theory of solutions, from which emerged the term ?critical solution temperature?; the periodic classification of the elements; and the velocity of migration of ions in solutions. Much of his research was done in collaboration with talented students such as David Rivett and his own son Irvine Masson. Masson was knighted in 1923. He is commemorated by the Masson Theatre and Masson Road at the University of Melbourne; a mountain range and island in Antarctica; a portrait painting by William McInnes in the foyer of the School of Chemistry; the Masson lectureship from the Australian National Research Council; and the Masson memorial scholarship from the Royal Australian Chemical Institute.Wooden containers (formers)

Stages in development of optical glass. Very early experiments by E.J. Hartung. Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).Optical glass

Large horseshoe magnet, given to young E.J. Hartung. by an uncle. Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).Horseshoe Magnet �

Ernst Johannes Hartung was a chemist and astronomer. Educated at the University of Melbourne (BSc 1913, DSc 1919), he became lecturer in 1919, associate professor in 1924, and succeeded Rivett as chair of chemistry in 1928, remaining in this position until 1953. Hartung?s lecturing style surged with enthusiasm and he employed the use of screen projections to demonstrate chemical phenomena to large undergraduate classes. In 1935 he recorded Brownian movement in colloidal solutions on 35 mm cinefilm, which was later copied onto 16 mm film for the Eastman Kodak Co. World Science Library. This can be viewed in the Chemistry laboratory. He researched the photo decomposition of silver halides, and was awarded the David Syme Prize in 1926. He devoted time to the design and construction of a large, new chemistry building for the School of Chemistry (built 1938?1939). During World War II he was approached by Professor Thomas Laby, chairman of the Optical Munitions Panel, to chair the advisory committee on optical materials, to produce high quality optical glass in Australia. This was successful, with large-scale production achieved within ten months at a reasonable cost. Hartung served three terms as general President of the (Royal) Australian Chemical Institute, was an ex-officio councillor of the Council for Scientific and Industrial Research, and a Trustee of the Museum of Applied Science (now part of Museum Victoria).Set of analytic weights, used by E.J.H. in most of his work

(Sir) David Orme Masson was Professor of Chemistry at the University of Melbourne from 1886 to1923. As well as being a distinguished teacher and researcher, he contributed significantly to Australian scientific and public life, being instrumental in the establishment and governance of many important bodies including the CSIRO. Masson supported Antarctic research for 25 years, beginning with Douglas Mawson?s expedition of 1911. Born in England and receiving an MA, BSc and DSc from the University of Edinburgh, he was a gifted, elegant and disciplined lecturer and a researcher of substance. His research work included the theory of solutions, from which emerged the term ?critical solution temperature?; the periodic classification of the elements; and the velocity of migration of ions in solutions. Much of his research was done in collaboration with talented students such as David Rivett and his own son Irvine Masson. Masson was knighted in 1923. He is commemorated by the Masson Theatre and Masson Road at the University of Melbourne; a mountain range and island in Antarctica; a portrait painting by William McInnes in the foyer of the School of Chemistry; the Masson lectureship from the Australian National Research Council; and the Masson memorial scholarship from the Royal Australian Chemical Institute.8 samples in bottles of the type used in Masson's work on methyl,etc,sulphides, See152

Born in Ireland, John Drummond Kirkland trained as a chemical analyst through apprenticeship in a medical laboratory in Dublin, before migrating to Australia in 1852 and moving to Melbourne in 1855. While still an undergraduate medical student at the University of Melbourne, he was appointed lecturer in chemistry following the sudden death of John Macadam in 1865. Due to the enthusiastic support of his fellow students this temporary role became a permanent appointment the following year. Kirkland continued his studies, graduating in medicine in 1873 and surgery in 1880. His son, John Booth Kirkland, was appointed as his assistant in 1878, later leading to accusations of nepotism. In 1882 John Drummond Kirkland became the University?s first professor of chemistry and metallurgy, continuing until his death in 1885. Today?s researchers use a high performance computing facility named ?Kirkland? after the first Professor of Chemistry at the University of Melbourne. Chemistry was still controlled by the medical school during Kirkland?s career, but became part of the science degree from 1886, along with the appointment of David Orme Masson as professor. Kirkland struggled for University funding to buy new apparatus. To compensate, he bought much from his own personal funds, including analytical chemistry equipment. Chemistry was first taught at Melbourne in the medical school, located in the area now occupied by Physics and the Ian Potter Museum of Art. (Sir) David Orme Masson was Professor of Chemistry at the University of Melbourne from 1886 to1923. As well as being a distinguished teacher and researcher, he contributed significantly to Australian scientific and public life, being instrumental in the establishment and governance of many important bodies including the CSIRO. Masson supported Antarctic research for 25 years, beginning with Douglas Mawson?s expedition of 1911. Born in England and receiving an MA, BSc and DSc from the University of Edinburgh, he was a gifted, elegant and disciplined lecturer and a researcher of substance. His research work included the theory of solutions, from which emerged the term ?critical solution temperature?; the periodic classification of the elements; and the velocity of migration of ions in solutions. Much of his research was done in collaboration with talented students such as David Rivett and his own son Irvine Masson. Masson was knighted in 1923. He is commemorated by the Masson Theatre and Masson Road at the University of Melbourne; a mountain range and island in Antarctica; a portrait painting by William McInnes in the foyer of the School of Chemistry; the Masson lectureship from the Australian National Research Council; and the Masson memorial scholarship from the Royal Australian Chemical Institute.Stocks used in the Blackie - Masson - J.B.Kirkland work.

The original house was built around 1850 was one of Kangaroo Ground's earliest homes, part of which remains today. Built by Scottish farmer Andrew Harkness who acquired the property in 1849 at the top of the hill with magnificent panoramic views as far as Kinglake, the same year he married Sarah Oswin. The property was known as Garden Hill from at least 1865. Andrew and Sarah had four sons and five daughters. Harkness was a founder of the Kangaroo Ground School and one of the first to suggest establishing the Eltham District Road Board (1858-71) of which he was a member, the pre-cursor to the Shire of Eltham (1871-1994). He was also a Trustee of the Kangaroo Ground Cemetery. His daughter Fanny married farmer Alexander White who purchased the property in 1893. Alexander White died in 1906 and ownership transferred to Fanny White. Son, Robert White was a Councillor of the Shire of Eltham at the time the Shire acquired two acres of land on the adjacent property from the Mess brothers for the creation of the Shire of Eltham Memorial Park (1921) in which the Shire of Eltham War Memoirial tower was erected (1926). Fanny White donated a small section of land from the Garden Hill property to facilitate entry access to the park. The White family sold the property to Sir Herbert Gepp in 1925. Covered under Heritage Overlay, Nillumbik Planning Scheme. Published: Nillumbik Now and Then /​ Marguerite Marshall 2008; photographs Alan King with Marguerite Marshall.; p29 Garden Hill, on Yarra Glen Road, Kangaroo Ground, near the War Memorial is well named. The old house and gardens overlook a magnificent panorama extending to Kinglake. The original house, built around 1850, was one of Kangaroo Ground’s earliest, and part of it remains in today’s timber house. The house was built by the early and prominent settler Andrew Harkness. Later it was occupied for a long time by Sir Herbert Gepp, renowned Australia wide.1 Harkness and Gepp are buried in the Kangaroo Ground Cemetery. Scottish farmer Harkness, who was born in 1817, acquired this property in 18492 and he and his family occupied it until the early 1920s. Harkness cleared its 152 acres (61.4 ha), fenced it and grazed sheep and cattle. Harkness proved a valuable community member. When only ten families lived in the district, he and other settlers set up a school in 1852, with Andrew Ross as the first teacher. Harkness was also one of the first to suggest establishing the Eltham District Road Board, of which he was a member for around 15 years. He was also a trustee of the Kangaroo Ground Cemetery. Harkness married in 1854 and had four sons and five daughters. The first part of the timber house he built included a kitchen-living room and a parlor. The living room’s large fireplace was bricked-in and modernised in 1940. Beside it is the old baker’s oven with its original iron door replaced by a wooden one. It is thought two wattle-and-daub huts, used for a bedroom and bathroom, were built to the west. Harkness’ son-in-law, farmer Alexander White, who had seven sons, bought the property in 1893. Harkness’ grand-daughter Flora married Ewen Cameron who became Minister for Health and was later knighted; he was not related to Ewen Hugh Cameron, a Member of the Legislative Assembly. In 1923 the White family sold the property, called Kilby Park, to Sir Herbert Gepp, who renamed it Garden Hill. Gepp used the property, which was still on the original New South Wales title, as a hobby farm. Robert White stayed on to manage the farm for a while, living in a house on the property. Gepp was born in 1877 and at 16 years began working as a junior chemist with the Australian Explosives and Chemical Company at Deer Park near Melbourne. Gepp was a pioneer in applying enlightened labour policies in industry. He initiated the Broken Hill Progress Association, to improve living conditions. It laid the ground work for the welfare schemes pursued by companies after World War One. During the mid 20th century Gepp was the most prominent liberal thinker associated with conservative politics. As a friend of Prime Minister John Curtin, he contributed to post-war reconstruction. Gepp returned to private industry and retired in 1950. Gepp made significant contributions to the solution of the great metallurgical problems of the mining industry. He was an advocate of the role of science in industry, government and the economy and helped to establish several organizations including the CSIR and the Institute of Public Affairs.3 After Sir Herbert died in 1954 his son Orwell continued to farm the property part-time. When Lady Gepp died in 1963, the land was divided among the five children, although Orwell continued to farm it as a hobby. In 1966, a daughter, Mardi Gething, now married, settled in the house. Another daughter, Kathleen, built her house close by on the property. After the Board of Works designated the property as part of a reserve for a possible reservoir, the family sold all, except the minimum 20 acres allowed, to the Board in the 1970s. Orwell then leased what was the family property from the Board to continue grazing. The two sisters and brother continued to live on the property.This collection of almost 130 photos about places and people within the Shire of Nillumbik, an urban and rural municipality in Melbourne's north, contributes to an understanding of the history of the Shire. Published in 2008 immediately prior to the Black Saturday bushfires of February 7, 2009, it documents sites that were impacted, and in some cases destroyed by the fires. It includes photographs taken especially for the publication, creating a unique time capsule representing the Shire in the early 21st century. It remains the most recent comprehenesive publication devoted to the Shire's history connecting local residents to the past. nillumbik now and then (marshall-king) collection, kangaroo ground

Excavated from the back yard of Linton & District Historical Society's resource centre in October 2001.Square, green glass jar with pouring lip. The jar formed part of an early type of electric battery. The battery cell consisted of a jar which held carbon and zinc plates, standing in a solution of ammonium chloride. The chemical reaction between the plates and the solution produced a small electrical charge. This type of battery was used where only a small charge was required, for example in telegraphy, also to operate doorbells etc.In raised glass on side of jar: "PILE" and "Leclanche Indiarubber Co Silvertown".batteries, battery cell jars, electricity generation, leclanche [company]

Three typed carbon copies of Solution 'A' and Solution 'B'. Both solutions have the name of the substance, the number of grains per gallon of water and their chemical formula. To each gallon of 'A' add one teaspoonful of 'B'.sciences, bill ashman collection - correspondence

TROVE : Cairns Post (Qld. : 1909 - 1954) Wednesday 28 October 1925 p 4 Article Lotol for Australians. The Mercury Chemical Co. Pty. Ltd. manufacturers of Lotol which is keeping so many Australian homes free of insects, advertised on Monday and Tuesday, that they would present £1 to the sender of the first letter opened at 4 p.m. on Tuesday containing the correct solution of certain jumbled words.The correct solution was "Sydney Australia," therefore Lotol is made in Australia for Australians, ' and the £1 offered has been won by Lucy Wilesmith, McLeod-street , Cairns. Mr. L. A. Drewe is the Queensland representative of the manufacturers, and conducted this competition on their behalf.Round clear amber glass bottle for screw top. Embossed text near neck, diamond pattern on side with text near heel of bottle.Near neck ' POISON', 'NOT TO BE TAKEN'. Panel of diamond pattern below text. Near heel at base 'THIS BOTTLE ALWAYS REMAINS THE PROPERTY OF MERCURY CHEMICAL CO. PTY LTD'. On base ' A G M ', '1', 'S100'.amber glass, chemical, poison, vermicide, australian made