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Melbourne Legacy
Slide, Annual Demonstration 1960, 1960
Colour slides of a demonstration at the Olympic Swimming Pool stadium in 1960. The first appears to be the finale with Australian flags. Other routines include a Dutch scene with windmills, a toy solider marching parade with a sleigh and with one with the girls holding pink balls (catalogued separately). Throughout the year Melbourne Legacy provided classes for Junior Legatees such as dancing, gymnastics and eurythmics. The Demonstration was an annual event to showcase their skills. Melbourne Legacy conducted Annual Demonstrations / Parades from 1928 through to 1979. Was with many other slides taken in the 1950s and 1960s. The slides have been photographed to make digital images and moved to archive quality sleeves. In many cases the original images were not well focussed and the digital image is the best available.A record of different routines in an Annual Demonstration at the Olympic Swimming Pool stadium.Colour slides x 9 of a Demonstration at Olympic Swimming Pool, in a cardboard mount.Handwritten on front 'Demo 1960' in blue pen and some have numbers.annual demonstration, marching, girls classes -
Tatura Irrigation & Wartime Camps Museum
Bath - Dolls, 1940's
... toys ...Made by internee and used by children at Camp 3Tin doll's bath. Painted brown outside with black around the base. Cream inside. Slightly shaped at one endbath - dolls, wied, l, camp 3, tatura, ww2, toys, doll, furniture -
Tatura Irrigation & Wartime Camps Museum
Accessory - Doll's tea pot warmer, 1940's
... toys ...Used by Internees at Camp 3Red and white crocheted tea warmer. Red and white pompomtea warmer, colls, camp 3, tatura, ww2 camp 3, toys, doll, accessory, volker bulach -
Tatura Irrigation & Wartime Camps Museum
Accessory - Dolls tea pot warmer, 1940's
... toys ...Used by Internee at Camp 3Knitted blue and white striped woollen tea warmer, gathered at top with blue crocheted edgetea warmer, dolls, v, tatura, ww2 camp 3, toys, doll, accessory, volker bulach -
Tatura Irrigation & Wartime Camps Museum
Jigsaw - childs, 1940's
... toys ...Made by internee at Camp 3, Tatura. Picture was glued onto plywood, then cut out in an intricate non repeating pattern forming jigsaw piecesChild's jigsaw puzzle with corrugated card backing and plastic cover. Wooden pieces coloured picture featuring hen and chicks eating slices of bread. Loaf on centre of table topEthel ?jigsaw, hornung g, frank g, frank r, camp 3, tatura, ww2, toys, general -
Tatura Irrigation & Wartime Camps Museum
Jigsaw - childs, 1940's
... toys ...Made by internee at Camp 3, Tatura. Picture was glued onto plywood, then cut out in an intricate non-repeating pattern forming the jigsaw piecesChild's jigsaw puzzle with corrugated card backing and plastic cover. Wooden pieces, coloured picture featuring a pig, cat, mouse and hen in human clothing.Ethel ?jigsaw, wood, hornung g, frank r, camp 3, tatura, ww2 camp 3, toys, general -
Tatura Irrigation & Wartime Camps Museum
Hobby Horse, 1940's
... toys ...Used by internee at Camp 3Wooden hobby horse with mane made from twinehobby horse, wied k, bissinger g, camp3, tatura, ww2, camp 3, toys, general -
Tatura Irrigation & Wartime Camps Museum
Cupboard, Dolls, 1940's
... toys ...Made in Camp 3. The door knobs and 'legs' are part of the little figures (men) used as counters in board games like "Mensch argere dich night"Handmade wooden doll's cupboard with shelves creating 4 sections, small brass hinges on double doors, knob on each door. The cupboard stands on 4 small knobs, one in each corner, outside is varnished.cupboard - dolls, koenig a, uhlherr h, camp 3, tatura, ww 2 camp 3, toys, dolls, furniture -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Leisure object - Doll, boy in blue knitted suit, 20thC
... toys ...When celluloid was invented and first came to prominence in the 1870s, dolls were nearly all breakable and fragile--bisque and china dolls were easily shattered and papier mache and wax easily ruined. So doll companies started experimenting with celluloid to mould dolls. By the early 1900s, celluloid dolls were plentiful, since celluloid was easily moulded and generally inexpensive. Celluloid is one of the first synthetic plastics. It is a plastic created from wood products that includes cellulose nitrate and camphor. However Celluloid is flammable and deteriorates easily if exposed to moisture, and can be prone to cracking and yellowing with certain formulations. Celluloid dolls were produced as late as the 1950s, but the vast majority were produced from 1900 through the 1940s. The knitted outfit was made by an unrecorded home knitter probably as a present for a child. A very small celluloid doll dressed as a boy in fine hand -knitted hat, vest, jacket and pants.celluloid, dolls, knitting, wool, craftwork, moorabbin, bentleigh, cheltenham, toys -
Tatura Irrigation & Wartime Camps Museum
Decorative object - Cutout - Wooden, Gold Stars "Sternthaler"
... Toys ...Else Oertel and her daughter Else-Lore were interned in Camp 3A from 1940. Her husband was not interned as he was on a business trip to Germany when war broke out. camp 3, internees, camp 3 german internees, toys, children's toys, wall hanging, else lore hukins, else oertel, handmade -
Flagstaff Hill Maritime Museum and Village
Leisure object - Doll, Reliable Toy Company Ltd, 1930s to 1940s
This dressed doll was owned by the daughter of Dr William Roy Angus and his wife Gladys when the family came to Warrnambool in the late 1930s. It is part of the W.R. Angus collection, donated by the family of Dr W R Angus, surgeon and oculist. The doll was donated with another dress and a blanket. The doll has features similar to, but an earlier model than, Reliable's 1940s model Cuddlekins doll, which has an entirely composite body. ReliableToy Company was founded in Toronto, Canada, by Solomon Samuels in 1920. Samuels was later joined by his two brothers. The company had a reputation for products of good quality. In 1922 the company began making their own dolls from composition, where previously the parts were made elsewhere and assembled by Reliable. The company stopped making Reliable dolls in 1995. The W R Angus Collection spans from 1885 to the mid-1900s and includes historical medical and surgical equipment and instruments from the doctors Edward and Thomas Ryan of Nhill, Victoria. Dr Angus married Gladys in 1927 at Ballarat, the nearest big city to Nhill where he began as a Medical Assistant. He was also Acting House surgeon at the Nhill hospital where their two daughters were born. Dr Angus and his family moved to Warrnambool in 1939, where Dr Angus operated his own medical practice. He later added the part-time Port Medical Officer responsibility and was the last person appointed to that position. Dr Angus and his wife were very involved in the local community, including the planning stages of the new Flagstaff Hill and the layout of the gardens there. Dr Angus passed away in March 1970.This doll is connected to the history of Warrnambool, as it was owned by the daughter of Dr W. R. Angus and his wife Gladys, and is part of the W.R. Angus Collection, which is important for still being located at the site connected to Doctor Angus, Warrnambool’s last Port Medical Officer. Dr Angus and his wife brought their young family to Warrnambool in 1939 and he remained a resident until his death in 1970. Early in his profession in the town of Nhill, Dr Angus assisted Dr Tom Ryan in his pioneering use of X-rays and in ocular surgery, and Dr Angus later inherited these items. The W.R. Angus Collection includes these medical instruments and other related equipment and is culturally and historically significant as an example of the medical practice of the late 19th to the mid-20th century. Other items in the collection relate to Dr Angus’ service in the Flying Doctor Service and the Army. The doll is also significant as an example of toys imported into Australia in the 1930s and 1940s and used by children in the Warrnambool community.Doll with moulded composition head, neck, arms and legs, all attached to a fabric body. The doll’s head has brown moulded curls. The facial features include an open mouth showing two top teeth, green eyes, and sleeping, closing eyelids with eyelashes. The doll has a crier inside that makes a sound when the doll is turned over. It is clothed in a knitted pink singlet, modern pink underwear, and a cream flannel short-sleeved dress with pink smocking and embroidery, and ties at the rear. There is a moulded inscription on the back of the doll’s head. The doll was made by Reliable Toy Company Ltd, Canada. The doll is part of the W.R. Angus Collection.On the back of the head “RELIABLE / CANADA”flagstaff hill, warrnambool, maritime village, maritime museum, shipwreck coast, great ocean road, dr w r angus, dr roy angus, dr ryan, warrnambool oculist, port medical officer, mira hospital nhill, toy, nhill hospital, doll, baby doll, composition doll, reliable toy company, canada, solomon samuels, child's toy, w.r. angus collection -
Bendigo Historical Society Inc.
Document - Y.M.C.A., Y'S WORKBOX, DISPLAY & DEMONSTRATION OF HAND CRAFTS, 27 October 1985
Event, Bendigo Y.M.C.A., Y's Workbox, Display & Demonstration of Hand Crafts, at The Y.M.C.A. Stadium, Mundy Street, Bendigo, Sunday October 27, 1985, 10am - 5pm. Admission: Adults $2.00 , Children 50c, Devonshire Teas $1.20. Crafts include: Plate Decorations, Wood Carving, Tatting, Bonsai, Filet Crochet, Patchwork, Jigsaws, Model Ships in Bottles, Knitting from Fleece, Soft Toys, Silversmithing, Christmas Decorations, Floral Art, Wood Turning, Pickled People, Padded Baskets, Machine Embroidery, Applique, Knitting, Overlocking, Latchhook Rugs, Make-Up (TV & Films), Bobbin Lace, Printing, Golden North Centre.event, exhibition, bendigo y.m.c.a. -
Bendigo Historical Society Inc.
Document - THE SMETANA QUARTET, CITY HALL, BENDIGO, 19 Oct, 1962
a & b The Smetana Quartet, City Hall, Bendigo. The Music Advancement Society of Bendigo presents the Fifth Concert 1962 series. By arrangement with Music Viva Society of Australia. Friday, 19th October, 1962 at 8.15 pm. President L R Harvey. Joint Hon. Secs. Madge Edgar, Elsie Flanagan. Programme One Shilling. Programme. Advertisements: George Logie Smith Lecture _ Art Gallery16th November at 8 pm. Annual Meeting Committee Room City Hall, 28th November 8 pm., All subscribers welcome. Allan's, Celebrity Recordings. Hesse Bros. Electrical Sales Pty Ltd., Television. Edgar's Toy Shop, Authorised Newsagency.Boltons, Print., Bendigoprogram, music, music advancement society bendigo, smetana quartet, city hall, bendigo. music advancement society of bendigo presents the fifth concert 1962 series.music viva society of australia. friday, 19 october, 1962, 8.15 pm. president l r harvey. joint hon. secs. madge edgar, elsie flanagan.. advertisements: george logie smith lecture _ art gallery16 november at 8 pm. annual meeting committee room city hall, 28 november 8 pm., allan's. hesse bros. electrical sales television. edgar's toy shop, newsagency. -
Bendigo Historical Society Inc.
Document - NEW SYDNEY WOODWIND QUINTET, CITY HALL, 6 June, 1973
New Sydney Woodwind Quintet, city Hall, Bendigo. Wednesday, 6th June, at 8.15 p.m. The Music Advancement Society of Bendigo 2nd Concert, 1973 Series Presenting by arrangement with Musica Viva Australia. Neville Amadio; flute, Guy Henderson; oboe, Donald Westlake; clarinet, John Cran; bassoon, Clarence Mellor; french horn. The artists appear by curtesy ABC. President: R N Levy, Hon. Secretary: E Beilharz. Programme. Advertising: Powney's Toy Shop, Powney's Authorised Newsagency, Musina House (Organs, Sewing Machines, Knitting Machine), Bendigo Pottery (has now become a major tourist attraction, Tour Times).Bolton Bros. Pty. Ltd.musical instruments, wind, music advancement society bendigo, new sydney woodwind quintet, city hall, bendigo. wednesday, 6th june, at 8.15 p.m. the music advancement society of bendigo 2nd concert, 1973 series presenting by arrangement with musica viva australia. neville amadio; flute, guy henderson; oboe, donald westlake; clarinet, john cran; bassoon, clarence mellor; french horn. artists appear by curtesy abc. president: r n levy, hon. secretary: e beilharz. programme. advertising: powney's toy shop, powney's authorised newsagency, musina house bendigo pottery -
St Kilda Historical Society
Ephemera - Ticket, Picnic to Park Orchards, 1936
Ticket to picnic at Park Orchards on 21 December 1936, organised by the St Kilda Unemployed Organisation with the support of the St Kilda City Council, Mayor (Cr Alfred Levy), Archie Michaelis MLA, and 'other well-known gentlemen'. The ticket appears to have been perforated to allow vouchers, printed on the back (for bus, dinner, toys, stockings, ice cream and tea) to be separated and used. Park Orchards is a residential suburb 23km north east of Melbourne that was created in 1925 on land used for orchards when timber merchants Australis Sharp and John Taylor launched the Park Orchards Country Club estate. Buyers were not attracted to the estate, and for many years all that existed were a clubhouse and various sporting facilities. It gained popularity when demand for housing surged in the 1950s.Grey/green coloured card, printed in blue on both sides and with 5 evenly spaced lines of perforations across the width.st kilda unemployed organisation, st kilda council -
Vision Australia
Poster - Image, RVIB Enterprises sign
Undated cardboard hand-made sign listing the variety of products made by RVIB workers available for purchase at the show. Given the taped over word before 'show' this sign was most likely utilised across a number of shows (Melbourne and regional).Digital image of sign displayed for RVIB EnterprisesRVIB Enterprises Quality Products Made By Workers of the Royal Victorian Institute for the Blind Industrial Division. Show Special Prices On. Baby Gates Tissue Box Covers Door Stops Pot Plant Stands Folding Tables Ludo Mops Chopping Boards Hat Boxes Bread Boards Dominoes Solitaire Toy Boxes Jarrah Outdoor Settings Tapestry Frames Hookey Boards Treated Pine Out Door Settings Chinese Checkers Wall & Mantle Clocks Building Blocks Tapestry Frame Standsroyal victorian institute for the blind, signs -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
... toys ...Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
... toys ...Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
... toys ...Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone vertebrae. Advanced stage of calcification as indicated by deep pitting. Off white to grey.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
... toys ...Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
... toys ...Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070. Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone vertebrae. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Tatura Irrigation & Wartime Camps Museum
Carved Wooden Toy, 1940's
... toys ...Made by Internee in Camp 3Small boy dressed in blue and small girl dressed in pale blue sitting in a moon shape which is painted yellowtoy, carved, wooden, camp 3, tatura, ww2 camp 3, handcrafts, woodcarving, toys, general -
Tatura Irrigation & Wartime Camps Museum
Leisure object - Board Game, Stuka. Das Packende Kampffliegerspiel, 1940's
... toys ..."Stuka" game sent by German Red Cross to children interned in Camp 3Children's board game. Board numbered 1 - 88. 1 blue, 1 yellow, 1 purple, 1 black, 1 green, 1 red counter. Each counter has an aeroplane imprinted in silver. Box to hold packaged game red in colour with rectangle picture depicting 8 planes over a bombing site "Stuka das Packende Kampffliegerspiel" with cardboard insert.children, board game, german red cross, drescher, camp 3, tatura, ww2 war camp 3, toys, games, stuka -
Tatura Irrigation & Wartime Camps Museum
Article - Model - cart, Childs Pull Along Toy, 1940's
... toys ...Made by internee at Camp 3, Tatura and used there by childrenHandmade large wooden model of a cartor dray, painted brown and green. Has metal axle type arrangement under front wheels with attachment for horse model. 2 x removable panels front and backcart, beck k, camp 3, tatura, ww2 camp 3, toys, general, handcrafts, wood, carving -
Tatura Irrigation & Wartime Camps Museum
Leisure object - Dolls Furniture, 1940's
... toys ...Made in Camp 3 by Mr. Alfons Koenig. Little presents such as these were made by POW's and supplied through the Red Cross presumably.9 parts of handmade furniture, handpainted, mainly floral designs in colours - red, blue, yellow, green and white. All parts fit together into a small packagefurniture, dolls, koenig a, uhlherr h, red cross, camp 3, tatura, ww2 camp 3, toys, doll -
Orbost & District Historical Society
household items, 1935-1960s
These items are from the estate of Norma Adelaide Scott (nee Johnston) ,January 2, 1925 - May 18, 2018 (93 years old) who died in Orbost. Norma was part of the Morris family who came to Newmerella in 1888, had land on Grandview Road and on the flats. Mr Morris had been a school teacher at Lake Tyers Mission before coming to Orbost. "Bobs y’r Uncle" was a nursery rhyme game designed by Frank H. Simpson for John Waddington Ltd. in 1935. The game was especially designed for children. The cards had scenes from nursery rhymes and six cards were needed to make up each rhyme in a set. Games turned out to become an important part in the progress of Waddingtons, who eventually acquired the rights to Monopoly in the UK, and then published Cluedo, opening the way for their supremacy in the toy industry These items are examples of common household items used in an Orbost family in the first - mid 20th century.3228.1 is a wooden tray with handles. The tray is lacquered and hand - painted with green leaves and orange flowers. 3228.2 is a brush with a curved wooden handle, lacquered and decorated in a similar pattern of green leaves and flowers. 3228.3 is a small wooden tray, lacquered and hand -painted with green leaves and yellow flowers. It is a rectangular shape with raised edging attached on the four sides. 3229.4 is a pack of cards in a red box with a cartoon type drawing of a man wearing a checked coat and hat holding two dogs on leashes.3228.5 is an orange / white cardboard box containing a pair of nylon stockings: box labelled " 'KOLOTEX/ Free-n-eezy" stockings.3228,5 - in orange and white print - "KOLOTEX/ Free-n-eezy/ Clings/ 40 denier/ SEAMLESS/ S-T-R-E-T-C-H" and in black - "NEW guaranteed never to ladder"scott-norma cards-playing hosiery-kolotex-stockings trays-wooden household -
Robin Boyd Foundation
Document - Script, Robin Boyd, Ginger Meggs Pilot Episode, 1963
Ginger Meggs, Australia's most popular and longest-running comic strip, was created in the early 1920s by Jimmy Bancks. The strip (based on Strip No. 589) follows the escapades of a red-haired prepubescent mischief-maker who lives in an inner suburban working-class household. This story follows characters Ginger and Mim, and their attempt to find and get an apology from new kid, Osmo Willis who plays a prank with a toy mouse on Mim. Ginger goes to Osmo's house to get an apology from him to Mim, but instead Osmo invites Ginger to his birthday party. Ginger then takes Osmo to buy ice-cream. Ginger in the end, gets caught out in his lie to Mim, that he couldn't find Osmo. Min finds out and scolds Ginger for being deceitful. "If only you were half a gentleman..." she says.Crawford Productions and Robin Boyd also explored ideas for other television productions, besides the successful 'The Flying Dogtor" series.Typewritten, carbon copy, foolscap, 3 pagesHandwritten side notes by Robin Boyd in pencil.ginger meggs, cartoon strip, jimmy bancks, robin boyd, crawford productions -
Melbourne Legacy
Photograph, Annual Demonstration 1954, 1954
A photo of the Annual demonstration from October 1954. This photo shows the dancers around a Christmas tree. The costumes include ballerinas, golliwogs, tin soldiers, fairies and elaborate dresses. Also frogs or lizards, sugar plum fairies, rabbits, cossack dancers and cats or foxes. A similar routine was performed in 1952 as described in a newsletter. It mentions the routine as 'Toy makers dream' and had golliwogs and soldiers and Father Christmas. Throughout the year Melbourne Legacy provided classes for Junior Legatees such as dancing, gymnastics and Eurythmics. The Demonstration was an annual event to showcase their skills. Melbourne Legacy conducted Annual Demonstrations / Parades from 1928 through to the 1980's, usually held at Melbourne Town Hall or Olympic Pool Stadium. The beautiful costumes were made by members of the Junior Legacy Mothers' Club and the Melbourne Legacy Wives' Association.A record of the displays at the Annual Demonstrations. Also that Legacy provided classes for junior legatees and the skills learned were displayed in the Annual Demonstration.Black and white photo of a Christmas scene during the demonstration from 1954. junior legatees, demonstration, annual demonstration, girls classes -
Flagstaff Hill Maritime Museum and Village
Tool - Pliers, Early 20th Century
In 1887 the long established steel toy business of Richard Timmins and Sons of Pershore Street Birmingham was sold to W C Wynn & sons, of Commercial Street Birmingham. They proceeded to extend their works and eventually concentrated on the amalgamation of both businesses under the name of Wynn and Timmins at the one address in Commercial Street. In 1892 they were incorporated as a Limited Company and by 1914 were known as the manufacturers of hand tools for all trades, iron and steel stampers, die sinker, and in the process of press working in sheet and metal for various items. The company around this time employed 200 people and the directors of the company in 1914 were W. H. Wynn, H. S. Wynn, W. L. Wynn. In 1929 they were producing tools under the heart brand until in 1969 the company was taken over by Balfour and Darwins of Sheffield, and the manufacturing facility in Birmingham was closed.An early manufacture of tradesman's tools, from 1900 into the late 1960s the company was a major suppler of tools to various industries and pioneered a number of improvements for individual hand tools for specific industries.Steel snub nosed pliers designed for a specific use unidentified at this time."WYNN & TIMMINS" stamped into the steel handle tools, pliers, metal pliers, wynn & timmins, birmingham manufacturer, tool manufacturer, richard timmins, sheet metal manufactures -
Flagstaff Hill Maritime Museum and Village
Rubber ball, 19th century
... toys ...This rubber ball was part of the cargo from the Fiji and amongst the articles salvaged from the wreck. A press report notes that the balls collected from the Fiji’s cargo were originally red and white. The three-masted iron barque Fiji had been built in Belfast, Ireland, in 1875 by Harland and Wolfe for a Liverpool based shipping company. The ship departed Hamburg on 22nd May 1891 bound for Melbourne, under the command of Captain William Vickers with a crew of 25. The ship’s manifest shows that she was loaded with a cargo of 260 cases of dynamite, pig iron, steel goods, spirits (whisky, schnapps, gin, brandy), sailcloth, tobacco, coiled fencing wire, concrete, 400 German pianos (Sweet Hapsburg), concertinas and other musical instruments, artists supplies including brushes, porcelain, furniture, china, and general cargo including candles. There were also toys in anticipation for Christmas, including wooden rocking horses, miniature ships, dolls with china limbs and rubber balls. On September 5th, one hundred days out from Hamburg in squally and boisterous south west winds the Cape Otway light was sighted on a bearing differing from Captain Vickers’ calculation of his position. At about 2:30am, Sunday 6th September 1891 land was reported 4-5 miles off the port bow. The captain tried to put the ship on the other tack, but she would not respond. He then tried to turn her the other way but just as the manoeuvre was being completed the Fiji struck rock only 300 yards (274 metres) from shore. The place is known as Wreck Bay, Moonlight Head. Blue lights were burned and rockets fired whilst an effort was made to lower boats but all capsized or swamped and smashed to pieces. Two of the younger crewmen volunteered to swim for the shore, taking a line. One, a Russian named Daniel Carkland, drowned after he was swept away when the line broke. The other, 17 year old able seaman Julius Gebauhr, a German, reached shore safely on his second attempt but without the line, which he had cut lose with his sheath-knife when it become tangled in kelp. He rested on the beach a while then climbed the steep cliffs in search of help. At about 10am on the Sunday morning a party of land selectors - including F. J. Stansmore, Leslie Dickson (or Dixon) and Mott - found Gebauhr. They were near Ryans Den, on their travels on horseback from Princetown towards Moonlight Head, and about 5km from the wreck. Gebauhr was lying in the scrub in a poor state, bleeding and dressed only in singlet, socks and a belt with his sheath-knife, ready for all emergencies. At first they were concerned about his wild and shaggy looking state and what seemed to be gibberish speech, taking him to be an escaped lunatic. They were reassured after he threw his knife away and realised that he was speaking half-English, half-German. They gave him food and brandy and some clothing and were then able to gain information about the wreck. Some of the men took him to Rivernook, a nearby guest house owned by John Evans, where he was cared for. Stansmore and Dickson rode off to try and summon help. Others went down to the site of the wreck. Messages for rescuing the rest of the crew were sent both to Port Campbell for the rocket rescue crew and to Warrnambool for the lifeboat. The S.S. Casino sailed from Portland towards the scene. After travelling the 25 miles to the scene, half of the Port Campbell rocket crew and equipment arrived and set up the rocket tripod on the beach below the cliffs. By this time the crew of the Fiji had been clinging to the jib-boom for almost 15 hours, calling frantically for help. Mr Tregear from the Rocket Crew fired the line. The light line broke and the rocket was carried away. A second line was successfully fired across the ship and made fast. The anxious sailors then attempted to come ashore along the line but, with as many as five at a time, the line sagged considerably and some were washed off. Others, nearly exhausted, had to then make their way through masses of seaweed and were often smothered by waves. Only 14 of the 24 who had remained on the ship made it to shore. Many onlookers on the beach took it in turns to go into the surf and drag half-drowned seamen to safety. These rescuers included Bill (William James) Robe, Edwin Vinge, Hugh Cameron, Fenelon Mott, Arthur Wilkinson and Peter Carmody. (Peter Carmody was also involved in the rescue of men from the Newfield.) Arthur Wilkinson, a 29 year old land selector, swam out to the aid of one of the ship’s crewmen, a carpenter named John Plunken. Plunken was attempting to swim from the Fiji to the shore. Two or three times both men almost reached the shore but were washed back to the wreck. A line was thrown to them and they were both hauled aboard. It was thought that Wilkinson struck his head on the anchor before s they were brought up. He remained unconscious. The carpenter survived this ordeal but Wilkinson later died and his body was washed up the next day. It was 26 year old Bill Robe who hauled out the last man, the captain, who had become tangled in the kelp. The wreck of the Fiji was smashed apart within 20 minutes of the captain being brought ashore, and it settled in about 6m of water. Of the 26 men on the Fiji, 11 in total lost their lives. The remains of 7 bodies were washed onto the beach and their coffins were made from timbers from the wrecked Fiji. They were buried on the cliff top above the wreck. The survivors were warmed by fires on the beach then taken to Rivernook and cared for over the next few days. Funds were raised by local communities soon after the wreck in aid of the sufferers of the Fiji disaster. Captain Vickers was severely reprimanded for his mishandling of the ship. His Masters Certificate was suspended for 12 months. At the time there was also a great deal of public criticism at the slow and disorganised rescue attempt to save those on board. The important canvas ‘breech buoy’ or ‘bucket chair’ and the heavy line from the Rocket Rescue was in the half of the rocket outfit that didn’t make it in time for the rescue: they had been delayed at the Gellibrand River ferry. Communications to Warrnambool were down so the call for help didn’t get through on time and the two or three boats that had been notified of the wreck failed to reach it in time. Much looting occurred of the cargo that washed up on the shore, with nearly every visitor leaving the beach with bulky pockets. One looter was caught with a small load of red and white rubber balls, which were duly confiscated and he was ‘detained’ for 14 days. Essence of peppermint mysteriously turned up in many settlers homes. Sailcloth was salvaged and used for horse rugs and tent flies. Soon after the wreck “Fiji tobacco” was being advertised around Victoria. A Customs officer, trying to prevent some of the looting, was assaulted by looters and thrown over a steep cliff. He managed to cling to a bush lower down until rescued. In 1894 some coiled fencing wire was salvaged from the wreck. Hundreds of coils are still strewn over the site of the wreck, encrusted and solidified. The hull is broken but the vessel’s iron ribs can be seen along with some of the cargo of concrete and pig iron. Captain Vickers presented Bill Robe with his silver-cased pocket watch, the only possession that he still had, as a token for having saved his life and the lives of some of the crew. (The pocket watch came with 2 winding keys, one to wind it and one to change the hands.) Years later Bill passed the watch to his brother-in-law Gib (Gilbert) Hulands as payment of a debt and it has been passed down the family to Gilbert Hulands’ grandson, John Hulands. Seaman Julius Gebauhr later gave his knife, in its hand crafted leather sheath, to F. J. Stansmore for caring for him when he came ashore. The knife handle had a personal inscription on it. A marble headstone on the 200m high cliffs overlooking Wreck Beach, west of Moonlight Head, paying tribute to the men who lost their lives when Fiji ran aground. The scene of the wreck is marked by the anchor from the Fiji, erected by Warrnambool skin divers in 1967. Amongst the artefacts salvaged from the Fiji are bisque (or china) toys, (including miniature animals, limbs from small bisque dolls), rubber balls, a slate pencil, a glass bottle, sample of rope from the distress rocket and a candlestick holder. These items are now part of the Fiji collection at Flagstaff Hill Maritime Museum, along with Captain Vickers’ pocket watch and Julius Gebauhr’s sheath knife. This toy rubber ball is classified as Fiji 3 on the SWR Flagstaff Hill’s Fiji collection is of historical significance at a State level because of its association with the wreck Fiji, which is on the Victorian Heritage Register VHR S259. The Fiji is archaeologically significant as the wreck of a typical 19th century international sailing ship with cargo. It is educationally and recreationally significant as one of Victoria's most spectacular historic shipwreck dive sites with structural features and remains of the cargo evident. It also represents aspects of Victoria’s shipping history and its potential to interpret sub-theme 1.5 of Victoria’s Framework of Historical Themes (living with natural processes). The Fiji collection meets the following criteria for assessment: Criterion A: Importance to the course, or pattern, of Victoria’s cultural history. Criterion B: Possession of uncommon, rare or endangered aspects of Victoria’s cultural history Criterion C: Potential to yield information that will contribute to an understanding of Victoria’s cultural history. Rubber ball salvaged from the wreck of the Fiji. The rubber is perishing and the surface is pitted and bumpy. The material is tan in colour with a slightly pitted surface. 1891, china, shipwrecked coast, flagstaff hill, flagstaff hill maritime museum, maritime museum, shipwrecked artefact, flagstaff hill maritime village, shipwreck coast, warrnambool, porcelain, moonlight head, wreck bay, cargo, bisque, toys, miniature animals, rubber ball