After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Introduced to the FCV in the mid 1960sRadio Transceiver Forest Phone FP-1 with handsetbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Introduced to the FCV in the mid 1960sRadio Transceiver Forest Phone FP-1 with handsetbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Radio with handsetModel 11/53M Serial 649 Manufactured by Harding Bros Horshambushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Desk microphone for use with base radio stationPTCA 4001bushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Radio telephone.8422bushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Desk microphone for use with base radio stationbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Radio telephone.bushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. SSB Long Range Transceiver including aerial wire and operation card (1992)Codan SSB transceiver 6924Bbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Portable radio with aerial and handsetKG109 - 40DO 5KWbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Portable radio with aerialKG109 - 40DO 5KWbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. This contraption is thought to have been developed in the FCV radio workshops at Surrey Hills. It's basically a STC vehicle radio which has been mounted on a backpack frame and powered by a heavy lead-acid battery. The backpack frame was manufactured at the Altona fire equipment development centre. A considerable number of these radio units were made and distributed to the field.bushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Portable radio with handset, aerial and chargerAir Operations Ballarat Vickers stbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Portable radio with charger and handsetbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Portable mini phone in leather casebushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Radio Aerial for use with aircraftbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Used to communicate to remote fire towers Single wire often run through the bush from FCV district officesFire tower telephone with winderChristmas Hills South Instructions for use around winderbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Used to communicate to remote fire towers Single wire often run through the bush from FCV district officesFire tower telephone with winderChristmas Hills South Instructions for use around winderbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Used to communicate to remote fire towers Single wire often run through the bush from FCV district officesFire tower telephone with winderWattle Glen Diamond Creekbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. Used to communicate to remote fire towers Single wire often run through the bush from FCV district officesFire tower telephone with winderWattle Glen Diamond Creekbushfire, radios, forests commission victoria (fcv)

After the 1939 bushfires, the Forests Commission Victoria invested heavily in a radically new communications network. After suffering some inevitable delays due to the war, radio VL3AA switched into full operation in October 1945 proudly beaming out 200 watts across the State. But by today’s standards, the technology was primitive and the reception poor unless the user was on a high point somewhere. The radio signal was "line-of-sight" and bounced between fire towers and relay transmitters across the mountains back to the District offices. The advent of solid-state electronics in the 1960s replaced the more delicate valve sets which enabled greater use of vehicle mounted radios. The Commission continued to research, develop and build new radios at its many workshops around Victoria. The network was supported by a large team of skilled radio technicians. The more secure and versatile State Mobile Radio (SMR) digital trunk system came into operation in about 1995. Upgraded Tait Radios were purchased in 2014 after recommendations of the 2009 Bushfires Royal Commission. But it was the convergence of separate technologies such as 5G mobile phones, high-capacity and light-weight lithium batteries, Wi-Fi, the ever-expanding internet, cloud data storage, digital cameras, GPS, personal organisers and hundreds of supporting Apps into powerful smartphones and tablets which revolutionised bushfire communications from the mid-2000s. AWA ReceiverType IC 9640bushfire, radios, forests commission victoria (fcv)

Provides details of the rails used by the SEC and ESCo in Ballarat.Yields information about the rails used by the SEC.Heavy cardboard folder with advertisement for Yeaston yeast tablets on outside of both covers, containing eight SEC drawings, Ballarat Branch, of rail cross sections and dimensions. Secured into binder with metal folding clips. Cannot be removed without dismantling the folder. Brown tape covers the edge of the folders and the centre. Rail size Drg No. Date 1. 70lb Tee BA6756 23/3/1953 2. 80lb Tee BA6748 27/6/1951 BHP Section 801 3. 80lb Tee BA6755 18/3/1953 BHP Section 803 4. 83lb Tram BA6759 8/4/1953 Has been taped together at about 3/4 length. 5. 87lb Tram BA6760 9/4/1953 6. 90lb Tram BA6758 31/3/1953 7. 90lb Tram BA6746A 29/7/1955 BSS No. 1 Rail 8. 96lb Tram BA6761 21/4/1953 1c rail Drawings all finally signed off 3/8/1955 by Ballarat Branch Manager, H. W. Linaker.tramways, trackwork, rails, yeaston

Edith (Alice) WATSON (1914–2010) Murtoa | Australia Alice Watson studied at the Ballarat Technical Art School (at the School of Mines, Ballarat) from 1930 until 1933. Watson sat several departmental exams, including drawing and painting plant forms from nature, lettering, Composition of Form and Colour and advanced General Design, as well as dressmaking and embossed leatherwork. General Design examinations required only designs on paper, and not the full execution of an object (which was the case for Applied Design exams). Watson's folio applies many Australian native floral elements to design. Upon graduating, Watson taught at the Murtoa High School, living with her parents until their deaths in 1972 and 1988 when she was 74 years old. Alice Watson died in Ballarat, aged 95, having conserved her beautiful student folio, which was generously gifted to the Federation University permanent Historical Collection by the Watson family. A folio of thirty three drawings and paintings undertaken by Alice Watson at the Ballarat Technical Art School. The works include including the application of Australian flora to designs, including for pottery, leather and applique. .2) is a design for a table runner to be executed in richelieu work .3) frieze including fish .4) "Design for a border to be executed in stencil". 1932 .12) "Design on the waratah for a bowl to be executed in clay". 1932 .14) "Time test" .12) .17) .15) .18) show the combination of Australian flora with Art Nouveau-inspired designs .9) is a design for a wallet to be executed in raffia showing elevation, side elevation and plan views .11) is a design for a prayer book carrier to be executed in leather work .10) is an example of pencil transfer method of design seen on .11) .18) Design for a fan, image of birds and berries on a blue ground. .25) landscape illustration .27) "development" design based on a correa .29) "Design for a tea cosy based on the Cobia-Scanden to be executed in applique. 1931 (see also .31) .30) "Design for a writing tablet to be executed in embossed leather work and based on the native fuschia" (correa). 1931 .31) a completed doily holder: applique workMost are signed A. Watson 1931 .2) Paper is embossed with stamp of 'Goodall's Bristol Boards' stamp. (Crown depicted in centre) .20 and .22) Paper is embossed with 'Windsor & Newtons Bristol Board' stamp.(Griffin depicted in centre)ballarat technical art school, alice watson, flora, design, artwork, folio, art nouveau, alumni, leather work design, richelieu work, applique, doily holder, doyley holder, general design, edith alice watson

The World War One Memorial Stained glass windows in the Barkly Street Uniting Church resulted from a request made in 1919 by the Barkly Street Young Men's Club to be given permission to raise money to pay for the project. The window was designed by Fisher Co. Pty Ltd, and was unveiled by a former army chaplain - either Rev. J.A. Gaunt or Rev. Bladen on the 14th March 1920. The total cost of the windows was 171 pounds 10 shillings. The window cost 150pounds, the window was fixed into position for 15 pounds, and three wire screens cost 6 pounds 10 shillings.Digital Photographs of the World War One memorial stained glass windows in the Barkly Street Uniting Church, Ballarat East.Repousse World War One tablet: 1914-1919 For God, King and Country The windows above have been erected as a memorial to the heroic lads of this school and church who fell in the Great War. Brittain, H.O. Butcher, J.C. Cornish, H. R. MM (Richard) Eady, James Arthur Edmends, William H. Ferguson, F. Farrar, A.Z. Gist, C.H. Gates, Stanley C. Grave, Howard B. Hughes, Arthur W. Hughes, George A.C. Jones, William Stanley (Stan) Marshall, Robert R. McConnell, A.R. (Ralph) Muller, A.V. Polkinghorne, E.C. (Clifford) Ridgwell, Herbert R. Sansum, Arthur H. Smith, Alfred G. Tait, Robert E. Tait, Lawrence (Laurie) Veal, Thomas P. Vincent, Leslie A.barkly street uniting church, barkly steet methodist church, barkly street weseyan church, j.a. gaunt, bladen, stained glass, soldier, world war, world war one, mmm

Before factory production became commonplace in medicine, dispensing was considered an art and pill machines such as these were a vital component of any chemist’s collection. This machine dates back to the days when your local chemist or apothecary bought, sold, and manufactured all his own drugs and medicines to everybody who lived within the local community. In Victorian times, there was no such thing as off-the-shelf medicine. Every tablet, pill, suppository, ointment, potion, lotion, tincture and syrup to treat anything from a sore throat to fever, headaches or constipation, was made laboriously by hand, by the chemist. Pill machines such as these first appeared in the mid-1700s and quickly became a staple of the Victorian chemist’s shop. A ‘pill mass’ of medicinal powders mixed with a binding agent would be hand-rolled into a pipe on the tile at the back of the machine. This would then be placed across the grooved brass plate and cut into equal-sized pills using the corresponding side of the roller. Once all the necessary ingredients for the pills had been measured and ground with a pestle and mortar a final ingredient was poured in, syrup – this acted as a binding-agent. You could then roll it into a sausage shape. The largest part of the machine is the board. This is set at an angle and is comprised of the rolling surface, the cutting grooves, and the collection-tray. The large flat surface is for rolling out the pill-paste into the sausage shape. This is then rolled towards the brass cutting-grooves. The paddle (the second piece) is flipped over so that the grooves there line up with the grooves on the board. Rollers on the ends of the paddle roll against the brass edges of the board, and they guide the paddle straight across the grooves, taking the pill-mass with it. The grooves on the paddle and the board slice up the pill-mass and, after rolling the thing back and forth a couple of times like a rolling-pin, the circular pills roll off the grooves and into the tray at the bottom. https://galwaycitymuseum.ie/blog/collections-spotlight-victorian-pill-making-machine/?locale=en The collection of medical instruments and other equipment in the Port Medical Office is culturally significant, being an historical example of medicine from late 19th to mid-20th century. Pill making device including a grooved base board and grooved sliding board with two pill moulds.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, pills, pill maker, medicine, health

Used as tBefore factory production became commonplace in medicine, dispensing was considered an art and pill machines such as these were a vital component of any chemist’s collection. This machine dates back to the days when your local chemist or apothecary bought, sold, and manufactured all his own drugs and medicines to everybody who lived within the local community. In Victorian times, there was no such thing as off-the-shelf medicine. Every tablet, pill, suppository, ointment, potion, lotion, tincture and syrup to treat anything from a sore throat to fever, headaches or constipation, was made laboriously by hand, by the chemist. Pill machines such as these first appeared in the mid-1700s and quickly became a staple of the Victorian chemist’s shop. A ‘pill mass’ of medicinal powders mixed with a binding agent would be hand-rolled into a pipe on the tile at the back of the machine. This would then be placed across the grooved brass plate and cut into equal-sized pills using the corresponding side of the roller. Once all the necessary ingredients for the pills had been measured and ground with a pestle and mortar a final ingredient was poured in, syrup – this acted as a binding-agent. You could then roll it into a sausage shape. The largest part of the machine is the board. This is set at an angle and is comprised of the rolling surface, the cutting grooves, and the collection-tray. The large flat surface is for rolling out the pill-paste into the sausage shape. This is then rolled towards the brass cutting-grooves. The paddle (the second piece) is flipped over so that the grooves there line up with the grooves on the board. Rollers on the ends of the paddle roll against the brass edges of the board, and they guide the paddle straight across the grooves, taking the pill-mass with it. The grooves on the paddle and the board slice up the pill-mass and, after rolling the thing back and forth a couple of times like a rolling-pin, the circular pills roll off the grooves and into the tray at the bottom. https://galwaycitymuseum.ie/blog/collections-spotlight-victorian-pill-making-machine/?locale=enhe companion item to pill-maker base, item 488.2The collection of medical instruments and other equipment in the Port Medical Office is culturally significant, being an historical example of medicine from late 19th to mid-20th century.Pill making device including a grooved base board and grooved sliding board with two pill mouldsNone.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, pill making, pill mould, medicine, health

F. H. Faulding & Co was a pharmaceutical company founded in Adelaide, South Australia in 1845 by Francis Hardey Faulding 1816 – 1868, a native of Swinfleet, Yorkshire, He arrived in Sydney on the Nabob in February 1842,and travelled on the brig Dorset to Adelaide in May, where he opened a pharmacy at 5 Rundle Street in 1845.The pharmacy flourished, so he purchased a warehouse in Clarence Place in the city and transferred the manufacturing and wholesale arms of the business there. In 1861 he entered into partnership with Luther Scammell (1826–1910).a Yorkshireman, who had received medical training at Guy's Hospital, and arrived in Adelaide in 1849. Faulding died in 1868 and Scammell took over the business, however he was forced to retire in 1889 when the Bank of Adelaide threatened foreclosure after a series of failed mining and pastoral speculations. Two of his sons, Luther Robert Scammell FCS LSA ( 1858 – 1940) and William J. Scammell ( 1856 – 1928) acquired the manufacturing and wholesaling operations, and the business name, in 1888; the retail shops were sold to reduce the debt to the bank.The company expanded under the two brothers and later two sons of each became directors of the company. In June 1921 Faulding & Co. became a private company, with L.R. Scammell as chairman and managing director. He continued to run the firm's affairs until 1935.Two of the Faulding company's major innovations were the development of a process for distillation of eucalyptus oil, and the development of the test for determining the eucalyptol content of the oil. Faulding's success was founded on eucalyptus oil, which formed the basis of an antiseptic marketed as "Solyptol" (for soluble eucalyptus oil). The test became the industry standard, and the British Pharmacopoeia standard method in 1898. Other well-known products were Milk Emulsion (a pleasant alternative to cod-liver oil), Solyptol Soap, (which won a gold medal at the Franco-British Exhibition in London in 1908), Solyptol disinfectant, junket tablets, cordials, essential oils for perfumery and reagents such as Epsom salts, most produced in its factory in Thebarton The Faulding Co. built success around optimising the delivery of oral dosage form drugs. A brown glass bottle with a plastic screw top that contained 'Penicillin Lozenges' made by F.H. Faulding Co. Ltd . AustraliaFAULDING / Penicillin Lozenges / ( Troch. Penicillin B.P.) /......... / F.H.Faulding & Co. Ltd. / Adelaide, Perth, Sydney, / Melbourne, Brisbane on back DIRECTIONS......pharmacy, medicines, f.h. faulding co. ltd, penicillin lozenges, antibiotics, dentists, glassware, bottles, moorabbin, bentleigh, cheltenham

In April 2002, illustrative panels were set in place at Kangaroo Ground War Memorial Park designed to inform visitors about significant aspects of the reserve and its tower. One of these deals with its indigenous story, another portrays its original 1920 memorial, a third has upon it Will Longstaff’s famous war painting, “Midnight at Menin Gate.” This sign establishes a connection with the First World War by way of the painting "Menin Gate at Midnight". (NL 144) The artist William Longstaff lived in Eltham; his son attended school at Kangaroo Ground. The orignal of his painting is on permanent display in the Australian War Memorial. Since this photograph was taken (date unknown) the information panel has been restored and re-erected by staff of the Shire of Nillumbik who replicated the wooden side frame pieces with the same wood-turn design as seen here in the original. Colour photographMENIN GATE AT MIDNIGHT Will Longstaff, 1927 Oil on canvas, Size 135cm high x 254cm wide Collection: Australian War Memorial The artist Will Longstaff was born in in Ballarat in 1879 and died at Littlehampton, Sussex, UK, 1953. Will Longstaff for many years lived in Eltham, his son Tommy, attending school at Kangaroo Ground. As an Official War Artist, will Longstaff depicted in his alegorical painting the Menin Gate Memorial, Ypres, Belgium. The Memorial unveiled on 24th July 1927 honours by name over 50, 000 allied soldiers who fell in the Great War and have no known graves. The names of 6,208 men of the first Australian Imperial Force (A.I.F.) are listed within the Memorial on stone tablets. The painting held huge emotional appeal to Australians when it arrived from England in 1928, attracting an estimated one million viewers, many of whom interpreted the field of red poppies in the foreground as the spirits of the dead rising from their unknown graves. The painting is to be found in the Australian War Memorial, Canberra.menin gate at midnight, william longstaff, kangaroo ground memorial, information panel, shire of eltham war memorial

Before factory production became commonplace in medicine, dispensing was considered an art and pill and suppository machines such as these were a vital component of any chemist’s collection. This mould dates back to the days when the local chemist or apothecary bought, sold, and manufactured all his own drugs and medicines to everybody who lived within the local community. In Victorian times, there was no such thing as off-the-shelf medicine. Every tablet, pill, suppository, ointment, potion, lotion, tincture and syrup to treat anything from a sore throat to fever, headaches or constipation, was made laboriously by hand, by the chemist. Some medicines are formulated to be used in the body cavities: the suppository (for the rectum), the pessary (for the vagina) and the bougie (for the urethra or nose). History Suppositories, pessaries and bougies have been prescribed for the last 2000 years but their popularity as a medicinal form increased from around 1840 - suppositories for constipation, haemorrhoids and later as an alternative method of drug administration, pessaries for vaginal infections and bougies for infections of the urethra, prostate, bladder or nose. Manufacture The basic method of manufacture was the same for each preparation, the shape differed. Suppositories were "bullet" or "torpedo" shaped, pessaries "bullet" shaped but larger and bougieslong and thin, tapering slightly. A base was required that would melt at body temperature. Various oils and fats have been utilised but, until the advent of modern manufactured waxes, the substances of choice were theobroma oil (cocoa butter) and a glycerin-gelatin mixture. The base was heated in a spouted pan over a water-bath until just melted. The medicament was rubbed into a little of the base (usually on a tile using a spatula) and then stirred into the rest. The melted mass was then poured into the relevant mould. Moulds were normally in two parts, made from stainless steel or brass (silver or electroplated to give a smooth surface). To facilitate removal the moulds were treated with a lubricant such as oil or soap solution. To overcome the difficulty of pouring into the long, thin bougie mould, it was usual to make a larger quantity of base, to partially unscrew the mould, fill with base and then screw the two halves of the mould together thus forcing out the excess. When cool, any excess base was scraped from the top of the mould, the mould opened and the preparations removed, packed and labelled with the doctor's instructions. https://www.rpharms.com/Portals/0/MuseumLearningResources/05%20Suppositories%20Pessaries%20and%20Bougies.pdf?ver=2020-02-06-154131-397The collection of medical instruments and other equipment in the Port Medical Office is culturally significant, being an historical example of medicine from late 19th to mid-20th century.Proctological mould for making suppositories.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, suppositories, medicine, health

Before factory production became commonplace in medicine, dispensing was considered an art and pill and suppository machines such as these were a vital component of any chemist’s collection. This mould dates back to the days when the local chemist or apothecary bought, sold, and manufactured all his own drugs and medicines to everybody who lived within the local community. In Victorian times, there was no such thing as off-the-shelf medicine. Every tablet, pill, suppository, ointment, potion, lotion, tincture and syrup to treat anything from a sore throat to fever, headaches or constipation, was made laboriously by hand, by the chemist. Some medicines are formulated to be used in the body cavities: the suppository (for the rectum), the pessary (for the vagina) and the bougie (for the urethra or nose). History Suppositories, pessaries and bougies have been prescribed for the last 2000 years but their popularity as a medicinal form increased from around 1840 - suppositories for constipation, haemorrhoids and later as an alternative method of drug administration, pessaries for vaginal infections and bougies for infections of the urethra, prostate, bladder or nose. Manufacture The basic method of manufacture was the same for each preparation, the shape differed. Suppositories were "bullet" or "torpedo" shaped, pessaries "bullet" shaped but larger and bougieslong and thin, tapering slightly. A base was required that would melt at body temperature. Various oils and fats have been utilised but, until the advent of modern manufactured waxes, the substances of choice were theobroma oil (cocoa butter) and a glycerin-gelatin mixture. The base was heated in a spouted pan over a water-bath until just melted. The medicament was rubbed into a little of the base (usually on a tile using a spatula) and then stirred into the rest. The melted mass was then poured into the relevant mould. Moulds were normally in two parts, made from stainless steel or brass (silver or electroplated to give a smooth surface). To facilitate removal the moulds were treated with a lubricant such as oil or soap solution. To overcome the difficulty of pouring into the long, thin bougie mould, it was usual to make a larger quantity of base, to partially unscrew the mould, fill with base and then screw the two halves of the mould together thus forcing out the excess. When cool, any excess base was scraped from the top of the mould, the mould opened and the preparations removed, packed and labelled with the doctor's instructions. https://www.rpharms.com/Portals/0/MuseumLearningResources/05%20Suppositories%20Pessaries%20and%20Bougies.pdf?ver=2020-02-06-154131-397The collection of medical instruments and other equipment in the Port Medical Office is culturally significant, being an historical example of medicine from late 19th to mid-20th century.Proctological mould for making suppositories.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, suppositories, medicine, health

Allen & Hanburys was founded in 1715 in Old Plough Court, Lombard Street, London, by Silvanus Bevan, a Welshman, apothecary, and a Quaker. Bevan and his brother, Timothy, who became his partner and later succeeded him, were known for their just dealings and the integrity and quality of their drugs. The company grew into a respected pharmaceutical center and had established a strong reputation with American doctors by the late 18th century. William Allen, FRS, also a Quaker, and well-known scientist, joined the firm in 1792 and rose quickly to become the dominant personality. His second wife was a member of the Hanbury family who had produced several learned scientists. On Allen's death, the Hanbury family assumed control of the company. The growth of the company was continuous, but it was in the second part of the 19th century that developments on a large scale took place. Factories were built at Ware, Hertfordshire, and Bethnal Green in East London. The factory at Ware specialised in infants' foods, dietetic products, medicated pastilles, malt preparations as well as galenical preparations, beginning production in 1892. The brands included Allenburys Nº1 and Nº2 foods (essentially milk foods for babies up to six months), and Allenburys Nº 3 (malted farinaceous food, six months and older). Allenburys Rusks was a suitable first solid food for infants. Allenburys claimed to be pioneers in Great Britain in the production of pastilles, and thus the Ware factory also produced Allenburys Glycerine and Black Currant Pastilles, amongst another 80 different kinds of medicated and crystallised pastilles. Allen and Hanburys were one of the first manufacturers of cod liver oil in Great Britain, and owned factories in the Lofoten Islands (Norway) as well as at Hull and Aberdeen taking cod directly from the North Sea. The Bethnal Green factory carried much of the administrative and scientific side of the business, which included research, analytical control, chemistry, pharmacy, and pharmacology. In this plant, galenical preparations, pills, tablets, capsules, and other classes of pharmaceutical and medical goods were prepared. The company had overseas branches in Lindsay, Ontario, Durban, India, Shanghai, Australia, and Buenos Aires, and agencies in many other countries. The company address was for many years at 37 Lombard Street, London EC. Allen and Hanburys Ltd were absorbed by Glaxo Laboratories in 1958 under the name Glaxo Smith Kline, the company, used the Allen and Hanburys name for the specialist respiratory division until it was phased out in 2013.An early baby feeding bottle was made by the Allen & Hanburys company between 1891 to around 1920. The item is significant as it was used to feed babies the new manufactured baby milk formula's made by Allen & Hanburys that were gaining in popularity towards the end of the Victorian era.Baby feeding bottle clear glass curved with flat bottom and measuring scale, teat opening at one end and filling hole without stopper at the other end.Allenburys Feeder AD 1715warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, baby feeding bottle, bottle, domestic object