The rocket rescue crews used a sand anchor at a beach rescue site to weigh down the rescue apparatus. The crew would connect the steel cables to the connecting cable and then join heavy ropes or chains to the connecting cable. They would then bury the anchor in a trench about three-quarters of a metre deep, keeping the connecting cable’s end free. The length of heavy rope or chain was attached to a pulley block onto the heavy hawser line. The block and a crotch pole were used to keep the hawser line high and taught, keeping the survivors above the sea as they were hauled to shore on a line or in a breeches buoy. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it. In 1858 the provision of rocket and mortar apparatus was approved for lifeboat stations in Victoria, and in 1864 a rocket house was built to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s, the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to a rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy apparatus was in use. The apparatus was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a lightweight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part of the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. This sand anchor is part of the rocket rescue equipment and is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.The sand anchor comprises a plank with steel cables and a connecting cable. The rectangular wooden bevelled-edged plank with two pairs of square metal plates bolted through it. Each metal plate has an eyelet and the two steel cable lengths are permanently attached by their eyelets to the plates. The eyelets at each end of the cable lengths are reinforced with rope work and one length also has a ‘U’ bolt shackle connection. The steel connecting cable also has reinforced eyelets at both ends. The plank has a black stencilled inscription on the upper surface. Stencilled in black paint "ANCHOR" "BACKER"flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, breeches buoy, rocket house, rocket equipment, rocket launcher, rocket line, marine technology, beach rescue set, traveller, block, running block, pulley, hawser, faked line, lady bay, warrnambool harbour, port of warrnambool, volunteer lifesavers, volunteer crew, breakwater, rocket rescue method, rocket rescue apparatus, shore to ship, rocket apparatus rescue, stranded vessel, whip line, endless whip, harbour board, sand anchor, rocket set, anchor backer, rescue anchor, beach anchor, backer, anchor, steel cable, wire cable, connecting cable

The Universal Acoustic Coupler was made and would have been used to connect a telephone to dial a computer remotely. The control panel is under the wooden flap. There is a power switch, full duplex switch, 500 Ma Fuse, CCITT Port. When not in use it can be folded up into a small timber carry case with handle.Wooden box with two sections that open. Top section hinged and folds back. inside are controls and cables for connecting to a computer. Instructions for use are on the lid. Front section has clips and folds down to a phone to placed in "speakers". English maker's plate and Melbourne supplier's plate with A.P.O. Permit No. C74/8/903 Serial No. 775326 moore reed, universal acoustic coupler, telephone, remote connection, computer connection

Photographs, Black and White, Group Photo of the depot, staff, crew and tramcar 32 with two horses of the Hawthorn horse tramway. In the background is the horse tram depot with a clock on the wall. There are 8 uniformed men and four men in suits either standing or seated in front of the horse tram No. 32. The tram has the route painted on the board above the windows "Burwood Rd, Power St Riversdale Rd" and "Connecting with Richmond Cable tramway" above that. Two copies held.In ink on the rear: Keith Kings stamp and number S-A-1139 "Melbourne MTOCo Co, Horse Tram 32, Riversdale Road, Auburn at Car Shed" and "Ex F. B. Broadbent Collection"trams, tramways, horse trams, hawthorn, auburn road, depots, group photo, tram 32

This insulator disk for the high voltage carrying electrical cables was manufactured in 1964 and used by the SEC Vic (Kiewa Hydro Electricity Scheme) from that date until late 1900's. It was used to connect high voltage cables to their "towers" going from various Hydro Generators to and from power "stations". During this time period, high quality "cable" insulators were manufactured in Japan. In an earlier time they would have been sourced from Europe or England. After the 1950's the sourcing of electrical hardware was being influenced by the lower costs obtainable from Japan. Later on other Asian sources also became available.The need for a mountainous and a large area of operational requirements, such as the SEC Vic Kiewa Hydro Electricity Scheme, to distribute the electricity produced in the Victorian Alps to the major users required power transmission lines to "carry" high above the sometimes inaccessible land mass electricity generated at the power stations to the various sub stations along the valleys and ranges to flatter populated regions. The significance of this insulation "high voltage" disk to the Kiewa Valley region relates to the impact of modern technology (at that time) upon a mainly rural environment. These power lines are a stark visual "show" of the impact that the "Scheme" has on the mostly rural landscape of the Kiewa Valley and what a boost of "modern" equipment into the area has taken place. The "Hydro Scheme" had facilitated the transition of a semi rural area to an advanced rural region within a shorter time frame, than would have taken under "normal" evolutionary time. The speed of information of all "new technology" had a relatively slow assimilation rate before the SEC Kiewa Hydro Scheme came to those living in the then quieter rural communities. This high voltage (330 KV) insulation disk is made from non conductive porcelain stoneware. It is highly polished brown in colour and has a clip fastening for the high voltage cable to be attached to. This disk was hit by lightning and the burn marks are quite noticeable. The top metal connector has a "mushroom" extension jutting below the semi cone like insulation disk. Also four circular ridges or grooves (old 78 rpm disc recording style).Cable bell on top of insulation disk "4K " next to it the international symbol for electricity (triangle containing one horizontal line under one V line and one vertical flame like line.) On the opposite side "2" and to the right "64"sec vic kiewa hydro scheme, alternate energy supplies, alpine (above ground) high voltage electricity cables, volt cable, 330000 volt cable

After years of precursory surveying, debate and proposals the most ambitious civil engineering project of the day, the Overland Telegraph Line, began construction in September 1870. Superintendent of Telegraphs, Sir Charles Todd led the construction through “terra incognita,” guided by the precursory surveys of John McDowall Stuart and technologies such as his prismatic surveying compass. The unknown and hostile landscape claimed the lives of several men and scores of transport animals in the dogged pursuit of telegraphic connection to the rest of the world. Completed in August 1872, the Line connected Australia to the world via telegraph wires running 3,200 kilometres from Port Augusta in South Australia, to Darwin, then connecting via submarine cable to Java and beyond. The “earth [had been] girdled with a magic chain” according to the then Governor of New South Wales, Sir Hercules Robinson. How does it work? For use in surveying, the sight vane and prism are turned up on their hinge and the instrument is held horizontally either in the palm of one's hand or on a tripod. Two small discs of red and green glass attached to the prism can be flipped down over the sight line to reduce glare. The objective is to bring the subject into the sightline created by the prism, aligning with the thread of the sight-vane until the subject is bisected evenly. Once aligned, the division on the card may be read through the prism. This reading provides the magnetic azimuth, used for calculating the bearings of distant landmarks. Circular instrument mounted in a brass case with glass window and brass lid. The compass card face four black compass points printed on mint green paper; on the underside the magnetic needle would be affixed, all held in place by a brass knob at the centre. The arched labels of "Sawtell" and "Adelaide" and the Prince of Wales feathers appear to have been affixed with adhesive which has since yellowed in the areas of application on the compass card. The compass face is printed with numbers, every 10 degrees from 10 - 360, printed in reverse indicating this compass would have once held a mirror at the sighting bracket. On one side of the brass case is a brass hinged sighting-prism, possibly of ebonite. The sighting-prism is mounted in a hinged brass bracket on one edge of the brass case. It has two flip-type filter glasses (red and green) and folds down into a retracted travelling position. A hinged brass bracket on the opposite edge would have held the sighting bracket - carrying the sighting vane and mirror - which is now missing or removed. Under the hinge is a lever, possibly related to the movement of the bracket. Underneath the brass case is an indented circle with screw threads, possibly for attachment to a tripod, and indistinguishable marks scratched into the surface.Etched on to the centre of the lid, "Sawtell ADELAIDE / No 792." Affixed to the paper compass face, possibly from separate pieces of paper, "SAWTELL / ADELAIDE" with the Prince of Wales Feathers above "SAWTELL". Underneath on remains of white tape in red: "159."surveying, compass, charles todd, overland telegraph line, telegraph

This Diathermy Equipment set once belonged to Dr T.F. Ryan of Nhill and was donated to Flagstaff Hill Maritime Village by the family of Doctor William Roy Angus, Surgeon and Oculist. It is part of the “W.R. Angus Collection” that includes historical medical equipment, surgical instruments and material once belonging to Dr Edward Ryan and Dr Thomas Francis Ryan, (both of Nhill, Victoria) as well as Dr Angus’ own belongings. The Collection’s history spans the medical practices of the two Doctors Ryan, from 1885-1926 plus that of Dr Angus, up until 1969. ABOUT THE “W.R.ANGUS COLLECTION” Doctor William Roy Angus M.B., B.S., Adel., 1923, F.R.C.S. Edin.,1928 (also known as Dr Roy Angus) was born in Murrumbeena, Victoria in 1901 and lived until 1970. He qualified as a doctor in 1923 at University of Adelaide, was Resident Medical Officer at the Royal Adelaide Hospital in 1924 and for a period was house surgeon to Sir (then Mr.) Henry Simpson Newland. Dr Angus was briefly an Assistant to Dr Riddell of Kapunda, then commenced private practice at Curramulka, Yorke Peninsula, SA, where he was physician, surgeon and chemist. In 1926, he was appointed as new Medical Assistant to Dr Thomas Francis Ryan (T.F. Ryan, or Tom), in Nhill, Victoria, where his experiences included radiology and pharmacy. In 1927 he was Acting House Surgeon in Dr Tom Ryan’s absence. Dr Angus had become engaged to Gladys Forsyth and they decided he would take time to further his studies overseas in the UK in 1927. He studied at London University College Hospital and at Edinburgh Royal Infirmary and in 1928, was awarded FRCS (Fellow from the Royal College of Surgeons), Edinburgh. He worked his passage back to Australia as a Ship’s Surgeon on the on the Australian Commonwealth Line’s T.S.S. Largs Bay. Dr Angus married Gladys in 1929, in Ballarat. (They went on to have one son (Graham 1932, born in SA) and two daughters (Helen (died 12/07/1996) and Berenice (Berry), both born at Mira, Nhill ) Dr Angus was a ‘flying doctor’ for the A.I.M. (Australian Inland Ministry) Aerial Medical Service in 1928 . The organisation began in South Australia through the Presbyterian Church in that year, with its first station being in the remote town of Oodnadatta, where Dr Angus was stationed. He was locum tenens there on North-South Railway at 21 Mile Camp. He took up this ‘flying doctor’ position in response to a call from Dr John Flynn; the organisation was later known as the Flying Doctor Service, then the Royal Flying Doctor Service. A lot of his work during this time involved dental surgery also. Between 1928-1932 he was surgeon at the Curramulka Hospital, Yorke Peninsula, South Australia. In 1933 Dr Angus returned to Nhill where he’d previously worked as Medical Assistant and purchased a share of the Nelson Street practice and Mira hospital from Dr Les Middleton one of the Middleton Brothers, the current owners of what was once Dr Tom Ryan’s practice. Dr L Middleton was House Surgeon to the Nhill Hospital 1926-1933, when he resigned. [Dr Tom Ryan’s practice had originally belonged to his older brother Dr Edward Ryan, who came to Nhill in 1885. Dr Edward saw patients at his rooms, firstly in Victoria Street and in 1886 in Nelson Street, until 1901. The Nelson Street practice also had a 2 bed ward, called Mira Private Hospital ). Dr Edward Ryan was House Surgeon at the Nhill Hospital 1884-1902 . He also had occasions where he successfully performed veterinary surgery for the local farmers too. Dr Tom Ryan then purchased the practice from his brother in 1901. Both Dr Edward and Dr Tom Ryan work as surgeons included eye surgery. Dr Tom Ryan performed many of his operations in the Mira private hospital on his premises. He too was House Surgeon at the Nhill Hospital 1902-1926. Dr Tom Ryan had one of the only two pieces of radiology equipment in Victoria during his practicing years – The Royal Melbourne Hospital had the other one. Over the years Dr Tom Ryan gradually set up what was effectively a training school for country general-practitioner-surgeons. Each patient was carefully examined, including using the X-ray machine, and any surgery was discussed and planned with Dr Ryan’s assistants several days in advance. Dr Angus gained experience in using the X-ray machine there during his time as assistant to Dr Ryan. Dr Tom Ryan moved from Nhill in 1926. He became a Fellow of the Royal Australasian College of Surgeons in 1927, soon after its formation, a rare accolade for a doctor outside any of the major cities. He remained a bachelor and died suddenly on 7th Dec 1955, aged 91, at his home in Ararat. Scholarships and prizes are still awarded to medical students in the honour of Dr T.F. Ryan and his father, Dr Michael Ryan, and brother, John Patrick Ryan. ] When Dr Angus bought into the Nelson Street premises in Nhill he was also appointed as the Nhill Hospital’s Honorary House Surgeon 1933-1938. His practitioner’s plate from his Nhill surgery states “HOURS Daily, except Tuesdays, Fridays and Saturday afternoons, 9-10am, 2-4pm, 7-8pm. Sundays by appointment”. This plate is now mounted on the doorway to the Port Medical Office at Flagstaff Hill Maritime Village, Warrnambool. Dr Edward Ryan and Dr Tom Ryan had an extensive collection of historical medical equipment and materials spanning 1884-1926 and when Dr Angus took up practice in their old premises he obtained this collection, a large part of which is now on display at the Port Medical Office at Flagstaff Hill Maritime Village in Warrnambool. During his time in Nhill Dr Angus was involved in the merging of the Mira Hospital and Nhill Public Hospital into one public hospital and the property titles passed on to Nhill Hospital in 1939. In 1939 Dr Angus and his family moved to Warrnambool where he purchased “Birchwood,” the 1852 home and medical practice of Dr John Hunter Henderson, at 214 Koroit Street. (This property was sold in1965 to the State Government and is now the site of the Warrnambool Police Station. ). The Angus family was able to afford gardeners, cooks and maids; their home was a popular place for visiting dignitaries to stay whilst visiting Warrnambool. Dr Angus had his own silk worm farm at home in a Mulberry tree. His young daughter used his centrifuge for spinning the silk. Dr Angus was appointed on a part-time basis as Port Medical Officer (Health Officer) in Warrnambool and held this position until the 1940’s when the government no longer required the service of a Port Medical Officer in Warrnambool; he was thus Warrnambool’s last serving Port Medical Officer. (The duties of a Port Medical Officer were outlined by the Colonial Secretary on 21st June, 1839 under the terms of the Quarantine Act. Masters of immigrant ships arriving in port reported incidents of diseases, illness and death and the Port Medical Officer made a decision on whether the ship required Quarantine and for how long, in this way preventing contagious illness from spreading from new immigrants to the residents already in the colony.) Dr Angus was a member of the Australian Medical Association, for 35 years and surgeon at the Warrnambool Base Hospital 1939-1942, He served as a Surgeon Captain during WWII1942-45, in Ballarat, Victoria, and in Bonegilla, N.S.W., completing his service just before the end of the war due to suffering from a heart attack. During his convalescence he carved an intricate and ‘most artistic’ chess set from the material that dentures were made from. He then studied ophthalmology at the Royal Melbourne Eye and Ear Hospital and created cosmetically superior artificial eyes by pioneering using the intrascleral cartilage. Angus received accolades from the Ophthalmological Society of Australasia for this work. He returned to Warrnambool to commence practice as an ophthalmologist, pioneering in artificial eye improvements. He was Honorary Consultant Ophthalmologist to Warrnambool Base Hospital for 31 years. He made monthly visits to Portland as a visiting surgeon, to perform eye surgery. He represented the Victorian South-West subdivision of the Australian Medical Association as its secretary between 1949 and 1956 and as chairman from 1956 to 1958. In 1968 Dr Angus was elected member of Spain’s Barraquer Institute of Barcelona after his research work in Intrasclearal cartilage grafting, becoming one of the few Australian ophthalmologists to receive this honour, and in the following year presented his final paper on Living Intrasclearal Cartilage Implants at the Inaugural Meeting of the Australian College of Ophthalmologists in Melbourne In his personal life Dr Angus was a Presbyterian and treated Sunday as a Sabbath, a day of rest. He would visit 3 or 4 country patients on a Sunday, taking his children along ‘for the ride’ and to visit with him. Sunday evenings he would play the pianola and sing Scottish songs to his family. One of Dr Angus’ patients was Margaret MacKenzie, author of a book on local shipwrecks that she’d seen as an eye witness from the late 1880’s in Peterborough, Victoria. In the early 1950’s Dr Angus, painted a picture of a shipwreck for the cover jacket of Margaret’s book, Shipwrecks and More Shipwrecks. She was blind in later life and her daughter wrote the actual book for her. Dr Angus and his wife Gladys were very involved in Warrnambool’s society with a strong interest in civic affairs. Their interests included organisations such as Red Cross, Rostrum, Warrnambool and District Historical Society (founding members), Wine and Food Society, Steering Committee for Tertiary Education in Warrnambool, Local National Trust, Good Neighbour Council, Housing Commission Advisory Board, United Services Institute, Legion of Ex-Servicemen, Olympic Pool Committee, Food for Britain Organisation, Warrnambool Hospital, Anti-Cancer Council, Boys’ Club, Charitable Council, National Fitness Council and Air Raid Precautions Group. He was also a member of the Steam Preservation Society and derived much pleasure from a steam traction engine on his farm. He had an interest in people and the community He and his wife Gladys were both involved in the creation of Flagstaff Hill, including the layout of the gardens. After his death (28th March 1970) his family requested his practitioner’s plate, medical instruments and some personal belongings be displayed in the Port Medical Office surgery at Flagstaff Hill Maritime Village, and be called the “W. R. Angus Collection”. The W.R. Angus Collection is significant for still being located at the site it is connected with, Doctor Angus being the last Port Medical Officer in Warrnambool. The collection of medical instruments and other equipment is culturally significant, being an historical example of medicine from late 19th to mid-20th century. Dr Angus assisted Dr Tom Ryan, a pioneer in the use of X-rays and in ocular surgery. Diathermy Equipment once belonging to Dr T.F. Ryan, from the W.R. Angus Collection. The equipment is stored in 2 boxes. A long box contains llight weight wooden pieces that make up a Diathermy Clamp (2 extension arms and 2 cross bars). A short deep box contains Diathermy Electrodes; metal (2), metal mesh (2), rubber sponges (2 melded into 1 by perishing), Large Diathermy Pad with cable and connector attached "DIATHERMY PAD" hand written on back. Also, documents (6); receipt to "Dr Ryan, Nhill", from Stamford X-Ray & Radium Co 8/2/1926, instructions (2), notes written on back of eye Field of Vision charts (3). Both boxes have the maker's name on the label "Liebel-Flarsheim Co., Cincinnati, Ohio."Stamped onto the label on the Clamp bos "4 1/2 x 5" and (Cat. No.) "2028" Hand written in black on back of diathermy pad "DIATHERMY PAD" Receipt made to "Dr Ryan, Nhill"flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, dr w r angus, dr ryan, surgical instrument, t.s.s. largs bay, warrnambool base hospital, nhill base hospital, mira hospital, flying doctor, medical treatment, medical history, diathermy treatment, stamford x-ray and radium co, l-f diathermy clamp, both boxes have maker's label liebel-flarsheim co., cincinnati, ohio.

The Optacon OPtical-to-TActile-CONverter is a compact, portable reading aid for the blind. It is about the size of a textbook, and weighs less than 2kg. It works by converting a printed image into a tactile image that a blind person can feel with one finger. After a period of training and practice, a blind person can use the Optacon to read ordinary books, magazines, newspapers, and other printed materials. The Optacon was developed after intensive research at Standford University, California, USA and was trialed by clients of the Royal Victorian Institute for the Blind (now part of Vision Australia) in 1973. It has three main sections: 1 a miniature camera, 2 an electronics section, and 3 a tactile stimulator array. The miniature camera, about the size of a pocket knife, is mounted in a housing that has rollers for easy movement along a line of print. The camera is connected to the electronics section by a lightweight cable. The electronics section and the tactile stimulator array are in the main chassis. The array consists of 144 tiny metal rods arranged in six vertical columns and 24 horizontal rows. Each of the rods can vibrate independently. The tips of these rods protrude through holes in a concave finger plate where the index finger is placed flat in order to read. These three components act together to convert the image of a printed letter or other shape into a pattern of vibrating rods, a tactile image of the letter or shape. The letter shape is tactually perceived as an image that moves from right to left on the finger, showing the left or leading edge of the letter first. Letters are felt sequentially rather than all at once, and the image should be kept moving. The Optacon converts a printed O into a tactile form that resembles a crater with a vibrating rim -- a completed circle. C would have a gap or opening on the right side of the curve. The letter F would be felt, sequentially, as a vertical line with two trailing horizontal lines. Because it can convert any ordinary printed image into a corresponding tactile image, the Optacon is not restricted to any special typestyle or language. The camera has a zoom lens that compensates for differences in the size of type. The standard Optacon lens can accommodate type sizes from 6 point to 20 point. With the optional F4A magnifier lens, type sizes as small as 4 point can be read. Powered by a rechargeable battery, and comes with its own battery charger. The battery is contained within the main chassis, and is not removable by the user. There are four basic controls on the Optacon: the Magnification Adjustment zoom button located on the camera section on the side opposite the rollers; and the On-Off switch, the Stimulator Intensity Adjustment knob, and the Threshold Adjustment knob located on the right side of the front panel. The Circuit Breaker protrudes from the right-hand wall inside the chassis compartment. From left to right when the back panel is facing you, are located: the jack for connecting the battery charger; the Battery Check button; the Normal-Invert switch; and the Input/Output I/O connector for use with the Visual Display, when using the Repeater Cable to connect two Optacons to one another or with other accessories. Designed not be removed from the leather case during normal operation, the On-Off switch is a slide switch located on the right side of the front panel. It slides up and snaps into place in the on position. 1 black with orange front, rectangular device in leather case assistive devices, audio equipment

This transformer lamp system, which has a dial to transform 240 volts to a minimum of 32 volts was used by electrical technicians to inspect internal parts of the large generators (even in small confined spaces). The reason for the reduction of the 240 volts to the 32 volts was for the safety of the inspector. The SEC Victoria Hydro Scheme's electrical generators are powered by the hydro force of "stored" water at a higher altitude. The establishment of both the NSW and Victorian Hydro schemes was achieved from the mid 1900's to the 1960's. At this the point in time the need for additional power sources to quench both an industrial and domestic demand for electricity was purely an economic and not and environmental (carbon reduction) factor. This hydro scheme was instigated by "the Government of the day" as a bold move and was the major force of the World War II refugee and "technical" workforce inclusion of skilled and unskilled migration into the Australian environment. Although this mass "invasion" of workers with families was thought of in some circles as intrusive, the expansion of population post war years and its integration into the Australian rural sector, produced the multi- lingual multi-cultural diversity of later years.This transformer lamp is very significant to the Kiewa Valley as it was introduced as a very small part of the explosion of human resources into the valley. This influx of population transformed the region from that of a basically quiet rural region to one which evolved into both industrial and larger residential community. This evolution in the valley created a change, not only in the "physical" landscape but also the socio-economic expansion which permitted other "tourist" based industries into the valley. This is also a specific electronic item which was manufactured in Melbourne and not sourced from Europe or Asia. This demonstrates the fast evolution of Australian technology to a high standard compatible to that of the rest of the world.This heavy hand held electrical transformer (transforms 240 volts to 32 Volts) an has one leather handle on the top with three small (gauze filtered) air holes. It also has two 2 pin directional cable distribution (clipsal) in/out points 10amps / 240 volts. There is one glassed in volts/ac meter and one variable switch (180 to 150 voltage in settings of 10 volt increments.There are two vents (one on each of the smaller sides). There is also one three pin electrical lead coming out from the top.On one side is a manufacturer's plaque with "ELECTRONIC A & R EQUIPMENT MELBOURNE" and underneath "TYPE 1719, PRI V. 180 250" underneath "V.A. 1250" underneath "CYC 50" underneath "SEC V. 115" underneath "SEC A. 10 . 8". The label on topside "CAUTION SET SWITCH TO 250 v BEFORE CONNECTING TO MAINS THEN, WITH EQUIPMENT OPERATING, SET METER TO RED LINE.kiewa hydro electricity scheme, victorian state electricity commission, transformers

This line connector tool is part of the erecting of electricity cables from the power stations to the ultimate distribution sub stations throughout Victoria. It is used to extend cable length and secure cable to tower points. This type of equipment has been in use in this region since power production commenced in the 1950'sThis connection tool is a vital part in the distribution of hydro produced electricity from its mother power plant to its ultimate destination be it rural towns, industry or city. It has been used in the Kiewa valley and its Alpine regions.This power line connection tool was required to extend the length of the power line and is made up from a "compression sleeve" with its connecting lug and at the other end the suspension eye.Stamped on the compression sleeve "4/7/.1297"sec vic kiewa hydro scheme, alternate energy supplies, alpine population growth

Vietnam eraA metal hand held electrical firing device for remote firing of the Claymore mine. It has a two pole male electrical connector fitted with a dustproof cap and a steel safety bar to prevent inadvertent operation. This device is complete with cable for connection to the mine.Stamped on one side are the words FIRING DEVICE ELECTRICAL M57vietnam, firing device, clacker

It is believed that the photograph on the obverse side of the postcard was taken in 1918. Depicted are ten Australian male soldiers. Their names are transcribed in pencil on the reverse side of the postcard. Each soldier is dressed in a formal military uniform. It is believed that these soldiers were part of The Australian Imperial Force during World War I. This can be inferred by the chevron rank insignia visible on the uniforms of nine of ten men. The placement of this insignia on the sleeves of their right arms suggests that they were either Warrant Officers or Non-Commissioned Officers (NCO). Specifically, the number of chevron stripes - here, nine men have three - are believed to signify a Corporal rank. The men pictured on this postcard are also wearing 'Rising Sun' collar badges on their coats. Australia, unlike most other Commonwealth countries, did not adopt metal regimental badges during the First World War. All units were issued with the Australian Army General Service Badge, better known as the 'Rising Sun’ badge. This insignia is almost always identified with the Australian Imperial Force. Another characteristic of the Australian Imperial Force uniform are the rectangular colour patches worn by all men on this postcard. In March 1915, a new scheme of unit identification was devised to replace the wearing of unit titles. This consisted of cloth colour patches on the upper arms of a soldier’s tunic. The black and white nature of the record means that we cannot establish which battalion these soldiers were part of. However, one of the handwritten signatures on the reverse side of the postcard reads "W.A. Griggs". This was the signature of Sergeant William Archibald Griggs. Further research shows that Griggs was part of the 5th Australian Division Signals Company. Therefore, it is believed these soldiers were part of the ANZAC Signal Companies. The main role of the Signal Companies during World War I was the laying and maintenance of telephone cables and switchboards, used to connect various units in their area. Furthermore, the man standing in the back row, third from the left side, has an Overseas Service chevron patch on his coat. In January 1918, the Australian Imperial Force approved the wearing of the overseas service chevrons which had been adopted by the British Army. These were embroidered or woven inverted chevrons worn above the cuff on the right arm. Due to a shortage of supply, some men had chevrons privately made. For each year of war service, a blue chevron was awarded, and those men who had embarked in 1914 received a red chevron to indicate that year’s service; however, the black and white nature of the postcard makes it difficult to determine what colours are on this man's patch.The record is historically significant due to its connection to World War I. This conflict is integral to Australian culture as it was the single greatest loss of life and the greatest repatriation of casualties in the country's history. Australia’s involvement in the First World War began when the Australian government established the Australian Imperial Force (AIF) in August 1914. Immediately, men were recruited to serve the British Empire in the Middle East and on the Western Front. The first significant Australian action of the war was the Australian Naval and Military Expeditionary Force’s (ANMEF) landing on Rabaul on 11 September 1914. The ANMEF took possession of German New Guinea at Toma on 17 September 1914 and of the neighbouring islands of the Bismarck Archipelago in October 1914. On 25 April 1915, members of the AIF landed on Gallipoli in Turkey with troops from New Zealand, Britain, and France. This specific event holds very strong significance within Australian history. The record has strong research potential. This is due to the ongoing public and scholarly interest in war, history, and especially the ANZAC legend, which is commemorated annually on 25 April, known as ANZAC Day.Black and white rectangular postcard printed on paper.Obverse: Oh 'Serg!' / Reverse: CARTE POSTALE / 6537 / Correspondance / Adresse / w.a. Grigg / J. Fain / Ruckling / R.J Farrar / (?) / Clarke / L (?) / GFFisher / R. M. Forrest / With Compliments / Sgt's Mess / November 1918 /military album, army, aif, uniform, military, wwi, world war i, rising sun badge, william archibald griggs, anzac, signal companies, postcard, patches, chevron

Used in WW2. Basically of german origin and manufacture but 'English' handset suggests capture and use by Australian forces possibly in Middle East Desert warfare.Black Rectangular Metal Box with Lid. Total Height 215mm (with lid closed), Body Height 140mm. Lid Height 75mm.Lid attached by full length Hinge on rear and locking Clip at front.Depth 90mm. Length 275mm. Lid Outside: has overlapping lip to body when closed.Reinforcing metal attachment on left side rolls over to inside of lid and is attached by two screws. Front locking clip is spring loaded and attached to lid by 3 screws. Lid Inside: Flexible metal plate to clip on handset. 2 inscription plates on left and right ends and telephone handset described separately Body Outside:Front: 2 Jack plug points, vertically aligned 85mm from left, 25mm apart either side of mid point of height of bodyprotedted by protective pivot plate. Air vent plate attached with 2 screws adjacent to Jack plug holes (same on Back). Left side at top; metal plate for carry strap (same on right side). carry strap not with item.Right side; hole covered by protective cover plate centred 70mm from base , Wind-Up handle attached (described seoarately. Body Inside: 2/3 filled with visible metal and bakelite components in separate compartment containing unseen working parts. Left side contains morse code key in canvas bag (described separately). Contents Inside Lid. Two schematics of wiring layouts attached to left and right ends. Removable Bakelite handset clipped into postion for carrying, attached cable has 4-pronged attachment connected to main section in body. Contents Inside Body. Most working parts hidden inside metal container. White plastic button 'Pruttaste' is a test button; threaded screws on top for attachments not present.Two pieces of loose wire purpose unknown. Canvas Bag with zip, labelled DD with arrow between (Department of Defence) containing Morse Code Key; wire with large jackplug attachment connected to MC Key through the bag. Jackplug connects via front of body of object. The whole of this item is stored in left inside of body.underside of handset says PRESS KEY WHILE SPEAKING and in smaller font size TELE HD NO 2

This set of Victorian era wooden sand pegs was part of the equipment used by the Rocket Rescue Crew when attending a shipwreck. The broad pegs were designed to give a strong grip on soft sand and soil. The pegs could be used with the sand anchor as well as to give a stronger hold on the tripod holding the hawser. The same design is still available today and is used by the Army and by campers. The rocket rescue crews used a sand anchor at a beach rescue site to weigh down the rescue apparatus. The crew would connect the shackle to the other cable on the anchor and to the loose steel cable to form a triangle with the cable lengths. They would then bury the anchor in about a 0.75-meter trench, keeping the free end of the cable above the surface. This end of the cable was then connected to a block that was attached to the heavy hawser line. The block and a crotch pole were used to keep the hawser line high and taught as the survivors were hauled to shore on a line or in a breeches buoy. Saving lives in Warrnambool – The coastline of South West Victoria is the site of over 600 shipwrecks and many lost lives; even in Warrnambool’s Lady Bay there were around 16 known shipwrecks between 1850 and 1905, with eight lives lost. In 1859 the first Government-built lifeboat arrived at Warrnambool Harbour and a shed was soon built to house it. In 1858 the provision of rocket and mortar apparatus was approved for lifeboat stations in Victoria, and in 1864 a rocket house was built to safely store the rocket rescue equipment. In 1878 the buildings were moved to the Breakwater area, and in 1910 the new Lifeboat Warrnambool arrived with its ‘self-righting’ design. For almost a hundred years the lifeboat and rocket crews, mostly local volunteers, trained regularly to maintain their rescue skills. They were summoned when needed by alarms, gunshots, ringing bells and foghorns. Some became local heroes but all served an important role. By the end of the 1950s, the lifeboat and rescue equipment had become obsolete. Rocket Rescue Method - The Government of Victoria adopted lifesaving methods based on Her Majesty’s Coast Guard in Great Britain. It authorised the first line-throwing rescue system in 1858. Captain Manby’s mortar powered a projectile connected to a rope, invented in 1808. The equipment was updated to John Dennett’s 8-foot shaft and rocket method that had a longer range of about 250 yards. From the 1860s the breeches buoy apparatus was in use. The apparatus was suspended on a hawser line and manually pulled to and from the distressed vessel carrying passengers and items. In the early 1870s Colonel Boxer’s rocket rescue method became the standard in Victoria. His two-stage rockets, charged by a gunpowder composition, could fire the line up to 500-600 yards, although 1000 yards range was possible. Boxer’s rocket carried the light line, which was faked, or coiled, in a particular way between pegs in a faking box to prevent twists and tangles when fired. The angle of firing the rocket to the vessel in distress was measured by a quadrant-type instrument on the side of the rocket machine. Decades later, in about 1920, Schermuly invented the line-throwing pistol that used a small cartridge to fire the rocket. The British Board of Trade published instructions for both the beach rescue crew and ship’s crew. It involved setting up the rocket launcher on shore at a particular angle measured by the quadrant, inserting a rocket that had a lightweight line threaded through its shaft, and then firing it across the stranded vessel, the line issuing freely from the faking board. A tally board was then sent out to the ship with instructions in four languages. The ship’s crew would haul on the line to bring out the heavier, continuous whip line, then secure the attached whip block to the mast or other sturdy part of the ship. The rescue crew on shore then hauled out a stronger hawser line, which the ship’s crew fixed above the whip block. The hawser was then tightened using the block on the shore end of the whip. The breeches buoy and endless whip are then attached to the traveller block on the hawser, allowing the shore crew to haul the breeches buoy to and from the vessel, rescuing the stranded crew one at a time. This set of sand pegs would have been used with sand anchor that is part of the rocket rescue equipment . It is significant for its connection with local history, maritime history and marine technology. Lifesaving has been an important part of the services performed from Warrnambool's very early days, supported by State and Local Government, and based on the methods and experience of Great Britain. Hundreds of shipwrecks along the coast are evidence of the rough weather and rugged coastline. Ordinary citizens, the Harbour employees, and the volunteer boat and rescue crew, saved lives in adverse circumstances. Some were recognised as heroes, others went unrecognised. In Lady Bay, Warrnambool, there were around 16 known shipwrecks between 1850 and 1905. Many lives were saved but tragically, eight lives were lost.Peg or spike; set of twelve wooden pegs, painted red. Pages have a long, thick square shank with bevelled side edges, flat top with broad hook on one side of the top and a point at the other end. A small hole goes from one side to the other side near the centre of the shank, on the face without the hook. flagstaff hill maritime museum & village, flagstaff hill, maritime museum, maritime village, warrnambool, great ocean road, shipwreck, life-saving, lifesaving, rescue crew, rescue, rocket rescue, maritime accidents, shipwreck victim, rocket crew, beach rescue, line rescue, rescue equipment, rocket firing equipment, rocket rescue equipment, rocket apparatus, beach apparatus, breeches buoy, rocket house, rocket equipment, rocket launcher, rocket line, marine technology, beach rescue set, traveller, block, running block, pulley, hawser, faked line, lady bay, warrnambool harbour, port of warrnambool, volunteer lifesavers, volunteer crew, breakwater, rocket rescue method, rocket rescue apparatus, shore to ship, rocket apparatus rescue, stranded vessel, whip line, endless whip, harbour board, sand anchor, rocket set, anchor backer, beach anchor, backer, steel cable, wire cable, sand peg, wooden tent peg, army peg, military peg

This cable tram Gripman’s badge, or driver’s badge, was part of a tram driver’s uniform. The inscriptions on the front of the badge identify it as belonging to Gripman number 14, at the South Melbourne Car House depot of the Tramways Board. The Gripman Badge would be re-issued whenever another Gripman takes over the position. Cable trams were invented in America in 1873. In Melbourne, cable trams were in use from 1885 until 1940, with a network of up to 1200 cable cars or 'dummies' and trailers travelling at around 9.5 miles (15km) per hour along 46 miles (74km) of double tracks. The Gripman drove the dummy car, operating the heavy levers to connect the gripping gears to the cable installed in a slot in the road. To turn at intersections he would skilfully disconnect, freewheel around the corner and carefully reconnect to the continuously operating steel cable. Large winding gears in an Engine House along the line pulled the cable along, powered by steam engines and later electric engines. The gripping gears were in the centre of the car's floor with seating all around the sides, a dangerous place for curious children. , whose worried parents would guide them into the tram that was towed behind the dummy car. The Melbourne Tramways Board operated the cable trams between July 1916 and November 1919 after taking over from the privately operated Melbourne Tramway and Omnibus Company. In 1919, the Melbourne and Metropolitan Tramways Board (MMTB) took over the Tramways Board. Stokes & Sons: - The maker of the badge, Thomas Stokes, migrated to Melbourne from Birmingham in 1854 and set up business in Mincer Lane as a die-sinker, producing medals, tokens, buttons and silverware, and an engraving service. He moved to Flinders Lane in 1856. After a time, in 1894, the business became Stokes & Sons Pty: Ltd, electroplates and badge makers at Post Office Place in Melbourne. The maker's mark 'Stokes & Sons' was made on badges until 1962. LOCAL CONNECTION: -t was common practice to recycle the used cables from the tramway. For example, the Wollaston Bridge in Warrnambool, Victoria, is suspended by recycled cable tram Melbourne. (Other recycled cables were used for fencing wire.) -Portland's cable tram is an example of the cable trams used in Melbourne from 1885 to 1940.This badge was used to identify a Gripman who operated a cable car tram's dummy car for the Tramways Board in Melbourne between 1916 and 1919. It represents the need for people to be able to identify workers in the service industry, a need still addressed today by staff ID badges and digital identification. The badge also represents the period in Melbourne's history when cable cars were used for public transport for over four decades, gradually changing from steam to electric power. Trams still have an important role in Melbourne's public transport. Badge, round hollow metal dome with two open metal guides on the back. A cable tram Gripman (driver) badge with embossed inscriptions on the front and stamped on the back. There is a logo of entwined letters T and B on the front. It identifies Gripman number 14, South Melbourne, Tramway Board. It was made by Stokes & Sons of Melbourne. Impressed into the front: "S / 14 / M" "GRIPMAN" Logo intertwined "T" and "B" Embossed on reverse "STOKES &o SONS"flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, badge, gripman, stokes & sons, numesmatics, tramway, tram, tram driver, uniform, cable tram, identification, cable car driver, tramway board, south melbourne, melbourne tramways board, tb, mtb, mmtb, melbourne and metropolitan tramways board, tramway button, gripman button, id, identification badg, staff badge, name badge, employee, grip car, dummy car

This report lists the depths of water and the consistency of the seabed surrounding the Warrnambool Harbour in October 1929, The information, often referred to as 'soundings', was obtained by Jet Probing,. In earlier days a lead line was used to perform a similar task. The author of the document is unknown. Jet Probing is a method used for underwater archaeology, cable installation and coastal engineering. A jet probe is a machine that produces a strong jet of water that penetrates the layers of sediment on the seabed, determining their depth, thickness and consistency. It provides a survey of the seabed and can be used as an aid to engineering design and construction. The report mentions lining up with the wooden jetty, the end of the breakwater and the leading lights. It mentions sand, loose rock and rock. It tells of stopping work due to the water being too rough, the pipe choking, difficulty in connecting pipes, and pipe joint breaking as it tried to get through the sand, The report in the document is significant for its connection with the Warrnambool Harbour, Warrnambool Breakwater, Warrnambool Jetty and Lady Bay. The report gives figures for the depth and consistency of the water and seabed at a particular point in time and can be used to compart with similar figures taken at different times. The results could determine plans for future engineering works.Report, titled 'Jet Probings, Warrnambool Harbour'. Two pages of cream coloured paper with hand written notes in pen and ink. Report covers three days of Jet Probings, with resulting figures and comments, for the depths of the surroundings of the Warrnambool Harbour. The report is in point form, with some underlining. Dates of recordings are 14-10-29, 15-10-29 and 16-10-29. (1929) The situation of the harbour had become a real problem by 1910 and required continuous dredging. In 1914 the Breakwater was extended but proved to be a failure because the work began to subside and by 1920 about two thirds of the harbour was silted up. Alterations made in the 1920's increased the silting problem. The soundings and Jet Probings were done after the Royal Commission of 1923, when the damaged stonework on the seaward side of the Warrnambool Breakwater, caused by the action of the sea, was the subject of enquiry. A conference between the Public Works, Water Commission and the Harbour Trust concluded that it would less costly to make repairs to prevent further damage rather than replaced the damage portion of the wall. A contract was raised in late 1924 to deposit rubble on the damaged side of the breakwater to minimise the Southern Ocean’s destructive action and work had started by August 1925. By the 1940's the harbour was no longer used. More alterations were made in the 1950's and 1960's. document, depth, warrnambool harbour, 1929, soundings, jet probe, jet probing, seabed, map of seabed, underwater engineering, warrnambool jetty, warrnambool breakwater, breakwater upgrade, leading lights, chart the harbour, flagstaff hill, warrnambool, flagstaff hill maritime museum & village, maritime museum, maritime village, shipwreck coast, lady bay, port of warrnambool, breakwater, jetty, pier, vhr h2024, royal commission, 1923, public works, water commission, harbour trust, victorian harbours

Handwritten notes, appears to have been copied from a guide or book, such as Bradshaws. Provides notes on route numbers, connecting electric trams, a round trip by cable and electric trams (9d), penny sections, through fares and details of 15 different through routes. c1918?Demonstrates copying historic information from publications.Document - 7 quarto sheets - ruled, handwritten, stapled in top left hand corner.cable trams, electric trams, melbourne, round trips, guide books, penny sections

Photo of a cable tram set at the Port Melbourne terminus, with the grip man and conductor on the grip car. Trailer 449. In the background is Station Pier and shipping. The grip car has the destination of Collins St on the front and "Connects with Collins St electric cars" on the side. Yields information about the Port Melbourne cable tram terminus March 1937, prior to its closure soon after.Negative of a cable grip car at the Port Melbourne terminus. - Black and white print also held.Written on rear of album print "Cable tram No. 449 at Port Melbourne terminus" Written on the back of the second copy is "Graham St Port Melbourne on last day of advertised running although they went on for another week. No. 449, 6 March 1937. photo Wal Larsen." In ink "PSM 3" and in pencil in top right hand corner "176"trams, tramways, cable trams, port melbourne, station pier, tram 449

Negative of a cable grip car being hauled by a tractor (in or out) of the South Melbourne tram depot or car sheds. Has the grip in the removed position. In the background is a hotel and a petrol or service station - out of focus. The grip car has the destination of Collins St on the front and "Connects with Collins St electric cars" on the side. Photo Wal Larsen 6/3/1937.Yields information about towing grip trams from a depot by tractor.Negative and a black and white print with details on the rear.Written on rear of album print "Tractor hauling cable dummy out of South Melb. Sheds." On rear of print - "South Melbourne depot with tractor dragging dummy out and into street. (A terrible dull day and a slow camera, not so hot eh!). 6 March 1937. Photo Wal Larsen. " Has number "PSM1" in bottom left hand corner and "58" in top right hand corner.trams, tramways, cable trams, south melbourne depot, grip tram

The photograph shows a section of remnant track at the intersection of Bourke and Spencer Sts that remained until it was removed on 25/8/1987 when connecting curves were installed at Bourke and Spencer Streets, forming a double track triangular junction, in preparation for the conversion of the St Kilda and Port Melbourne railway lines to 'light rail'. This necessitated the removal of the last few metres of cable car track in Melbourne, which had been left in situ at the former Bourke Street terminus as a reminder of bygone days. Shows two inspection pits in the short section of the cable slot. Photo late 1960s after the construction of the Spencer St railway station building. Photographer unknown.Yields information of last section of visible cable tram track in the city area.Black and white photograph on Ilford papertramways, cable trams, track work, bourke st, spencer st, cable track

Until 1960 there were no telephones in Falls Creek. The only access to a phone was at Rocky Valley Camp where the State Electricity Commission (SEC) had an extensive network to Mount Beauty, Bogong and the other camps such as Clover power station and Howman's Gap. There were test points with a phone beside the road where contact could be made to the office in Mount Beauty. The SEC was unconcerned about Falls Creek, so no power was connected until 1960 when Tom Mitchell aired the matter in parliament. Tom was a keen skier. He applied to the Post Master General who was then responsible for telephones as well as mail. The PMG staff came up from Bright and installed an exchange in Diana Lodge. There were only about 15 lines to a post across the road uphill about 20 metres. It was from here that you could put a line from the building into a box where connections were possible. You had to buy a cable from the disposal store. It needed to have an alloy of copper and steel in the wire similar to what the army had used during the war. If the phone failed the owner would have to find the break in the wire, not an easy task in the heavy snow. Then came the telephone itself. Falls Creek was given old-fashioned sets with a hand wound magneto to ring the bell at the exchange. When the operator answered she could then plug a line into another phone line or the exchange in Bright. In the phone were two dry cell batteries that carried the spoken word to the other phone connected. Trunk lines were expensive then, so each trunk call was timed by the minute. The operator would disconnect you after a minute if you did not reply to her question "are you extending?". These telephones were donated by Julian Newton Brown. Julian's Lodge Arundel was known as Falls Creek 11.These telephones are significant because they illustrate the earliest form of technology available to connect Falls Creek Village to other areas.Telephones constructed of polished wood, brass bell, handles and cabling. Designed to operate through a telephone exchange. They operated on two dry cell batteries.Attached to front of telephone: Instructions on how to make or receive a call.falls creek village, falls creek communicaton

One of a series of photographs, taken by Edgar James Dower in the second decade of the twentieth century. Born and raised in Olinda, his family later moved to Surrey Hills. He worked as an adult as a clerk in the city office of the Metropolitan Gas Company, and in his role as a 'collector', he was able to photograph scenes including the construction of tramlines and associated buildings in Kew, Hawthorn, Camberwell and Surrey Hills. Later he established a real estate agency with his brother - the E.J. Dower Real Estate Agency, Dandenong Office.The image is an historically significant record of the development of transport infrastructure which was used to connect Victorians in the first two decades of the twentieth century. This development resulted from increases in population and the consequent extension of Melbourne's suburbs. The photographs, both individually and collectively, richly detail the labour of workers and the tools and machinery used to create and extend Melbourne's public transport network in the years preceding and during World War 1.Digital copy of an original mounted photograph showing a worker standing on a ladder in Glenferrie Road, Hawthorn, working on the overhead electric cables that would be used to power trams on the New Kew tramline.Other railway workers are working on platforms or viewing the man on the ladder. The ladder appears to be only supported by one other worker. "The Don Store" at left is immediately behind the old railway level crossing which can be seen in the distance to the south.Annotated verso: "Preparing for electric trams in Glenferrie Road, near Glenferrie Station, showing railway gates / Taken by E.J. Dower 1914"theme --- travelling by tram, theme -- connecting victorians by transport and communications, glenferrie road -- hawthorn (vic.), railways -- hawthorn

Eight page A4 document, photocopied, stapled in top left hand corner, titled "Trams and Tourism", looking at the use of trams for tourist purposes in Melbourne, bath tickets, walks, beaches, connecting services with paddle steamers, royal park zoo, Beaumaris tramway, circular tickets, Doncaster, round trip tickets, St Kilda, Wattle park chalet, tourist tickets, tourist tours, tourist trams, Melbourne Pageant-Salute to Australia, V214, L and Y class trams, Melbourne Tourist Tram in June 1992 that did not eventuate. Has references and illustrating of tickets. Written by Robert Green 1994. See Reg Item 5675 for a sample cable tram round trip ticket.trams, tramways, tourist trams, tourist ticket, mmtb, the met, zoo tram, beaumaris, wattle park, doncaster

Set of two instructions, duplicated foolscap sheets. Both signed by H. A Wilcox, General Manager. .1 - "Rules and Instructions for Gripmen and Conductors re Electric Lighting of cars and dummies", notes care for lamps, battery leads, failure, electric shock (7 volts) and cautions. Two sheets, Two copies held. Dated 1/3/19. .2 - "Edison Car lighting system - rules for the guidance of employees" - 4 sheets with brass pin in top left hand corner, giving details of connecting the batteries for charging, charging, battery car, methodology of using the rheostat, cleaning, jumper cables, reports, faults and contact electrical foreman Mr. T Dawe. Not dated.trams, tramways, lights, cable trams, batterymen, equipment

Photograph shows MTOCo horse tram No. 30 in Riversdale Road at Auburn Road to Richmond (Hawthorn Bridge) where it will connect with the Bridge Road cable tram. In the background is the Riversdale Hotel. Photo c1900 from the CB Thomas collection.Yields information about the Riversdale Road Hawthorn horse tramway.Black and white photograph with notes on rear.In ink "1" and "K McC"tramcars, tramways, horse tram, tram 30, riversdale road, hawthorn