Charcoal grey soft covered booklet with views of the Michigan College of Mines. * General View * Hubbell Hall * Mechanical Engineering Building * Mining and Metallurgy Buildings, with Stamp Mill in the Distance * Chemistry Building * College Club and Gymnasium Building * Architects Sketch of Library and Museum Building * Metallurgy Building * Mining Engineering Building * Assaying Course G1 * General Chemistry Course F1 * Inspecting Drill Operations * Mineralogy - COurses W1 and W2 * Railroad Surveying - Course Q1 * Field Geology * Reporting on Power PLants at Tamarack No. 5 Hoist * Sketching Ore Pockets * Pattern Shop * Physics Course * Underground in Champion Mine * QUalitative Chemistry * Field Surveying * Ore Dressing * HYdraulics Course * Machine Shop * Palaeontology and Historical Geology * Just Up from Lake Angeline Mine, Ishpeming Mineralogical Museum * Gymnasium, College Club Building * Lounging Room of College Club Buildingmichigan college of mines, school of mines, michigan, houghton, michigan, f.w. mcnair, united states of america, schools of mines, michigan school of mines

A pocket magnifying glass was a versatile scientific tool. It was ideal for situations in which the specimen was too small to be observed under a magnifying glass and access to a larger microscope would have been impossible.It could be taken on field expeditions and used to examine botanical, zoological and mineralogical specimens. This small magnifying glass could be used for examining specimens of plants or rocks or jewellery.Simple,pocket microscopes had a significant impact on the the general public’s appreciation of both science and the natural world by making the microscopic world accessible and exciting.A small brass pocket magnifying glass with resting arm. The cardboard box is blue / black in colour.magnifying-glass scientific-instrument

Large printed timetable for Technical School examinations in 1901. Subjects included Chemistry, Geology, Asssaying, Hydraulics, Agriculture, Engineering , Mine Surveying, Algebra, Mineralogy, petrology, Botany, Trigonometry, Euclid, Land Surveying, Steam and gas Engines, Applied Mechanics, Drawing, painting, engineering drawing, building construction, architecture, drapery, modelled design, casting clay models, composition of form and colour, Lettering, Wood Carving, historic ornament, Wood Carving. .1) Trade Subjects .2) Other subjects, including artexaminations, technical schools, trades, art, technical art school, timetable, clay modelling, ceramics

A number of blank certificates for the Ballarat School of Mines ballarat school of mines, assaying, assayer, chemistry, metallurgy, mineralogy

Murray Comrie Collection. This photograph is a black and white copy created from a colour original.Black and white photograph being a copy of an Intercolonial Exhibition certificate, won by Tarnagulla Borough Council for mineral specimenstarnagulla, awards, mining, mineralogy, intercolonial exhibition, borough council

The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line). Robert Peele was Professor Emeritus of mining Engineering at the School of Mines, Columbia University.Maroon hardcovered books. .1) Volume 1 - Chapters include Mineralogy, Geology and Mineral Deposits, Earth Excavation, Explosives, Rock Excavation, Tunneling, Shaft Sinking in Rock, Shaft sinking in Unstable and Waterbearing Ground, Boring, Underground Transport, Mine Ventilation. .2) Volume 2 - Chapers include Compressed Air Practice, Electric Power for mine Service, Surveying,Underground Surveying, Mine Geologic Maps and models, Cost of mining, Mining Laws, Ore sampling, Assaying, Aerial Tramways and Cableways, Gold Amalgamation and Cyanidation, etc.Inside front cover "Charles Bacon"charles bacon, mining engineering, mining, engineering, university of nevada, mackay school of mines, explosives, timbering

The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line). William Emmons was Professor and head of Geology and Mineralogy at the University of Minnesota; Director of Minnesota geological Survey; and previously Geologist, Section of Metalliferous Deposits, United States Geological Survey.Maroon soft covered book of 529 pages. Chapters include Magmatic Segregations, Pegmatities, Hypothermal Deposits, Sedimentary Depostis, Openings in Rocks, Metasomatic Processes, Mineral Associations and more.Inside front cover "Charles Bacon 1940 Lincoln Hall Ass. University of Nevada Reno, Nevada"charles bacon, mining engineering, metallurgy, university of nevada, mackay school of mines, geology, california

A stone’s throw from Land’s End, this is the most westerly Area of the Site. St Just is characterised by big skies, jagged rocks, stark moorland, and iconic clifftop engine houses perched above the Atlantic in some incredible locations. No wonder this dramatic setting has inspired generations of artists, writers and photographers. World-famous for their mineralogy, the mining sites here are extremely well preserved – as is the sense of community amongst the people whose lives they once dominated. This Area’s unique geography and mineralogy meant that undersea mining was more concentrated here than anywhere else in the world in the 18th and 19th centuries. The oldest surviving Cornish beam engine (constructed in 1840) remains in its original engine house at Levant, restored and still working under steam. Geevor, one of the last mines to close in Cornwall (1990), was saved from demolition and is now the largest metalliferous mine site open to the public in the UK. The historic mining town of St Just is home to characteristic rows of granite mine workers’ cottages, public squares, shops, cafés, art galleries and, just off Bank Square, a medieval grassed amphitheatre – the Plen an Gwary or ‘playing place’.st just, world heritage, ellis, penrose, cornwall, mining, mines

A stone’s throw from Land’s End, this is the most westerly Area of the Site. St Just is characterised by big skies, jagged rocks, stark moorland, and iconic clifftop engine houses perched above the Atlantic in some incredible locations. No wonder this dramatic setting has inspired generations of artists, writers and photographers. World-famous for their mineralogy, the mining sites here are extremely well preserved – as is the sense of community amongst the people whose lives they once dominated. This Area’s unique geography and mineralogy meant that undersea mining was more concentrated here than anywhere else in the world in the 18th and 19th centuries. The oldest surviving Cornish beam engine (constructed in 1840) remains in its original engine house at Levant, restored and still working under steam. Geevor, one of the last mines to close in Cornwall (1990), was saved from demolition and is now the largest metalliferous mine site open to the public in the UK. The historic mining town of St Just is home to characteristic rows of granite mine workers’ cottages, public squares, shops, cafés, art galleries and, just off Bank Square, a medieval grassed amphitheatre – the Plen an Gwary or ‘playing place’.st just, world heritage,, ellis,, penrose, cornwall, mining, mines

A stone’s throw from Land’s End, this is the most westerly Area of the Site. St Just is characterised by big skies, jagged rocks, stark moorland, and iconic clifftop engine houses perched above the Atlantic in some incredible locations. No wonder this dramatic setting has inspired generations of artists, writers and photographers. World-famous for their mineralogy, the mining sites here are extremely well preserved – as is the sense of community amongst the people whose lives they once dominated. This Area’s unique geography and mineralogy meant that undersea mining was more concentrated here than anywhere else in the world in the 18th and 19th centuries. The oldest surviving Cornish beam engine (constructed in 1840) remains in its original engine house at Levant, restored and still working under steam. Geevor, one of the last mines to close in Cornwall (1990), was saved from demolition and is now the largest metalliferous mine site open to the public in the UK. The historic mining town of St Just is home to characteristic rows of granite mine workers’ cottages, public squares, shops, cafés, art galleries and, just off Bank Square, a medieval grassed amphitheatre – the Plen an Gwary or ‘playing place’.st just, world heritage, ellis, penrose, cornwall, mining, mines

A stone’s throw from Land’s End, this is the most westerly Area of the Site. St Just is characterised by big skies, jagged rocks, stark moorland, and iconic clifftop engine houses perched above the Atlantic in some incredible locations. No wonder this dramatic setting has inspired generations of artists, writers and photographers. World-famous for their mineralogy, the mining sites here are extremely well preserved – as is the sense of community amongst the people whose lives they once dominated. This Area’s unique geography and mineralogy meant that undersea mining was more concentrated here than anywhere else in the world in the 18th and 19th centuries. The oldest surviving Cornish beam engine (constructed in 1840) remains in its original engine house at Levant, restored and still working under steam. Geevor, one of the last mines to close in Cornwall (1990), was saved from demolition and is now the largest metalliferous mine site open to the public in the UK. The historic mining town of St Just is home to characteristic rows of granite mine workers’ cottages, public squares, shops, cafés, art galleries and, just off Bank Square, a medieval grassed amphitheatre – the Plen an Gwary or ‘playing place’.st just, world heritage, ellis, penrose, cornwall, mining, mines

A stone’s throw from Land’s End, this is the most westerly Area of the Site. St Just is characterised by big skies, jagged rocks, stark moorland, and iconic clifftop engine houses perched above the Atlantic in some incredible locations. No wonder this dramatic setting has inspired generations of artists, writers and photographers. World-famous for their mineralogy, the mining sites here are extremely well preserved – as is the sense of community amongst the people whose lives they once dominated. This Area’s unique geography and mineralogy meant that undersea mining was more concentrated here than anywhere else in the world in the 18th and 19th centuries. The oldest surviving Cornish beam engine (constructed in 1840) remains in its original engine house at Levant, restored and still working under steam. Geevor, one of the last mines to close in Cornwall (1990), was saved from demolition and is now the largest metalliferous mine site open to the public in the UK. The historic mining town of St Just is home to characteristic rows of granite mine workers’ cottages, public squares, shops, cafés, art galleries and, just off Bank Square, a medieval grassed amphitheatre – the Plen an Gwary or ‘playing place’.st just, world heritage, ellis, penrose, cornwall, mining, mines

A stone’s throw from Land’s End, this is the most westerly Area of the Site. St Just is characterised by big skies, jagged rocks, stark moorland, and iconic clifftop engine houses perched above the Atlantic in some incredible locations. No wonder this dramatic setting has inspired generations of artists, writers and photographers. World-famous for their mineralogy, the mining sites here are extremely well preserved – as is the sense of community amongst the people whose lives they once dominated. This Area’s unique geography and mineralogy meant that undersea mining was more concentrated here than anywhere else in the world in the 18th and 19th centuries. The oldest surviving Cornish beam engine (constructed in 1840) remains in its original engine house at Levant, restored and still working under steam. Geevor, one of the last mines to close in Cornwall (1990), was saved from demolition and is now the largest metalliferous mine site open to the public in the UK. The historic mining town of St Just is home to characteristic rows of granite mine workers’ cottages, public squares, shops, cafés, art galleries and, just off Bank Square, a medieval grassed amphitheatre – the Plen an Gwary or ‘playing place’.st just, world heritage, ellis, penrose, cornwall, mining, mines

This book contains the report from the select committee on Castlemaine and Sandhurst water supply; with the proceedings of the committee, minutes of evidence and appendices. It also contains the report Of the Engineer-In-Chief of Railways, and reply of the Chief Engineer of Water Supply on the works constructed by the Victorian Water Supply Department, presented to both houses of parliament by His Excellency’s command. Ferdinand M. Krause, was a lecturer at the Ballarat School of Mines in Geology Mineralogy Mining Engineering and Surveying. He was a Fellow of the Geological Society and a Fellow of the Linnian Society. He was assistant engineer for the Ballaarat and Ballarat East Water Supply Committee and helped plan local reservoirs.A brown cloth hard cover, foolscap book with leather spine. Title is written in black on the title page. "Water Supply Reports" is engraved in gold on spine. It includes a table showing the monthly and yearly rainfall and shade temperature at Ballarat, 2nd February, 1885. It also includes two reports and two replies, a map No.7082.2 of Victorian Water Supply, Castlemaine and Sandhurst district general plan including lines of Aqueduct, Reservoirs. No. 7082.3 of Victorian Mining districts, Mining Divisions and The Gold Fields in 1866 - includes districts to be supplied under the Waterworks Act, 1965. It also includes: *Report of the Engineer-in-chief of Railways and Reply of the Chief Engineer of Water Supply on the works constructed by the Victorian Water Supply Department, 1869. * Coliban Water Scheme, 1864 * Ballarat and Ballarat East Water Supply (1869) including the Ballarat Water Supply List containing names of occupiers and nature of improvements on lands comprised within the proposed reserve of Gong Gong Reservoir, Ballaarat. At Warrenheip the names included: Honora McCallin, William Honan, C. McMahon, Patrick McMahon, J.P. Beach, J.H. Smith, Michael Nestor, Martin Quinn, Martin McIntyre, Robert Higgins, Coleman Kane, Robert Bond. At Ballarat: William Clarke, Richard White, John Hosking, Wesleyan Chapel, J. Hewitt, Robert McRobinson. At Bungaree: John Pullin, John Llewellyn. William Daw, Smith and Wynne, William Brough, A. Alexander. * Ballarat and Ballaarat East Water Supply report upon the advisability, or otherwise, of constructing a reservoir at the junction of the Yarrowee Creek and Gile's Creek, upon a site known as Gile's Reservoir (printed by Frank Pinkerton). This report has numerous notes written on it (most probably by Krause) and includes the capacity of Harry Beale's Reservoir, Pimcott's Reservoir and the Proposed Gong Gong Reservoir. * Statement as to the position of the Ballaarat and Ballaarat East Borough Councils in Connection with Water Supply, September 1869. * Ballarat and Ballaarat East Water Supply - General Statement upon the Ballaarat and Ballaarat east Scheme of Water Supply. Includes information on Moorabool reservoir, Harry Beale's Reservoir, Lal Lal Creek, Two Mile Creek, Beale's Dam, Yarrowee Creek, Gong Gong Reservoir, Kirk's Dam, Devil's Creek, Moorabool Creek. Additional handwritten notes (probably by Krause) * Engineer's Report on the resolution of the COmmittee of Water Supply, of the 7th July 1868. The report refers to the Country around Mount Warrenheip. Names mentioned are L. Abraham, Great North-West Gold Mining Company, Border Sawmills, Ferdinand Krause, Ohlfsen Bagge, W.H. Shaw, A signature by "Ferdinand M. Krause" at the top corner of the title page. A few pages have handwriting on the margins, it is believed to be his handwriting. water supply victoria, castlemaine directories, sandhurst directories, ballarat directories, james blackburn, edward wardle, daylesford water race, c j taylor, george avery fletcher, bagge, ohlfsen bagge, george foote, john h reilly, ambrose johnson, george francis, timber preservation, james forbes, alfred surplice, malcolm carmichael, robert adams, frederick hugh thomas, h o christerpherson, william downe, thomas lawrence brown, francis hadgson nixon, strangways, guildford, maldon, muckleford, lauriston, malmesbury, franklinford, walmer, strathloddon, downe, ferdinand krause, m7082, trentham, castlemaine, drummond, metcalfe, sutton grange, lockwood, ravenswood, mandurang, yandoit, c.h. ohlfsen bagge, moorabool reservoir, gong gong reservoir, harry beale's reservoir, pincott reservoir, frank pinkerton, water

This publication consists of many Decades which contain "figuers and descriptions of the fossil organic remains to be used for the determination of the geological ages of the different geological formations of the country." (p. 3). Frederick McCoy was born in Dublin, Ireland in 1817. He was a Professor of Natural Sciences, University of Melbourne 1854-1899. McCoy lectured in geology, zoology, chemistry, mineralogy, geography and botany. In 1858 He became the Director of the National Museum of Victoria and the President of the Royal Society of Victoria in 1864. In 1888, McCoy was awarded FRS for work in Palaeontology in Ireland, England and Australia. He died in his office while correcting examination papers in 1899A Paperback cover book. Decade IV. Title is written in black on front cover and on title page. At head of title: Geological Survey of Victoria. Illustrations, plates in b/w; 32 p. It includes figures and descriptions of Victorian Organic Remains and contents of Decades on the back cover of the book.australia palaeobotany, victoria palaeontology, geological survey of victoria, frederick mccoy, organic remains

This publication consists of many Decades which contain "figuers and descriptions of the fossil organic remains to be used for the determination of the geological ages of the different geological formations of the country." (p. 3). Frederick McCoy was born in Dublin, Ireland in 1817. He was a Professor of Natural Sciences, University of Melbourne 1854-1899. McCoy lectured in geology, zoology, chemistry, mineralogy, geography and botany. In 1858 He became the Director of the National Museum of Victoria and the President of the Royal Society of Victoria in 1864. In 1888, McCoy was awarded FRS for work in Palaeontology in Ireland, England and Australia. He died in his office while correcting examination papers in 1899.A Paperback cover book. Decade v. Title is written in black on front cover and on title page. At head of title: Geological Survey of Victoria. Illustrations, plates in b/w; 41 p. It includes figures and descriptions of Victorian Organic Remains and contents of Decades on back cover.Stamped Ballarat East Public Library"australia palaeobotany, victoria palaeontology, geological survey of victoria, frederick mccoy, organic remains, ballarat east library, ballarat east public library

This publication consists of many Decades which contain "figuers and descriptions of the fossil organic remains to be used for the determination of the geological ages of the different geological formations of the country." (p. 3). Frederick McCoy was born in Dublin, Ireland in 1817. He was a Professor of Natural Sciences, University of Melbourne 1854-1899. McCoy lectured in geology, zoology, chemistry, mineralogy, geography and botany. In 1858 He became the Director of the National Museum of Victoria and the President of the Royal Society of Victoria in 1864. In 1888, McCoy was awarded FRS for work in Palaeontology in Ireland, England and Australia. He died in his office while correcting examination papers in 1899.A Paperback cover book. Decade VI. Title is written in black on front cover and on title page. At head of title: Geological Survey of Victoria. Illustrations, plates in b/w; 42 p. It includes figures and descriptions of Victorian Organic Remains and contents of Decades at back of the book.australia palaeobotany, victoria palaeontology, geological survey of victoria, frederick mccoy, organic remains, john ferres

This particular specimen was recovered from two hundred feet down in the Golden Mile in Kalgoorlie, Western Australia. The Golden Mile, named after the estimated sixty million ounces of gold worth around one hundred billion dollars, was the birthplace of the largest gold rush in Australia almost one hundred and thirty years ago when William Brookman and Samuel Pearce leased the Great Boulder mine. The Golden Mile is also the home of the Super Pit, Australia's most well-known mine.The majority of gold deposits will form as a native metal, however, on occasion, it can form a compound with another element, in this case, sulphur. Therefore, this specimen is a rare example of gold naturally forming into a compound mineral with sulphur. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A small gold-sulphide ore mineral specimen in shades of silver and grey with flecks of gold. Precious metals are often found in Sulphide Ores, as sulphides usually bind to these metals. They are also extremely symmetrical in crystaline form. Gold-Sulphide Ore occurs when gold forms a natural compound with other elements. In this form, gold can be present in one of two ways. It can be fully immersed in the sulphide, or a portion may be partially free. This specimen has minimal gold visible, with only a few flecks being partially visible.burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, gold-sulphide ore

The Ballarat School of Mines was the first Technical School on Australia..1) Ballarat School of Mines Annual Report .2) Ballarat School of Mines calendar The Ballarat School of Mines Calendar and Annual Report 1896. Associateship of The School, Calendar for 1896, Certificates Granted by Education Department 1894, Certificates Issued by The School 1895, Certificates Issued Prior to 1895, Certificates Issued by Education Department 1895, Examiners, Examination Fees, Fees, Honorary Correspondents, Life Governors, Meteorological Observations, Number of Students attended The School, Office Bearers, Professors and Lecturers, Report of the Superintendent of Laboratories, Report of the Professor of Mineralogy, Geology and Botany, Report of the Professor of Engineering, Report of the Lecturer on Mathematics, Report of the Instructor in Engineering Drawing, Report of the Lecturer on Electricity, Report of the Teacher of Drawing, Report of the Lecturer in Veterinary Science, Statement of Receipts and Expenditure for year 1895, Statistics - Student attending Lectures, Subscriptions and Donations, Subjects Included in Regulations Technical Schools, Time Tableballarat school of mines, examiners, examination fees, fees, honorary correspondents, life governors, meteorological observations, number of students attended the school, office bearers, professors and lecturers, report of the superintendent of laboratories, report of the professor of mineralogy, geology and botany, report of the professor of engineering, report of the lecturer on mathematics, report of the instructor in engineering drawing, report of the lecturer on electricity, report of the teacher of drawing, report of the lecturer in veterinary science, statement of receipts and expenditure for year 1895, statistics - student attending lectures, subscriptions and donations, subjects included in regulations technical schools, time table, annual report, calendar, andrew anderson j.p. - president, hon. r. t. vale - vice president, r. denham pinnock - vice president, the hon. sir w. j. clarke - trustee, the hon. john warrington rogers - trustee, the right reverend samuel thornton - trustee, andrew anderson - trustee, james millhinch - trustee, james oddie - trustee, the hon. henry cuthbert - honorary solicitor, r. g. middleton - honorary treasurer, charles kent - auditor, fred. j. martell - director and registrar, professor alf. mica smith - chemistry, metallurgy, natural philosophy, professor purdie - geology, mineralogy, principles of mining, professor g. j. dawbarn - mine and land surveying, mining mechanics, hydraulics, civil engineering, applied mechanics, j. rowe - practical mining, w. huey steele - electrical technology, electricity and magnetism, d. walker - chemistry and natural philosophy, w. e. bennett - mathematics, henry j. hall - freehand and perspective drawing, a. e. c. kerr - mechanical drawing (machine construction and design), j. f. usher - paleontology, zoology, materia medica, professor purdie - botany, george clegg - building construction, l. hart - photography, h. g. a. brown - carpentry, r. e. weir - veterinary science, daniel walker, henry cuthbert, james millhinch, jams oddie, j.f. usher

Hector Brickbill paid 100 guineas to the Ballarat School of mines to be admitted as a Student-Assistant as part of a course of instruction in Chemistry, Metallurgy, Geology, Mineralogy, Surveying and Electrical Science. The indenture was for a three year period and required the student-assistant to undertake 40 hours of diligent and faithful work at the Ballarat School of Mines. Not less than 24 hours per week was to be devoted to instruction such as lectures at The School, and not less than 20 hours was to be devoted to the service of The School upon duties in connection with the Laboratories and Museum under the direction of a Professor. Upon completion Hector Brickbill became an Associate of the Ballarat School of Mines, and could put the letters ASMB after his name. .1) Printed indenture document which has been folded in half. Hand written sections have been filled out on the printed document. The indenture is between Andrew Anderson, President of the Ballarat School of Mines, and Hector G. Brickhill of Launceston, Tasmania. .2) Blue Ballarat School of Mines envelopehector g. brickhill, alumni, andrew anderson, ballarat school of mines indenture, ballarat school of mines student-assistant undenture, associate

This specimen was recovered from Adelong, NSW. The initial discovery of gold at Adelong by a Mr Williams took place in 1857. Much of the area is underlain by granitic rocks, while at Adelong itself a prominent norite intrusive body occurs. To the west of Adelong is a belt of intermediate to mafic igneous rocks and sediments which extends from Batlow in the south to at least as far north as the Snowy Mountains Highway. Around 26 tonnes of gold was found at the Adelong goldfield from its discovery in the 1850s until the last miners left in the 1940s. Pyrite has the formula of FeS2 and forms as an isometric (cube) form. It is a common occurring material and is often mistaken for gold, now colloquially known as ‘fool’s gold’. Pyrite that has strongly crystallised is considered stable, but the mineral has the potential to oxidise and decay. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.Pyrite is iron sulphide (also known as “fool's gold”) which is commonly found in slates.Existing Label: 104 /burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, pyrite, adelong

Civil engineer and geologist Ferdinand Moritz Krause lecturered at the Ballarat School of Mines from 1880 to 1895. He was born at Kassel, Germany on 24 February 1841, the youngest son of Frederich Wilhelm Krause. Ferdinand Krause married Amy Augusta Dimock. He died in South Africa 16 June 1918. In June 1880 Krausé was appointed to the Ballarat School of Mines as lecturer in 'geology, palaeontology, mineralogy, electricity, magnetism, scientific mining, geological and topographical surveying' and as museum curator. In 1881 he was appointed Professor of Geology and in 1892 was elected president of the Staff Association. He was held in high repute by his students and also known as a keen musician. He resigned from the School of Mines to be lecturer in mining at the University of Melbourne from June 1895 to January 1897. Whilst at Ballarat in 1887-90 he had completed geological maps and reports on the parishes of Haddon, Carngham, Scarsdale, Lillerie, Smythesdale and Comeralghip; these were published in 1898. The Institute of Surveyors elected him a member in 1891. His Introduction to the study of Mineralogy for Australian readers was published in Melbourne in 1896. In January 1897 he became manager of the General Gordon mine near Kalgoorlie. In 1900 he contributed an article to the Ballarat School of Mines Students' Magazine on the mining geology of Kalgoorlie. Invited by a former student, George Denny, Krausé left for South Africa in 1901. His last work was a geological map of the Barberton area, Transvaal, published in March 1918. He died on 16 June, survived by his wife, three sons and a daughter. (http://adb.anu.edu.au/biography/krause-ferdinand-moritz-3971, accessed 20 November 2018) Black and White photograph of the head and shoulders of Professor Ferdinand Krause of the Ballarat School of Mines.ballarat school of mines, ferdinand krause, geology, fm krause, krause, ballarat school of mines museum

Staff Members of the Ballarat School of MinesA black and white photograph showing 18 men. Standing L-R: S.B. Vial (Chemistry); W. Doepel (Clerk); Alfred E.C. Kerr (Mechanical Engineering); Arthur Garrard (Battery Manager); Henry Hall (Drawing); W. Kerr Grant (Mathematics); C.E. Campbell (Photography); J.M. Sutherland (Electricity); H.R. Murphy (Assayer); Charles A. Dean (Cyanide Works). Sitting: Daniel Walker (Chemistry); Thomas S. Hart (Mineralogy & Curator); Fred. J. Martell (Registrar); Alfred Mica Smith, Senior Professor (Chemistry, Metallurgy, etc); J.S. Dawburn (Engineering & Surveying); Dr J.F. Usher (Materia Medica). Seating (Front): P.A. Osborne (Assistant Assayer); Godfrey Hart (Museum). .2) is a framed copy of the photograph in a carved timber from from Peake's BallaratFramer's plate 'Peake's Ballarat' Framed mount 'The Ballarat School of Mines, Staff 1900'ballarat school of mines, alfred mica smith, daniel walker, thomas hart, s.b. vial, w doepel, alfred kerr, arthur garrard, henry hall, w kerr grant, ce campbell, john sutherland, hr murphy, charles dean, fred martel, j.s. dawburn, j.f. usher, p.a. osborne, godfrey hart, c.e. campbell, w. kerr grant, kerr grant

This specimen was recovered from Sedgwick, VIC. Spotted slate is a fine-grained porphyroblastic metamorphic rock with a number of compounds including muscovite, quartz, graphite with cordierite poikiloblasts and more. The cordierite poikiloblasts are rounded crystals that size up to 2.5 mm. the growth of these crystals is in response to metamorphism of low to medium intensity. The town Sedgwick was named after British geologist Adam Sedgwick This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid rectangular hand-sized spotted slate specimen in a shade of light grey with darker flecks throughout Spotted Slate / Locality: Sedgwick Victoria | This is an early specimen / from the Quarter sheet / map. See sample 62 / page 18. Described as 'Spotted Slate' but these / days we would call it spotted hornfels / C. William 15/4/21 slate, spotted slate, victoria, beechworth, burke museum, geological specimen, mineralogy, sedgwick, sedgwick victoria, spotted slate specimen

This specimen is from Barefoot Hills, Victoria. Sandstones are economically important as major reservoirs for both petroleum and water, as building materials, and as valuable sources of metallic ores. Most significantly, they are the single most useful sedimentary rock type for deciphering Earth history. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A sedimentary rock composed mostly of quartz sand. Sandstone is the second most common sedimentary rock after shale. Sandstones consist of sand-sized grains principally quartz, feldspar and rock fragments. The two major classes of sandstone are arenite and wacke. the colour of sandstone varies from grey, yellow, red and white reflecting the variation in mineral content and cement and is gritty to touch (like sandpaper).Geological survey / R.... S 61 / Loc Bareboot Hills / Sheet / 24SE / 94 /burke museum, beechworth, indigo shire, beechworth museum, geological, geological specimen, mineralogy, sandstone, yellow sandstone, victoria, barefoot hills

Gold usually is found as a native metal, but it also forms minerals with tellurium, sulphur, or selenium. The gold-bearing minerals that contain tellurium are called tellurides. Kalgoorlie, Western Australia contains greater than 1500 tonnes of gold.Seventy to seventy-five percent of the deposit occurs as native gold, but a further twenty percent appears as tellurides. What remains is in the form of 'invisible' gold. Extracting gold from telluride minerals, such as calaverite, which contains around forty-two percent gold, has produced approximately three hundred tonnes of gold. Prior to 1896, rocks containing tellurides were not recognised as rich gold ores, and were discarded.This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A hand-sized silvery to pyrite-yellow striated mineral containing tellurium and goldburke museum, beechworth, beechworth museum, geological, geological specimen, mineralogy, telluride, tellurite, gold-bearing, kalgoorlie, tellurium