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The Ed Muirhead Physics Museum
Photograph, Optical Munitions: Notman
Black and white photograph showing young man (Notman) working on graphic designs at a draft board.On front of image in ink: “19” On back of image in pencil: “Notman No. 19” On back of image in ink: “19” -
The Ed Muirhead Physics Museum
Photograph, Optical Munitions: G. Crickmore
Black and white photograph showing Gordon Crickmore using compass. Same photo as 136.On front of image in ink: “16” On back of image in pencil: “No 16 Gordon Crickmore” On back of image in ink: “16” -
The Ed Muirhead Physics Museum
Photograph, Optical Munitions: D. Huey
Black and white photograph Dick Huey at work assembling plate glass for making gla blocks. Same photo as 147On front of image in ink: “27” On back of image in pencil: “No 27” On back of image in ink: “27” -
The Ed Muirhead Physics Museum
Photographs, 2.8 MeV Betatron: Glass Donut
6 colour polaroid photographs showing different angles of Glass donut for 2.8 MEV Betatron (Reg 61) (269.1,269.2, 269.3, 269.4, 269.5, 269.6) Photographs are of Reg 61: Glass donut for 2.8 MeV Betatron -
The Ed Muirhead Physics Museum
Slide rule, Faber-Castell
White Castell rectangular slide rule (270.1) stored in clear plastic Faber Castell case (270.2).On slide rule: printed - “Castell”, On case: stamped - “Made in Germany”, in pen - “451”, Paper label: “Castell 57/89” -
The Ed Muirhead Physics Museum
Slide rule , Castell
Plastic white rectangular Castell slide rule (271.1) stored in green lined rectangular case (271.2).On slide rule in green font: “Castell” -
The Ed Muirhead Physics Museum
Meldometer, Joly
Joly Meldometer The Joly meldometer was created to determine the melting point of minerals. W.E. Wilson, an astronomer and author, stated in 1900 that the Joly meldometer consisted of a ‘a strip of platinum on which minute fragments of any mineral can be placed, while any alteration in its length can be determined by means of a micrometer screw which touches a lever connected with one end of the strip. The strip can be heated by an electric current, and is calibrated by observing the micrometer readings corresponding to the temperatures at which some substances of known melting-points melt’i . One reason why the Joly meldometer was seen as a successful addition to science was the small amount of any substance that it required for testing. Only a minute sample was needed for the instrument to work and so a tiny part could be taken from a delicate item without destroying itii . The instrument was originally manufactured by the Irish company Yeates & Son of Dublin. The Yeates family business was established in the early 1790’s and is thought to have operated until approximately 1922iii . Their business slogan was recorded as ‘Instrument makers to the University’, a slogan which proudly exhibited their relationship with Trinity College, Dublin. The company was located directly opposite Trinity College, the place where the Joly meldometer was created. Working in such close proximity must have assisted this business relationship. The inventor of this meldometer was Irishman John Joly. Joly was born in 1857 at the Church of Ireland Rectory, Hollywood House. His education led him to Trinity College Dublin where, by 1891, he had obtained a Bachelor of Engineering degree as well as a Doctorate of Science. The entirety of his working life appears to have taken place at Trinity College although he is known to have travelled in order to consult with other scientists such as the world renowned Sir Ernest Rutherford. The Joly meldometer was used for a variety of different purposes, with scientists often adapting the instrument to suit their own needs. For instance, the previously mentioned astronomer W.E. Wilson adapted the meldometer to assist him in measuring the radiation of the suniv . Joly used his device in an attempt to ascertain the age of the earth. In 1913, along with Sir Rutherford, Joly came to the conclusion that the earth was approximately 400 million years old. They did this by analysing the decay of radioactivity in minerals. According to our present knowledge of the earth this was a much more accurate date than the dates Joly had previously derived. He had first thought that the earth was 97 million years old due to the volume of sodium in the oceans. Joly’s second analysis of the topic had resulted in the age of 80 million years. This figure was based on the accumulation of sediment. Apart from designing his meldometer, Joly is also remembered for his work with colour photography. In 1894 Joly discovered a method for creating colour photographs from a single platev . He also studied the use of radiation as a treatment for cancer and persuaded the Royal Dublin Society to establish the Radium Institute to assist hospitals. In 1933 Joly passed away at the age of seventy-six. Jacqueline Eager Student Projects Placement, Cultural Collections 2005 iMollan, Charles, Irish National Inventory of Scientific Instruments, Samton Limited, 1995, p. 302. iiJoly, John, 'On the determination of the melting points of minerals, Part 1. Uses of the meldometer', Proceedings of the Royal Irish Academy, Vol. 2., 1891. iiiInstitute for Learning Technologies, "Stephan Mitchell Yeates' http://www.ilt.columbia.edu/projects/bluetelephone/html/yeates.html, accessed on 04.10.2005 ivMollan, Charles, Irish National Inventory of Historic Scientific Instruments, op cit. vMollan, Charles, The Mind and the Hand: Instruments of Science 1685-1932, Samton Limited, Dublin, 1995, p. 34.The following from #2975 in UDE UNIVERSITY COLLEGE DUBLIN ENGINEERING list in the “Irish National Inventory of Historical Scientific Instruments” by Charles Mellon (P/C in file for Cat no 272. “....meldometer as an instrument ‘for the purpose of finding the melting-points of minerals, hence its name. As used by him (Joly), it consists of a strip of platinum,on which minute fragments of any mineral can be placed, while any alteration in its length can be determined by means of a micrometer screw which touches a lever connected with one end of the strip. The strip can be heated by an electric current, and is calibrated by observing the micrometer readings corresponding to the temperatures at which some substances of known melting-points melt’.” Ref. : J. Joly, Proc. Roy. Irish Acad. 3rd series vol 2 (1891),38-64. -
The Ed Muirhead Physics Museum
Photograph, Optical Munitions: T.H. Laby
Part of a series entitled “Optical Munitions - School of Natural Philosophy, 1942-1945”. Black and white photo of T.H. Laby holding a gun sight. Catalogued out of order as 122.2 (Photograph temporarily mislaid and repllaced by a P/C) -
The Ed Muirhead Physics Museum
X-Ray Spectrograph, Laby/Hilger
The spectrograph employs the principle of single crystal Bragg X-Ray Diffraction to measure wavelengths by interpolation from accepted standard lines. It is suitable for the identification and determination of the charateristic emissions of elements and thus for X-Ray spectrum analysis. The instrument was manufactured by ADAM HILGER Ltd. to the design of Professor Laby and is the best preserved instrument surviving from his research activity. A full description is given in the Hilger Pamphlet with the instrument; alternatively see duplicate in Appendix A5,A6 in Vol 2 of Laby ‘s COLLECTED PAPERS.Laby Bibliography by R W Home “Physics in Australia 1945” pp 106-08; also reproduced by permission as Appenix C in “A Man Ahead of his TImes”By E G Muirhead References. nos 45, 41, 47, 52, 53 -
The Ed Muirhead Physics Museum
X-Ray Spectrograph, Laby
This is the prototype of Laby’s X-Ray Spectrograph (cat. no.274) and was constructed in the Nat. Phil. workshop. -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron machinery in white envelope entitled “”Cyclotron Photographs (Duplicate set)’ -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron machinery in white envelope entitled “”Cyclotron Photographs (Duplicate set)’ -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron machinery n white envelope entitled “”Cyclotron Photographs (Duplicate set)’ -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of bench with cyclotron equipment in white envelope entitled “”Cyclotron Photographs (Duplicate set) -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of bench with cyclotron equipment in white envelope entitled “”Cyclotron Photographs (Duplicate set) -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of bench with cyclotron equipment in white envelope entitled “”Cyclotron Photographs (Duplicate set) -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron equipment stored in white envelope entitled “”Cyclotron Photographs (Duplicate set) -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron equipment stored in white envelope entitled “”Cyclotron Photographs (Duplicate set) -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron equipment stored in white envelope entitled “”Cyclotron Photographs (Duplicate set) Very similiar to 236 -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron equipment stored in white envelope entitled “”Cyclotron Photographs (Duplicate set) Very similiar to 235 -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron equipment stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” Very similiar to 238 and 239 -
The Ed Muirhead Physics Museum
Photograph, Cyclotron, Duplicate Set
Black and white photograph of cyclotron equipment stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” Very similiar to 237 and 239 -
The Ed Muirhead Physics Museum
Photograph, Cyclotron (JL Rouse)
Black and white photograph of cyclotron equipment stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” Very similiar to 237 and 238 -
The Ed Muirhead Physics Museum
Photograph, Cyclotron (JL Rouse)
Black and white photograph of cyclotron equipment. Man seen standing next to and indicating equipment. Stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” -
The Ed Muirhead Physics Museum
Photograph, Cyclotron (JL Rouse)
Black and white photograph of cyclotron equipment displayed on bench. Stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” -
The Ed Muirhead Physics Museum
Photograph, Cyclotron (JL Rouse)
Black and white photograph of cyclotron equipment displayed on bench. Stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” -
The Ed Muirhead Physics Museum
Photograph, Cyclotron (JL Rouse)
Black and white photograph of cyclotron equipment displayed on bench. Stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” -
The Ed Muirhead Physics Museum
Photograph, Cyclotron (JL Rouse)
Black and white photograph of cyclotron equipment displayed on bench. Stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” -
The Ed Muirhead Physics Museum
Photograph, Cyclotron (JL Rouse)
Black and white photograph of cyclotron equipment displayed on bench. Stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” -
The Ed Muirhead Physics Museum
Photograph, Cyclotron (JL Rouse)
Black and white photograph of cyclotron equipment displayed on bench. Stored in white envelope entitled “”Cyclotron - Photographs around the vacuum chamber from J.L. Rouse (Feb 1991)” Similiar to 247