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193285420New York: Brewer Warren & Putnam 1932. First. hardcover. very good-. Some b/w illustrations. 447 pages. Thick 8vo red-lettered blue cloth small stain on front cover. New York: Brewer Warren & Putnam 1932. First edition. A very good- copy.<br/> <br/> Brewer, Warren & Putnam unknown
1426904991.Ghardcover. Good. Access codes and supplements are not guaranteed with used items. May be an ex-library book. hardcover
1914111891914. S.ber. Akad. Wiss. Berl. 1914. - Berlin 1914 8° pp.169-190 7 Fig. orig. Broschur; Umschl. etw. angeschm. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation particularly in the infrared. In 1900 he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. Hans Joachim von Wartenberg 1880-1960 Chemiker für Anorganische Chemie und Physikalische Chemie. unknown
1921396021921. S.ber. Akad. Wiss. Berl. 1921/37-39. - Berlin 1921 8° pp.589-692 orig. Broschur; frisches Exemplar. unknown
3662343509.Gpaperback. Good. Access codes and supplements are not guaranteed with used items. May be an ex-library book. paperback
1910111811910. S.ber. Akad. Wiss. Berl. 1910. Berlin 1910 8° pp.1122-1137 5 Fig. orig. Broschur. unknown
1898111801898. Am. J. Sc. 5. - 1898 8° pp.33-46 5 Fig. orig. Broschur. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation. particularly in the infrared. In 1900j he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. Augustus Trowbridge 1870-1934 was a physics professor and dean at Princeton University. unknown
1912111851912. S.ber. Akad. Wiss. Berl. 1912. - Berlin 1912 8° pp.256-274 9 Fig. orig. Broschur. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation particularly in the infrared. In 1900 he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. Gustav Ludwig Hertz 1887-1975 was a German experimental physicist and Nobel Prize winner for his work on inelastic electron collisions in gases and a nephew of Heinrich Hertz. Biography He received his doctorate in 1911 under Heinrich Leopold Rubens. From 1911 to 1914 Hertz was an assistant to Rubens at the University of Berlin. It was during this time that Hertz and James Franck performed experiments on inelastic electron collisions in gases known as the Franck-Hertz experiments and for which they received the Nobel Prize in Physics in 1925. See: Ewald P.P. Zu Rubens und Hertz Note "Über den Einfluß der Temperatur auf die Absorption langwelliger Wärmestrahlen in einigen festen Isolatoren". Naturwissenschaften 10 1057-1058 1922 unknown
1913111871913. S.ber. Akad. Wiss. Berl. 1913. - Berlin 1913 Gr.8° pp.802-809 4 Fig. orig. Broschur. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation particularly in the infrared. In 1900 he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. Otto von Baeyer 1877-1946 was a German physicist. Otto Hahn and Lise Meitner together with Otto von Baeyer focussed on the magnetic deflection of ß-rays. They succeeded for the first time in obtaining beta-ray spectra from a series of radioactive emitters. unknown
1913111861913. S.ber. Akad. Wiss. Berl. 1913. - Berlin 1913 8° pp.513-549 14 Fig. orig. Broschur. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation particularly in the infrared. In 1900 he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. unknown
1911111831911. S.ber. Akad. Wiss. Berl. 1911. - Berlin 1911 8° pp.666-677 5 Fig. orig. Broschur. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation particularly in the infrared. In 1900 he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. Otto von Baeyer 1877-1946 was a German physicist. Otto Hahn and Lise Meitner together with Otto von Baeyer focussed on the magnetic deflection of ß-rays. They succeeded for the first time in obtaining beta-ray spectra from a series of radioactive emitters. unknown
1911111841911. S.ber. Akad. Wiss. Berl. 1911. - Berlin 1911 8° pp.339-345 1 Fig. orig. Broschur. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation particularly in the infrared. In 1900 he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. Otto von Baeyer 1877-1946 was a German physicist. Otto Hahn and Lise Meitner together with Otto von Baeyer focussed on the magnetic deflection of ß-rays. They succeeded for the first time in obtaining beta-ray spectra from a series of radioactive emitters. unknown
1911111821911. Verh. Dtsch. Physik. Ges. 13/ 2. - Braunschweig Druck und Verlag von Friedrich Vieweg und Sohn 1911 8° pp.102-110 3 Fig. orig. Broschur. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation particularly in the infrared. In 1900 he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. unknown
1915111901915. S.ber. Akad. Wiss. Berl. 1915 . Berlin 1915 8° pp.4-20 1 Falttafdel orig. Broschur. Rare Offprint! Heinrich Rubens 1865-1922 physicist. He is known for his measurements of the energy of black-body radiation which led Max Planck to the discovery of his radiation law. This was the genesis of quantum theory. Rubens worked on electromagnetic radiation particularly in the infrared. In 1900 he proved through measurements with Ferdinand Kurlbaum that Wien's law of radiation does not apply to the long-wave range. These precise investigations into the radiation of black bodies were essential for the development of the origins of quantum theory by Max Planck. He used the Auer gas incandescent light and proved that Planck's law of radiation also applies in the infrared part of the spectrum. He developed the method of Rubens' residual rays to generate infrared radiation and the Rubens flame tube named after him. He was regarded as a masterful experimenter who did not spare himself in his experiments he carried out the precision measurement of blackbody radiation for a long time at night in winter in an unheated laboratory in favourable weather conditions. His lecture experiments were also considered exemplary. unknown
103077The Architectural Press London. 1986. First edition. The Architectural Press London. 1986. Large square hardback with dust-wrapper. Black and white photographs drawings and plans. Index. Clean and sound. hardcover
1986387313London England : The Architectural Press 1986. 1st edition. Hardcover. Fine cloth copy in a near-fine very slightly edge-dulled dust wrapper. Remains particularly well-preserved overall; tight bright clean and strong. Physical description; 321 pp. Contents; ACKNOWLEDGEMENTS; SOURCES OF ILLUSTRATIONS; CHAPTER ONE. EARLY YEARS; CHAPTER TWO. CHIEF ASSISTANT; CHAPTER THREE. ARCHITECT AND CRAFTSMAN: I Workmanship in Theory and Practice; CHAPTER FOUR. ARCHITECT AND CRAFTSMAN: II Buildings; STANMORE HALL STANMORE MIDDLESEX 1891 Plates 63-66; AVON TYRRELL CHRISTCHURCH HAMPSHIRE 1891 Plates 67-73; THE HURST SUTTON COLDFIELD WARWICKSHIRE 1894 Plates 74-80; MELSETTER HOUSE HOY ORKNEY 1898 Plates 82-93RYSA LODGE HOY c.1900 Plates 96 and 97THE EAGLE INSURANCE BUILDINGS COLMORE ROW BIRMINGHAM 1900 Plates 98-105; HIGH COXLEASE LYNDHURST HAMPSHIRE 1900 Plates 106-109; SS COLM AND MARGARET MELSETTER HOY 1900 Plates 110-116; ALL SAINTS' CHURCH BROCKHAMPTON ROSS-ON-WYE 1902 Plates 117-124; THE LIVERPOOL CATHEDRAL COMPETITION Plates 125-129; THE CENTRAL SCHOOL OF ARTS AND CRAFTS SOUTHAMPTON WAY LONDON 1907; CHAPTER FIVE. WORK FOR THE LONDON COUNTY COUNCIL; CHAPTER SIX. ARCHITECTURAL EDUCATION; CHAPTER SEVEN. THE ROYAL COLLEGE OF ARTCHAPTER EIGHT. WESTMINSTER ABBEY AND THE CARE OF OLD BUILDINGSTHE SOCIETY FOR THE PROTECTION OF ANCIENT BUILDINGS SPAB; WESTMINSTER ABBEY; CHAPTER NINE. THEORIST AND WRITER; CHAPTER TEN. LETHABY - A RETROSPECT; LIST OF ABBREVIATIONS; NOTES TO TEXT; APPENDIX A: THE MODERN ARCHITECTURE CONSTRUCTIVE GROUP; APPENDIX B: LETHABY'S PRINCIPAL WORKS; APPENDIX C: BIBLIOGRAPHY OF LETHABY'S PUBLICATIONS; INDEX. Subjects; Lethaby William Richard 1857-1931 educationist and architect. Arts and crafts movement England. Biographies. London, England : The Architectural Press hardcover
1986196146London: Architectural Press 1986. Hardcover. Very Good. Black cloth boards. Black dj. 320 pages : illustrations. Includes index./ "Bibliography of Lethaby's publications: " p. 303-312. Architectural Press hardcover
198600221547LONDON: THE ARCHITECTUAL PRESS. BOUND IN BLACK CLOTH HARDCOVER WITH SILVER TITLES TO FRONT BOARD AND SPINE THIS DATED 1986 FIRST EDITION IS VG IN VG JACKET UNCLIPPED. 320pp WITH10 CHAPTERS NOTES TO TEXT APPENDICES ON THE MODERN ARCHITECTUAL CONSTRUCTIVE GROUP LETHABY'S PRINCIPAL WORKS AND BIBLIOGRAPHY OF PUBLICATIONS PLUS INDEX. LETHABY JOINED NORMAN SHORE'S LONDON OFFICE IN 1879 AND LATER SET HIMSELF UP IN PRIVATE PRACTICE. HE LATER TAUGHT AT THE CENTRAL SCHOOL OF ART AND CONTINUED IN EDUCATION WITH A PROFESSIORSHIP AT THE ROYAL SCHOOL OF ART. WELL ILLUSTRATED BOOK IN VG CONDITION. . Very Good. Hardcover. 1st Edition. 1986. THE ARCHITECTUAL PRESS hardcover
1986098075Wiley 1986. First Edition. Hardcover. Fine Condition/Fine. Fine/Fine 1st ed 1986 hardback unclipped DJ substantial illustrated volume bright and unmarked. Quantity Available: 1. Shipped Weight: Under 2kg. Category: Art & Design; ISBN: 0851393500. ISBN/EAN: 9780851393506. 84cxrarebooks is the trading name of Cambridge-based bookseller Marino Guida with 25 years experience in the trade. We guarantee the condition of all our books. Further images or a short video presentation of any book can be arranged on request. We send tax-free and tariff-free to EU US/Canada and Australia/NZ with insurance included for peace of mind. Inventory No: 098075. 9780851393506 Wiley hardcover
0851393500New. hardcover. New. Satisfaction Guaranteed or your money back. hardcover
0851393500.Ghardcover. Good. Access codes and supplements are not guaranteed with used items. May be an ex-library book. hardcover
2005x-1403903158Palgrave Macmillan 2005. Hardcover. New. illustrated edition. 256 pages. 9.00x5.75x0.25 inches. Palgrave Macmillan hardcover
2014x-1349721689Palgrave Macmillan 2014. Paperback. New. 181 pages. 8.50x5.51x0.46 inches. Palgrave Macmillan paperback
1349721689.Gpaperback. Good. Access codes and supplements are not guaranteed with used items. May be an ex-library book. paperback
1991AME_9780387196190Springer 1991. 1st. Hardcover. New/New. Springer hardcover