19 006 résultats
19177400Berlin. Verlag von Julius Springer. 1917. VI, 100 Seiten. Breitrandiges Exemplar. Originalbroschur. (Umschlag mit Gebrauchsspuren u. gestempelt). 23x15 cm
1979PH-101Reading MA.: Benjamin/Cummings 1979. Classic comprehensive revised text contains three parts: Part I focuses on the use of special functions in solving the homogeneous partial differential equations of physics and emphasizes applications to topics such as electrostatics wave guides and resonant cavities vibrations of membranes heat flow potential flow in fluids plane and spherical waves. Part II deals with the solution of inhomogeneous differential equations with particular emphasis on problems in electromagnetism Greens functions for Poissons equation the wave equation and the diffusion equation and the solution of integral equations by iteration eigenfunction expansion and the Fredholm series. Part III explores complex variable techniques including evalution of itegrals dispersion relations special functions in the complex plane one-sided Fourier transforms and Laplace transforms. 628 pgs. Illustrated. Revised Second Edition. Hard Cover. As New. 8vo - over 7¾" - 9¾" tall. Benjamin/Cummings Hardcover
1966100126031Interscience publishers 1966 in8. 1966. Cartonné.
(Scienza - Fisica) In 8°, legatura editoriale in piena tela rossa con titoli in bianco al dorso, sovraccoperta, pp. XII,(2),146,(176). Una firma di proprietà al recto del foglio di guardia anteriore. Al frontespizio timbro in rosso : "Opera ricevuta per recensione". Piccolo, ininfluente, strappetto senza perdite alla sovraccoperta, peraltro ottimo stato di conservazione.
(Scienza - Fisica) In 8°, legatura editoriale in piena tela verde con titoli e fregio in argento, sovraccoperta, pp. XVI,415,(1). Ex libris applicato al contropiatto anteriore. Al frontespizio timbro in rosso "Opera ricevuta per recensione". Piccola menda marginale alla sovraccoperta, peraltro ottimo stato di conservazione.
in-8, pp. (4), 248, e (4), 32 di cat. edit., leg. edit. t. tela decor. Con una tabella ripieg. f.t. "Its title denoted more than the atomic-molecular theory of Avogadro or Ampère; it designated a theory that incorporated the idea of combining power or atomicity of the atoms - a new concept for which Wurtz had helped to clear the ground..." (cfr. DSB, XIV, p. 529 e segg.). Opera tra le più interessanti e popolari del grande scienziato (Strasbourg 1817 - Parigi 1884, "apôtre français de la théorie atomique. On lui doit la découverte des ammoniaques composées, du glycol, de l'alcol, etc." (Larousse du XX s., VI, 1097). Importante monografia di Wurtz sulla teoria atomica, edizione originale.. .
1881045290New York: D. Appleton 1881. First American Edition 1st Printing. Hardcover. Good. Fold Out Chart After Lothar Meyers. Viii 344 Fold Out Chart At Rear. Red Cloth Stamped In Gilt And Black Brown Endpapers. First American Printing With 28 Titles In List At Front. Gilt Bright But Covers Worn Fraying At Corners Small Damp Stain At Lower Right Tip Of Front Cover. Ownership Signature Of Christina Beach Isham Dated 1898 Extensive Pencil Marginalia Apparently In Her Hand On Pp 2-8. Fold Out Chart With 3/4" V-Chip At Top Center Fraying In White Free Fore Edge Margin. <br/> <br/> D. Appleton hardcover
1935RO80146111HERMANN et Cie. 1935. In-8. Broché. Bon état, Couv. convenable, Dos satisfaisant, Intérieur frais. 82 pages. Nombreux dessins et croquis en noir et blanc, dans le texte. Quelques pages non coupées, en fin d'ouvrage.. . . . Classification Dewey : 530-Physique
1904140681904 Paris, Alcan (Bibliothèque Scientifique Internationale), 1904, in 8° relié pleine percaline éditeur, VIII-LV-248 pages
Leipzig Teubner, 1875. 8vo mezza pergamena con titolo in tassello e scritta in oro al dorso, pp. 624 con 226 fig. n.t. e 3 tav. cromolit una, rip. in fine.
1930031820London: Methuen & Co 1930. First American Edition 1st Printing. Hardcover. Very Good /No Jacket. Diagrams. Xi 469 Pp. First American Edition 1930 First Printing Using English Sheets But With "Chemical Publishing" At Base Of Spine Translated From The Second German Edition. Orange Cloth Gilt. Lightly Used Gilt Complete But Not Brilliant Hinges Tight Former Owner's Name At Top Of Front Free Endpaper No Other Marks Pages Aged But No Spots Or Stains. <br/> <br/> Methuen & Co hardcover
1966056553New York: Interscience Publishers / John Wiley & Sons 1966. 1st Edition 1st Printing. Hardcover. Near Fine. Xiv 394 Pp. Gray-Green Cloth Printed In Dark Green. First Printing. Near Fine Two Small Name Stamps Of Prominent Physicist Lorenzo Dow Hendrick On Front Endpapers. Remarkably Thorough Experimental And Theoretical History And Analysis. Definitive For The Advanced Student And The Expert. Per Wikipedia Chien-Shiung Wu Chinese: ; Pinyin: Wú Jiànxióng; Wade-Giles: Wu2 Chien4-Hsiung2; 1912 - 1997 Was A Chinese-American Particle And Experimental Physicist Who Made Significant Contributions In The Fields Of Nuclear And Particle Physics. Wu Worked On The Manhattan Project Where She Helped Develop The Process For Separating Uranium Into Uranium-235 And Uranium-238 Isotopes By Gaseous Diffusion. She Is Best Known For Conducting The Wu Experiment Which Proved That Parity Is Not Conserved. This Discovery Resulted In Her Colleagues Tsung-Dao Lee And Chen-Ning Yang Winning The 1957 Nobel Prize In Physics While Wu Herself Was Awarded The Inaugural Wolf Prize In Physics In 1978. Her Expertise In Experimental Physics Evoked Comparisons To Marie Curie. Her Nicknames Include The "First Lady Of Physics" The "Chinese Madame Curie" And The "Queen Of Nuclear Research". After Work On The Manhattan Project During Wwii Wu Accepted An Offer Of A Position As An Associate Research Professor At Columbia. She Would Remain At Columbia For The Rest Of Her Career And Was First Named Associate Professor In 1952 Which Made Her The First Woman To Become A Tenured Physics Professor In University History. In November 1949 Wu Experimented With The Conclusions Of Einstein's Epr Thought Experiment Which Called Quantum Entanglement "Spooky Action At A Distance". Wu Was The First To Establish The Phenomenon And Validity Of Entanglement Using Photons Through Observing Angular Correlation As Her Result Confirmed Maurice Pryce And John Clive Ward's Calculations On The Correlation Of The Quantum Polarizations Of Two Photons Propagating In Opposite Directions. Specifically The Experiment Carried Out By Wu Was The First Important Confirmation Of Quantum Results Relevant To A Pair Of Entangled Photons As Applicable To The Einstein-Podolsky-Rosen Epr Paradox. Her 1950 Letter To Physical Review Famously Identified Confirmation Of Wheeler's Ideas On Entanglement. Tsung-Dao Lee And Another Chinese Theoretical Physicist Chen Ning Yang Grew To Question A Hypothetical Law Of Elementary Particle Physics The "Law Of Conservation Of Parity". Lee And Yang Worked Out A Pencil-And-Paper Design Of An Experiment For Testing Conservation Of Parity In The Laboratory. Because Of Her Expertise In Choosing And Then Working Out The Hardware Manufacture Set-Up And Laboratory Procedures Wu Then Informed Lee That She Could Carry Out The Experiment. Wu Chose To Do This By Taking A Sample Of Radioactive Cobalt-60 And Cooling It To Cryogenic Temperatures With Liquid Gases. Cobalt-60 Is An Isotope That Decays By Beta Particle Emission And Wu Was Also An Expert On Beta Decay. The Discovery Of Parity Violation Was A Major Contribution To Particle Physics And The Development Of The Standard Model. The Discovery Actually Set The Stage For The Development Of The Model As The Model Relied On The Idea Of Symmetry Of Particles And Forces And How Particles Can Sometimes Break That Symmetry.The Wide Coverage Of Her Discovery Prompted The Discoverer Of Fission Otto Frisch To Mention That Those At Princeton Would Often Say That Her Experiment Was The Most Impactful Since The Michelson-Morley Experiment That Inspired Einstein's Theory Of Relativity. In December 1962 Wu Experimentally Demonstrated A Universal Form And More Accurate Version Of Fermi's Old Beta Decay Model Confirming The Conserved Vector Current Cvc Hypothesis Of Richard Feynman And Murray Gell-Mann On The Road To The Standard Model. <br/> <br/> Interscience Publishers / John Wiley & Sons hardcover
1966059777New York: Interscience Publishers / John Wiley & Sons 1966. 1st Edition 1st Printing. Hardcover. Fine/Near Fine. Xiv 394 Pp. Gray-Green Cloth Printed In Dark Green. First Printing. Near Fine Previous Owner's Name. Dj With Slight Wear Two Short Tears At Top Of Rear Panel. Remarkably Thorough Experimental And Theoretical History And Analysis. Definitive For The Advanced Student And The Expert. Per Wikipedia Chien-Shiung Wu Chinese: ; Pinyin: Wú Jiànxióng; Wade-Giles: Wu2 Chien4-Hsiung2; 1912 - 1997 Was A Chinese-American Particle And Experimental Physicist Who Made Significant Contributions In The Fields Of Nuclear And Particle Physics. Wu Worked On The Manhattan Project Where She Helped Develop The Process For Separating Uranium Into Uranium-235 And Uranium-238 Isotopes By Gaseous Diffusion. She Is Best Known For Conducting The Wu Experiment Which Proved That Parity Is Not Conserved. This Discovery Resulted In Her Colleagues Tsung-Dao Lee And Chen-Ning Yang Winning The 1957 Nobel Prize In Physics While Wu Herself Was Awarded The Inaugural Wolf Prize In Physics In 1978. Her Expertise In Experimental Physics Evoked Comparisons To Marie Curie. Her Nicknames Include The "First Lady Of Physics" The "Chinese Madame Curie" And The "Queen Of Nuclear Research". After Work On The Manhattan Project During Wwii Wu Accepted An Offer Of A Position As An Associate Research Professor At Columbia. She Would Remain At Columbia For The Rest Of Her Career And Was First Named Associate Professor In 1952 Which Made Her The First Woman To Become A Tenured Physics Professor In University History. In November 1949 Wu Experimented With The Conclusions Of Einstein's Epr Thought Experiment Which Called Quantum Entanglement "Spooky Action At A Distance". Wu Was The First To Establish The Phenomenon And Validity Of Entanglement Using Photons Through Observing Angular Correlation As Her Result Confirmed Maurice Pryce And John Clive Ward's Calculations On The Correlation Of The Quantum Polarizations Of Two Photons Propagating In Opposite Directions. Specifically The Experiment Carried Out By Wu Was The First Important Confirmation Of Quantum Results Relevant To A Pair Of Entangled Photons As Applicable To The Einstein-Podolsky-Rosen Epr Paradox. Her 1950 Letter To Physical Review Famously Identified Confirmation Of Wheeler's Ideas On Entanglement. Tsung-Dao Lee And Another Chinese Theoretical Physicist Chen Ning Yang Grew To Question A Hypothetical Law Of Elementary Particle Physics The "Law Of Conservation Of Parity". Lee And Yang Worked Out A Pencil-And-Paper Design Of An Experiment For Testing Conservation Of Parity In The Laboratory. Because Of Her Expertise In Choosing And Then Working Out The Hardware Manufacture Set-Up And Laboratory Procedures Wu Then Informed Lee That She Could Carry Out The Experiment. Wu Chose To Do This By Taking A Sample Of Radioactive Cobalt-60 And Cooling It To Cryogenic Temperatures With Liquid Gases. Cobalt-60 Is An Isotope That Decays By Beta Particle Emission And Wu Was Also An Expert On Beta Decay. The Discovery Of Parity Violation Was A Major Contribution To Particle Physics And The Development Of The Standard Model. The Discovery Actually Set The Stage For The Development Of The Model As The Model Relied On The Idea Of Symmetry Of Particles And Forces And How Particles Can Sometimes Break That Symmetry.The Wide Coverage Of Her Discovery Prompted The Discoverer Of Fission Otto Frisch To Mention That Those At Princeton Would Often Say That Her Experiment Was The Most Impactful Since The Michelson-Morley Experiment That Inspired Einstein's Theory Of Relativity. In December 1962 Wu Experimentally Demonstrated A Universal Form And More Accurate Version Of Fermi's Old Beta Decay Model Confirming The Conserved Vector Current Cvc Hypothesis Of Richard Feynman And Murray Gell-Mann On The Road To The Standard Model. <br/> <br/> Interscience Publishers / John Wiley & Sons hardcover
1966054052New York: Interscience Publishers / John Wiley & Sons 1966. 1st Edition 1st Printing. Hardcover. Fine/Good. Xiv 394 Pp. Gray-Green Cloth Printed In Dark Green. First Printing. Near Fine No Names Or Marks Or Fading Or Stains. Dj WornWith Rubbing Along Edges Short Tears And Small Losses At Corners Interior Clear Tape Reinforcements To Spine. Remarkably Thorough Experimental And Theoretical History And Analysis. Definitive For The Advanced Student And The Expert. Per Wikipedia Chien-Shiung Wu Chinese: ; Pinyin: Wú Jiànxióng; Wade-Giles: Wu2 Chien4-Hsiung2; 1912 - 1997 Was A Chinese-American Particle And Experimental Physicist Who Made Significant Contributions In The Fields Of Nuclear And Particle Physics. Wu Worked On The Manhattan Project Where She Helped Develop The Process For Separating Uranium Into Uranium-235 And Uranium-238 Isotopes By Gaseous Diffusion. She Is Best Known For Conducting The Wu Experiment Which Proved That Parity Is Not Conserved. This Discovery Resulted In Her Colleagues Tsung-Dao Lee And Chen-Ning Yang Winning The 1957 Nobel Prize In Physics While Wu Herself Was Awarded The Inaugural Wolf Prize In Physics In 1978. Her Expertise In Experimental Physics Evoked Comparisons To Marie Curie. Her Nicknames Include The "First Lady Of Physics" The "Chinese Madame Curie" And The "Queen Of Nuclear Research". After Work On The Manhattan Project During Wwii Wu Accepted An Offer Of A Position As An Associate Research Professor At Columbia. She Would Remain At Columbia For The Rest Of Her Career And Was First Named Associate Professor In 1952 Which Made Her The First Woman To Become A Tenured Physics Professor In University History. In November 1949 Wu Experimented With The Conclusions Of Einstein's Epr Thought Experiment Which Called Quantum Entanglement "Spooky Action At A Distance". Wu Was The First To Establish The Phenomenon And Validity Of Entanglement Using Photons Through Observing Angular Correlation As Her Result Confirmed Maurice Pryce And John Clive Ward's Calculations On The Correlation Of The Quantum Polarizations Of Two Photons Propagating In Opposite Directions. Specifically The Experiment Carried Out By Wu Was The First Important Confirmation Of Quantum Results Relevant To A Pair Of Entangled Photons As Applicable To The Einstein-Podolsky-Rosen Epr Paradox. Her 1950 Letter To Physical Review Famously Identified Confirmation Of Wheeler's Ideas On Entanglement. Tsung-Dao Lee And Another Chinese Theoretical Physicist Chen Ning Yang Grew To Question A Hypothetical Law Of Elementary Particle Physics The "Law Of Conservation Of Parity". Lee And Yang Worked Out A Pencil-And-Paper Design Of An Experiment For Testing Conservation Of Parity In The Laboratory. Because Of Her Expertise In Choosing And Then Working Out The Hardware Manufacture Set-Up And Laboratory Procedures Wu Then Informed Lee That She Could Carry Out The Experiment. Wu Chose To Do This By Taking A Sample Of Radioactive Cobalt-60 And Cooling It To Cryogenic Temperatures With Liquid Gases. Cobalt-60 Is An Isotope That Decays By Beta Particle Emission And Wu Was Also An Expert On Beta Decay. The Discovery Of Parity Violation Was A Major Contribution To Particle Physics And The Development Of The Standard Model. The Discovery Actually Set The Stage For The Development Of The Model As The Model Relied On The Idea Of Symmetry Of Particles And Forces And How Particles Can Sometimes Break That Symmetry.The Wide Coverage Of Her Discovery Prompted The Discoverer Of Fission Otto Frisch To Mention That Those At Princeton Would Often Say That Her Experiment Was The Most Impactful Since The Michelson-Morley Experiment That Inspired Einstein's Theory Of Relativity. In December 1962 Wu Experimentally Demonstrated A Universal Form And More Accurate Version Of Fermi's Old Beta Decay Model Confirming The Conserved Vector Current Cvc Hypothesis Of Richard Feynman And Murray Gell-Mann On The Road To The Standard Model. <br/> <br/> Interscience Publishers / John Wiley & Sons hardcover
1973122532London, Wykeham Publ. 1973. M. einigen Abb. 130 S. (Wykeham 18).
1952409541Berlin, Akad.-Vlg. 1952. M. 2 Taf. u. zahlr. Abb. 44 S. (FFH C 2).
51493R. Van Velsen, 1896 14 x 22, 410 pp., 362 figures, reliure, dos cuir, Bon état - reliure usagée, quelques annotations
1990x-0201515067Perseus Books 1990. Paperback. New. 530 pages. 9.00x6.25x1.25 inches. Perseus Books paperback
0201515067.Gpaperback. Good. Access codes and supplements are not guaranteed with used items. May be an ex-library book. paperback
9810212895New. Brand new and still unused unknown
1963211114Leipzig, Dt. Vlg. f. Grundstoffind. 1963. M. zahlr. Abb. 128 S. (FFH A 288)
1899245772St. Louis, 1899. M. 1 graph. Darst. u. zahlr. Formeln. S. 53-60. OU. m. St. u. Sign. Unaufgeschn. Ex. (Trans. of The Acad. of Science of St. Louis 9,3).
A clean, unmarked book with a tight binding. 220 pages.