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26725Hamburg gedr. bei J. G. L. Wichers 1838. . Das Buch enthält "Alles was dem Kaufmann und dem Handwerker von der Rechnenkunst zu wissen nöthig ist" Vorwort. Mit Angabe der Münzen Maße u. Gewichte in Hamburg. - Mit Alters- u. Gebrauchsspuren beschabt durchg. wasserrandig. Kl. Stempel a. T. alter Besitzvermerk in brauner Tinte auf VSpiegel L. Levy. Hamburg, gedr. bei J. G. L. Wichers, 1838. unknown
THPU-61758Hardcover. NEW. US Standard Edition. We will ship same day or next day with trackable delivery method. Expedited Shipping Available. We don't entertain INTERNATIONAL orders ATM. 30-day money-back guarantee. hardcover
1982PH-267New York: Springer-Verlag 1982. Classic comprehensive revised and enlarged text presents detailed updated topics on the theory of scattering of electromagnetic waves; classical particles; quantum-mechanic particles; multiparticle collisions; three-particle collisions; scattering by noncentral potentials; inverse scattering problem; multichannel theory; etc. 743 pgs. Illustrated with 35 figures. Prior ownership name on front endpaper. Spine slightly sunned. Minimal shelfwear. . Second Edition. Hard Cover. Very Good. 8vo - over 7¾" - 9¾" tall. Springer-Verlag Hardcover
197329448American Institute of Physics. 1973. Hardcover. 0883181126 . Light cover spotting scuffing; owner's name and label. Pgs clean unmarked. ; . American Institute of Physics, hardcover
2010198849New York New York U.S.A.: Wiley-VCH Verlag GmbH & Co. 2010. Clean bright and tight. First Edition. hardcover. Very Good/No Dust Jacket. Used. Wiley-VCH Verlag GmbH & Co. Hardcover
1994x-9810214219World Scientific Pub Co Inc 1994. Hardcover. New. 614 pages. 9.00x6.75x1.50 inches. World Scientific Pub Co Inc hardcover
1931032098Groningen Den Haag: J. B. Wolters Uitgevers-Maatschappij 1931. 1st Edition . Soft cover. Very Good. X 112 Pp. Original Brown Wrappers Printed In Black. Stellingen Statement Of Thesis Laid In Loosely With Printed Card "Receptie Na Afloop Der Promotie In Het Academiegebouw" Also Laid In Loosely. Light Wear At Corners Covers Immaculate Small Chip At Lower Right Corner Of Front Cover And Splits At Sides Of Spine. This Is The Copy Of His Thesis Advisor H. A. Kramer With Small Pencil "/ K" At Top Of Front Cover. Hendrik Brugt Gerhard Casimir 1909 - 2000 Was Best Known For His Research On The Two-Fluid Model Of Superconductors And The Casimir Effect. He Studied Theoretical Physics At Leiden Under Paul Ehrenfest. His Phd Thesis Offered Here Dealt With The Quantum Mechanics Of A Rigid Spinning Body And The Group Theory Of The Rotations Of Molecules. During That Time He Also Spent Some Time In Copenhagen With Niels Bohr And Then Worked With Wolfgang Pauli In Zurich. In 1942 During World War Ii Casimir Moved To The Philips Physics Laboratory Natlab. He Retired From Philips In 1972. Although He Spent Much Of His Professional Life In Industry Hendrik Casimir Was One Of The Great Dutch Theoretical Physicists. Casimir Made Many Contributions To Science During His Years In Research From 1931 To 1950. He Helped Found The European Physical Society And Became Its President From 1972 Till 1975. In 1979 He Was One Of The Key Speakers At Cern's 25Th Anniversary Celebrations. While At Natlab In 1948 Casimir Collaborating With Dirk Polder Predicted The Quantum Mechanical Attraction Between Conducting Plates Now Known As The Casimir Effect Which Has Important Consequences. Casimir Also Worked At Mems Etc. <br/> <br/> J. B. Wolters Uitgevers-Maatschappij paperback
1990PH-376Berlin-Heidelberg: Springer-Verlag 1990. Text contains detailed technical papers from leading scientists covering areas of stellar physics to which Prof. Schatzman has contributed to including mixing in stellar interiors redistribution and loss of angualr momnetum. Topics include mass transport and mixing; internal rotation of the sun; penetration and overshooting from a convection zone; fast dynamo action; turbulent transport in stellar radiation zones; probing stellar interiors; etc. 183 pgs. Illustrated. First Edition. Hard Cover. Fine. 8vo - over 7¾" - 9¾" tall. . Springer-Verlag Hardcover
1917032020Haarlem: De Erven Loosjes 1916 1917. First Separate Edition . Soft cover. Good. 76 Pp. Light Green Wrappers Printed In Black. Publisher's Offprint Dated 1917 Edited By Keesom Of This Paper By Lorentz First Published In 1916. Wear And Losses To Paper Backstrip Slight Wear At Tips. Paper Browning A Little Fading And Browning To Covers. No Names Or Marks But Bookplate Of A Well-Published Leiden-Trained Mathematical Physicist Jan Korringa. <br/> <br/> De Erven Loosjes (1916) paperback
1922034956Leiden: Eduard Ijdo 1922. 1st Edition 1st Printing. Soft cover. Very Good. Iv 22 I 1070-1107 Plate At Rear. Grey-Green Wrappers Printed In Black Purple Stamp Of The Leeskamer Bosscha In Leiiden With Partly Illegible Signature Underneath Pencil Note To Left Sall Losses At Top And Bottom Of Spine Without Loss Of Text Some Fading To Covers. Coster's Thesis In Dutch Supervised By Ehrenfest Here Issued And Bound With A Complete Reprint Of His Article On The Spectra Of X-Rays And The Theory Of Atomic Structure In English From The Philosophical Magazine June 1922 With A Note Explaining That It Had Been Furnished By Ernest Rutherford For Publication. The Stellingen Text References Work By C. D. Ellis Lise Meitner Twice Separately Millikan Twice Separately Rutherford And Andrade Van Overn Ms. Davies Kohnstamm C. Benedicks Arnold. At The End Of His English Journal Article He Thanks Siegbahn And Niels Bohr"For The Great Interest They Have Shown In My Work" And "My Friend Mr. H. A. Kramers For His Help In Reading The Manuscript". Per Wikipedia Dirk Coster October 5 1889 - February 12 1950 Was A Dutch Physicist. In Leiden He Was Influenced By The Inspiring Lectures Of Paul Ehrenfest And In 1916 He Obtained His M.Sc. Degree. From 1916 To 1920 Coster Was Assistant Of Lodewijk Siertsema And Wander De Haas At The Delft University Of Technology Where In 1919 He Obtained An Engineer's Degree In Electrical Engineering. In 1920 And 1921 He Did Research At Lund University Under Manne Siegbahn On X-Ray Spectroscopy Of Different Elements. Coster's Thesis Was On This Subject And He Obtained His Ph.D. Degree In 1922. Coster Is Known As The Co-Discoverer Of Hafnium Hf Element 72 In 1923 Along With George De Hevesy By Means Of X-Ray Spectroscopic Analysis Of Zirconium Ore. The Discovery Took Place In Copenhagen. From August 1922 Until The Summer Of 1923 Coster Worked In Niels Bohr's Institute In Copenhagen. Within A Few Months He Co-Authored A Landmark Publication With Bohr On X-Ray Spectroscopy And The Periodic System Of The Elements. In Addition He Worked With Chemist George De Hevesy On The Identification Of Element No. 72. Element 72 Had Been Known To Be A Gap In The Sequence Of Elements Since 1914 When Henry Moseley Created An Experimental Technique For Placing The Elements In A Definite Sequence. Radiochemist Fritz Paneth Suggested That Element 72 Might Be Found In Ores Of Zirconium. Some Histories Incorrectly Attribute This Suggestion To Physicist Niels Bohr. Bohr Published A Prediction Of The Electronic Configuration Of Element 72 In 1923. Von Hevesy Had Been Working With Bohr At The Time.After Coster Returned From Copenhagen He Became Hendrik Lorentz' Assistant At The Teylers Museum In Haarlem Where He Developed An X-Ray Spectrometer. In 1924 He Was Appointed At The University Of Groningen Where He Was The Successor Of Wander De Haas. At Groningen He Started An Active Research Program In X-Ray Spectroscopy.In 1938 He Traveled To Berlin To Convince Lise Meitner That She Had To Leave Germany To Escape The Persecution Of The Jews. Together They Went By Train To Groningen; At The Dutch Border Coster Persuaded German Immigration Officers That She Had Permission To Travel To The Netherlands. She Stayed With Him For Several Weeks. From There She Went On To Sweden By Way Of Copenhagen.During The German Occupation Of Holland Coster Also Helped Jews Hide From The Nazis. From Wikipedia. Ahh We Lesser Mortals. <br/> <br/> Eduard Ijdo paperback
199606852Boston: Kluwer Academic Publishers 1996. USA Presumed 1st edition. No markings Fine; no dust jacket as published. Hardcover xxx440pp indexdiagrams graphs. This book provides a unified view of robustness in automatic speech recognition an important aspect of speech processing especially with how speech technology can be applied to new products. 3.0 JM LVR 202/a2. 1st. Hardcover. Fine/No Dust Jacket. 8vo - over 7¾" - 9¾". Kluwer Academic Publishers Hardcover
1981043246Cambridge: The MIT Press 1981. 1st Edition 1st Printing. Hardcover. Near Fine/Near Fine. 279 Pp. Grey Cloth. First Printing. Near Fine In Near Fine Dust Jacket. No Marks <br/> <br/> The MIT Press hardcover
1993029887Princeton: Princeton University Press 1993. 1st Edition 1st Printing. Hardcover. Fine/Fine. Xxiii 439 Pp. First Printing. As New In As New Dj. <br/> <br/> Princeton University Press hardcover
1950046939American Physical Society / American Institute Of Physics 1950. 1st Edition . Hardcover. Near Fine. 422 Pp. Annual Volume 1950 Bound With Green Morocco Spine And Tips No Wrapers. Patterned Boards Speckled Edges Gilt Title On Spine. Near Fine No Wear Immaculate Gilt Brilliant "Hauptbucherel" Stamp And Circular Ownership Stamp In Ludwigshafen On Title Page Vertical Crease On Title Page Else Fine. Chien-Shiung Wu Chinese: ; 1912 - 1997 Was A Chinese-American Particle And Experimental Physicist Who Made Significant Contributions In The Field 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". In September 1944 Wu Was Contacted By The Manhattan District Engineer Colonel Kenneth Nichols. Wu Was Frustrated With Her Lack Of Professorships And Volunteered To Help Out In The Project. The Newly Commissioned B Reactor The First Practical Nuclear Reactor Ever Built Which Was Located At The Hanford Site Had Run Into An Unexpected Problem Starting Up And Shutting Down At Regular Intervals. John Archibald Wheeler And Partner Enrico Fermi Suspected That A Fission Product Xe-135 With A Half-Life Of 9.4 Hours Was The Culprit And Might Be A Neutron Poison Or Absorber. Segrè Then Remembered The 1940 Phd Thesis That Wu Had Done For Him At Berkeley On The Radioactive Isotopes Of Xe And Told Fermi To "Ask Ms. Wu". After Fermi Contacted Wu Segrè Visited Her Dorm Room Together With Nichols And Collected The Typewritten Draft Prepared For The Physical Review. The Suspicions Of Fermi And Wheeler Came True Wu's Paper Unknowingly Verified That Xe-135 Was Indeed The Culprit For The B Reactor; It Turned Out To Have An Unexpectedly Large Neutron Absorption Cross-Section. Wu Also Used Her Findings In Radioactive Uranium Separation To Build The Standard Model For Producing Enriched Uranium To Fuel The Atomic Bombs At The Oak Ridge Tennessee Facility As Well As Build Innovative Geiger Counters. Wu Like Most Involved Physicists In Their Later Years Distanced Herself From The Manhattan Project Due To Its Destructive Outcome And Recommended To The Taiwanese President Chiang Kai-Shek In 1962 To Never Build Nuclear Weapons. In November 1949 Wu Experimented With The Conclusions Of Einstein's Epr Thought Experiment Which Called Quantum Entanglement "Spooky Action At A Distance". Wu Managed To Be The First To Establish The Phenomenon And Validity Of Entanglement Using Photons Through Observing Angular Correlation. 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. In Her Post-War Research Wu Continued To Investigate Beta Decay. In 1949 Wu Completely Established Fermi's Theory And Showed How Beta Decay Worked Especially In Creating Electrons Neutrinos And Positrons.At Columbia Wu Knew The Chinese-Born Theoretical Physicist Tsung-Dao Lee Personally. In The Mid-1950S 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". 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. See The Much Longer Wikipedia Article. <br/> <br/> American Physical Society / American Institute Of Physics hardcover
1913032015London: Macmillan And Co 1913. First English Language Edition 1st Printing. Hardcover. Very Good. Xiv 1 219 Pp 4 Pp Ads At Rear. Blue Cloth Gilt And Blindstamped. Seven Line Inscription And Signature Of Zeeman Dated In December 1924 To Alfred Lande. Light Rubbing At Corners And Front Spine Edge Gilt All Present But Not Brilliant Very Faint Dampstaining In Upper Right Third Of Front Cover And Small Area In Upper Corner Of Rear Cover But No Trace On Contents; Otherwise Clean No Fading To Cloth. From Wikipedia: Alfred Landé 1888 -1976 Was A German-American Physicist Known For His Contributions To Quantum Theory. In 1913 Landé Was Sent By Arnold Sommerfeld His Thesis Advisor At The University Of Munich To Be A Special Assistant For Physics To David Hilbert At The University Of Göttingen To Replace Paul Peter Ewald Whom Sommerfeld Had Sent To The Same Position In 1912. Landé Obtained His Doctorate Under Sommerfeld At The University Of Munich Two Weeks Prior To The Start Of The First World War. He Joined The Red Cross And Served For Two Years On The Eastern Front Before Being Invited By Max Born To Join Him At The Artillery Testing Commission One Of The Few Scientific Sections Of The Army. Apart From Their Work On Artillery Location By Sound Ranging They Began To Examine The Cohesive Forces And Compressibility Of Crystals. This Work Led To The Unexpected Result That The Electron Trajectories In Atoms Were Not At All Like Planetary Orbits Which At The Time Was The Usual Understanding Of The Electron In An Atom. Landé Studied Atomic Structure Intensively For The Next Seven Years. In 1916 Sommerfeld Had Begun To Apply The New Atomic Theory To Form A General Quantization Rule. In 1919 Landé Unexpectedly Turned To Spectroscopy Even Though The Continuation Of The Study Of The Spatial Orientation Of The Atoms Was The Most Pressing Problem Of The Time. He Turned To The Problem Of Atoms With Several Electrons In Particular To The Simplest Case The Spectrum Of Helium. The Spectrum Showed Non-Combining Single And Double Actually Triplet As It Turned Out Later Terms So That It Seemed As If Helium Was Made Of Two Different Substances Which Is Explained Today As The Result Of Electron Spin. Landé's Work Contained Several New Important Ideas Including The Rule Of Vector Addition Of Two Quantum-Mechanical Angular Momenta J1 And J2. His Findings And Postulates Were Later Confirmed By Quantum Theory. Landé's Frankfurt Investigations December 1920 Until April 1921 Ended With The Discovery Of The Well-Known Landé G-Formula And An Explanation For The Anomalous Zeeman Effect. The Landé G-Factor Is Now Defined Through Mj The Magnetic Quantum Number. In 1923 Landé Stated The Landé Interval Rule A Rule Dealing With The Relation Between An Electron's Spin And Orbit. Landé Was A Forerunner In A Phase Of New Interpretation Of Quantum Theory From Which Concrete Physical Statements About Experimentally Verifiable Facts Can Be Made. This Happened After The First Phase Of The Interpretation Of The Theory With Well-Known Discussions Between Niels Bohr Werner Heisenberg And Wolfgang Pauli Who Favoured The Copenhagen Interpretation Opposed In Varying Degrees By Erwin Schrödinger Louis De Broglie And Most Notably Albert Einstein. After 1950 And For The Rest Of His Life Landé Turned Energetically Against The Copenhagen Interpretation Of Quantum Theory Requiring As Did Einstein An Objectively Real Description Of Physical Processes. This Change Was Driven By Landé's Perception That Wave-Particle Duality Was An Unnecessary Misrepresentation Of Quantum Processes That He Explained By Developing A New Unitary Particle Formulation Without Dualistic Reference To Waves. Landé Based His New Formulation Upon Non-Quantal Principles Of Symmetry And Invariance With Duane's Rule For Quantisation Of Momentum Exchange With Space-Periodic Structures And Leibniz's Principle Of Cause-Effect Continuity To Explain The Intrinsically Probabilistic Nature Of Quantum Processes. His Interpretation Is Considered A Minority Interpretation. <br/> <br/> Macmillan And Co hardcover
1963718680PN. New. 1963. Soft Cover. Date is original print. This is a reprint edition. . PN paperback
1963720000PN. New. 1963. Soft Cover. Date is original print. This is a reprint edition. . PN paperback
1962716656PN. New. 1962. Soft Cover. Date is original print. This is a reprint edition. . PN paperback
1961713632PN. New. 1961. Soft Cover. Date is original print. This is a reprint edition. . PN paperback
1961712948PN. New. 1961. Soft Cover. Date is original print. This is a reprint edition. . PN paperback
1983767985PN. New. 1983. Soft Cover. Date is original print. This is a reprint edition. . PN paperback
1966044400Wright-Patterson Air Force Base: Office Of Aerospace Research / Aerospace Research Laboratories 1966. 1st Edition . Soft cover. Near Fine. 42 Pp. Grey Card Covers Stamped In Black. Near Fine Company Stamp On Front Cover And Title Page. <br/> <br/> Office Of Aerospace Research / Aerospace Research Laboratories paperback
1960050340Menlo Park Ca: Stanford Research Institute 1960. 1st Edition . Soft cover. Near Fine. Xxiii 211 Pp. Printed Wrappers. Copy Number 133 Of A Limited Edition Of This Report On Sri Project 2863. Near Fine. Very Scarce Worldcat Locating Only Two Institutional Copies. Kenneth Radford Shoulders 1927 - 2013 Was An Experimental Physicist. He Is Known For Various Work Related To The Field Of Energy And Has Also Been Credited As An Early Pioneer Of Electron Beam Lithography Which Has Become A Key Mask-Making Technology For Modern Microelectronics. He Has Additionally Been Attributed The Title 'Father Of Vacuum Microelectronics' And Been Known As A Founder Of Microelectronic Field Emission Devices. In The 1950'S Shoulders Worked As A Researcher At Mit In Applied Research On Microminiature Data-Processing Components And Systems And Worked With Dudley Allen Buck In Making Thin-Film Cryotron Integrated Circuits. In 1958 He Moved To California To Work As A Senior Research Engineer Applied Physics Laboratory Created By Charles Rosen At Stanford Research Institute Sri. Shoulders Established Sri'S Microelectronics Program.Early In His Career At Sri Shoulders Made The First 12 Quadrupole Mass Spectrometers And Then Later Worked With Others Such As Mouse Inventor Douglas Engelbart And Jerre Noe. During His Time At Sri Shoulders Also Worked On Ideas For A Flying Car The Gyrodyne Convertiplane. It Combined Features Of A Car A Helicopter A Rotor On The Roof For Take-Off And Landing And A Small Airplane Rigid Wings And A Rear Propeller. Shoulders Developed Preliminary Sketches And Specifications Promoting The Idea Of A Ground-To-Air Vehicle That Could Rescue Long-Distance Commuters From Hours Of Grid-Lock Traffic. In 1963 Shoulders Asked The California State Senate'S Transportation Committee For Permission To Use His Invention On Public Roads And In 1964 They Agreed. However A Number Of Nearby Municipalities Banned The Convertiplane From Their Airspace. Unable To Get The Flying Car Off The Ground Shoulders Created His Own Company Vertitek And Began Developing Remote-Controlled Drones. He Imagined A Wide Variety Of Drone Applications From Children's Toys To Agricultural Crop Dusters. One Example The Boomerang Sent Out Sound Waves To Detect And Avoid Collisions And Looked Like Giant Maple Seed. In The 1980S Shoulders Moved To Austin Texas To Work At Jupiter Technologies As Chief Inventor And Focusing On Electron Condensed Charge Technology Referred To As Ev's Along With Hal Puthoff. In 2000 Shoulders' Work Related To High Energy Electron Charge Clusters Was Incorporated Into A Future Energy Technologies Briefing Presented To The U.S. Senate Environment And Public Works Committee. <br/> <br/> Stanford Research Institute paperback
0750304731.Ghardcover. Good. Access codes and supplements are not guaranteed with used items. May be an ex-library book. hardcover
9810209312New. Brand new and still unused unknown