Newton

Newton, Sir Isaac, Isaak Newton. Portrait, Porträt. Newton, Sir Isaac, Isaak Newton. Isaac Newton *1643 Woolsthorpe, Colsterworth - 1727 Kensington. Englischer Physiker, Mathematiker und Astronom. Brustbild, en Face.

Stahlstich um 1850. Ca. 11 x 9 cm.

[SW: Newton, Sir Isaac, Isaak Newton. Graphik, Grafik, alte Stiche, Porträt, Porträts, berühmte Personen, Portrait, Portraits.]

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Morrison, Tessa: Isaac Newton's Temple of Solomon and his Reconstruction of Sacred Architecture, BIRKHÄUSER, Februar 2011 ISBN: 3034800452
This book is about a side of Isaac Newton's character that has not been examined - Isaac Newton as architect as demonstrated by his reconstruction of Solomon's Temple. Although it is well known that Isaac Newton worked on the Temple, and this is mentioned in most of his biographies and in articles on the religious aspects of this work, however, there is no research on Newton's architectural work. This book not only recreates Newton's reconstruction of the Temple but it also considers how his work on the Temple interlinks with his other interests of science, chronology, prophecy and theology. In addition the book contains the first translation of Introduction to the Lexicon of the Prophets, Part two: About the appearance of the Jewish Temple commonly known by its call name Babson 0434. This work will appeal not only to scholars of science and architectural history but also to scholars of the seventeenth and eighteenth centuries' history of ideas.

NEUBUCH! 2010. XIX, 186 p.. w. 24 b&w and 11 col. figs. 23,5 cm 235 mm x 155 mm 24 schwarz-weiße und 11 farbige Abbildungen

[SW: Newton, Isaac, Jerusalem (Tempel)]

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Gerlach, Walther,
Walther Gerlach (1889-1979), Physiker. E. Brief mit U. München, 11. Februar 1975. 1 S. Gr.-4°. Mit e. adr. Kuvert. Mit einer Beilage (s. u.). - An die Naturwissenschaftshistorikerin Karin Figala (1938-2007) am Deutschen Museum in München, der er die beiliegende humorige Notiz aus der "Süddeutschen Zeitung" über Newton schickt, "die für Ihre Überlegungen über das Phänomen Newton wohl nützlich sein kann [...] Im übrigen: warum spielt der Apfel diese Rolle in der Begründung der Physik? Man könnte an den Baum der Erkenntnis denken. Dann hätte sich aber Kepler wohl kaum einen solchen Hinweis entgehen lassen, da er seine Fall- und Wurfüberlegungen am Beispiel eines Apfels [...] darlegte. Ist der vom Baume fallende Apfel das einzige allgemein bekannte natürliche Beispiel eines frei-fallenden Körpers?? Und: Ist die Heranziehung des Apfels bei Kepler und bei Newton nur Zufall? Dass Newton die Epitome Keplers kannte, scheint mir wohl sicher [...]". - Der Brief endet mit weiteren Betrachtungen über Newton, Kepler und Kopernikus. - Auf sehr dünnem Durchschlagpapier.

Walther Gerlach (1889-1979), Physiker. E. Brief mit U. München, 11. Februar 1975. 1 S. Gr.-4°. Mit e. adr. Kuvert. Mit einer Beilage (s. u.). - An die Naturwissenschaftshistorikerin Karin Figala (1938-2007) am Deutschen Museum in München, der er die beiliegende humorige Notiz aus der "Süddeutschen Zeitung" über Newton schickt, "die für Ihre Überlegungen über das Phänomen Newton wohl nützlich sein kann [...] Im übrigen: warum spielt der Apfel diese Rolle in der Begründung der Physik? Man könnte an den Baum der Erkenntnis denken. Dann hätte sich aber Kepler wohl kaum einen solchen Hinweis entgehen lassen, da er seine Fall- und Wurfüberlegungen am Beispiel eines Apfels [...] darlegte. Ist der vom Baume fallende Apfel das einzige allgemein bekannte natürliche Beispiel eines frei-fallenden Körpers?? Und: Ist die Heranziehung des Apfels bei Kepler und bei Newton nur Zufall? Dass Newton die Epitome Keplers kannte, scheint mir wohl sicher [...]". - Der Brief endet mit weiteren Betrachtungen über Newton, Kepler und Kopernikus. - Auf sehr dünnem Durchschlagpapier.

[SW: Autograph, Manuskript, Dokument, Autographen. Abbildungen finden Sie auf unserer Webseite www.autographenhandlung.de]

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Cross, Judson B. (u.a.): College Physics. Physical Science Study Committee. Raytheon Education Center, 1968.
Ex. mit Gebrauchsspuren. - Waves and Light - Water Waves Straight and Circular Pulses Reflection Speed of Propagation and Periodic Waves Refraction Dispersion Diffraction - Interference - Interference on a Spring Interference from Two Point Sources The Shape of Nodal Lines Wavelengths, Source Separation, and Angles Phase Summary and Conclusion - Lightwaves - Can We See Interference in Light? Interference of Light Waves: Young's Experiment The Phase of Light Sources: Atoms Color and Wavelength of Light Diffraction: An Interference Effect in Single Slits? A Theory of Diffraction by a Slit Experimental Checks with Single and Double Slits Interference in Thin Films Interference in Light Transmitted Through Thin Films Color Effects in Interference Conclusion - Applied Optics * - Parabolic Mirrors Searchlights Astronomical Telescopes The Use of Astronomical Telescopes The Convergence of Light by a Set of Prisms Lenses Images Formed by Lenses Real and Virtual Images The Magnifier or Simple Microscope The Compound Microscope Refracting Telescopes Limitations of Optical Instruments: Aberrations and Resolutions - Motion Along a Straightline Path - Position and Displacement along a Line Velocity Varying Velocity Analysis of PositionTime Graphs Slope Instantaneous Velocity-The Slope of the Tangent Line Acceleration Useful Results for Motion with Constant Acceleration Summary - Motion in Space - Position and Displacement Addition and Subtraction of Displacements Multiplying Vectors by Numbers and Scalars Velocity Vectors in Space Components of Vectors Velocity Changes and Constant Vector Acceleration Changing Acceleration The Description of Motion; Frames of Reference Kinematics and Dynamics The Speed of Light - Newton's Law of Motion - Ideas about Force and Motion Motion Without Force Changes in Velocity when a Constant Force Acts Dependence of Change of Velocity on Magnitude of Force Inertial Mass Inertial and Gravitational Mass Newton's Law: Dynamical Measurement of Force; Units Forces that Change, and Newton's Law - Motion at the Earth's Surface - Weight and the Gravitational Field of the Earth Free Fall Projectile Motion: The Vector Nature of Newton's Law of Motion Projectile Motion: Determination of the Path Deflecting Forces and Circular Motion Earth Satellites The Moon's Motion Simple Harmonic Motion Experimental Frames of Reference Fictitious Forces in Accelerated Frames Newton's Law and the Rotation of the Earth - Universal Gravitation and the Solar System - Early Planetary Systems Copernicus'Planetary System Objections to Copernicus' Theory Tycho Brahe Kepler Kinematic Description and the Dynamical Problem Newton Universal Gravitation Some of Newton's Later Accomplishments Laboratory Tests of the Law of Universal Gravitation A Small Discrepancy - Momentum and the Conservation of Momentum - Impulse Momentum Changes in Momentum when Two Bodies Interact The Law of Conservation of Momentum The Center of Mass The Conservation of Momentum in General Forces of Interaction - Work and Kinetic Energy - Energy Transfer Work: A Measure of Energy Transfer More About the Definition of Work Kinetic Energy The Transfer of Kinetic Energy from One Mass to Another Another Look at the Simple Collision Conservation of Kinetic Energy in Elastic Interactions Kinetic Energy and Momentum Work and Kinetic Energy When More Than One Force Acts Loss ofj Kinetic Energy in a Frictional Interaction Conclusion - Potential Energy - The Spring Bumper Potential Energy of Two Interacting Bodies Gravitational Potential Energy near the Surface of the Earth Gravitional Potential Energy in General Escape Energy and Binding Energy Total Mechanical Energy - Angular Momentum and Its Conservation - The Law of Equal Areas Angular Momentum Energy, Angular Momentum, and Trajectories A Special Case: The Motion of Satellites Angular Momentum: A Vector? Conservation of Angular Momentum for Interacting Bodies The Rotation of Rigid Bodies The Angular Momentum of Rigid Bodies; Moment of Inertia Torque -The Rate of Change ot Angular Momentum Orbital Angular Momentum and Spin Conservation of Angular Momentum in General - Heat, Molecular Motion, - and Conservation of Energy - Gas Pressure, Boltzmann's Constant, and Molecules The Dynamics of Gases Temperature and Molecular Kinetic Theory; Internal Energy Mechanical Energy of Bulk Motion and Internal Energy A Quantitative Study of the Conversion of Mechanical to Internal Energy Heat Flow Quantitative Relation of Energy Dissipation and Temperature Rise Conservation of Energy - Irreversible Processes - Some Examples An Experiment with Marbles Qualitative Explanation of the Marble Experiment Some Basic Ideas about Probability States and Distributions The Most Likely Distribution Free Expansion of a Gas Quantitative Aspects Density Fluctuations Inelastic Collisions and Heat Conduction - Entropy - The Macroscopic State Reversible Process The Gas Oscillator Adiabatic and Isothermal Processes Free Expansion and Isothermal Expansion of an Ideal Gas Entropy A Realistic Heat Bath Entropy Changes in an Inelastic Collision Entropy Changes in Heat Conduction at Constant Volume The Entropy of an Ideal Gas When Both Volume and Temperature Change Diffusion The Entropy of a Perfect Gas The Second Law of Thermodynamics - Some Qualitative Facts About Electricity - Attraction and Repulsion between Electrified Objects Electric Forces between the Building Blocks of Matter Insulators and Conductors Some Experiments with an Electroscope Electrostatic Induction Improved Electroscopes and Electrometers Batteries Electric Currents Conductivity of Gases; lonization The Cloud Chamber Conductivity of Solutions Electrons in Metals Diodes, Electron Guns, CathodeRay Oscilloscopes - Coulomb's Law - and the Elementary Electric Charge - Force vs. Distance Electric Charge and Electric Force Electric Force Fields Measuring Small Electric Forces The Elementary Charge A Large Electric Balance The Constant in Coulomb's Law Conservation of Charge The Electric Charge of Electrons and Other Particles of Matter - Energy and Motion of Charges in Electric Fields - Determining the Mass of the Electron and of the Proton Electric Current Electrolytic Measurement of Electric Currents Experimental Checks on Energy Transfer, Electric Forces, and Elementary Charges EMF and the Energy Supplied by a Battery - Speed, Energy, and Mass - The Ultimate Speed Speed and Kinetic Energy Momentum The Momentum of Photons: The Pressure of Light Compton Scattering The ElectronPositron Annihilation Nuclear Reactions: Conservation of Total Energy Mass and Energy Mass for Photons? Review and Outlook - Atoms and Spectra - The Stability of Atoms The Experiments of Franck and Hertz; Atomic Energy Levels Dissecting Atomic Spectra: Excitation and Emission Absorption Spectra The Energy Levels of Hydrogen - Matter Waves - Evidence for Matter Waves When Is the Wave Nature of - Matter Important? Light and Matter Standing Waves A Particle in a "Box" - Atoms, Molecules, and Nuclei - Hydrogenlike Atoms: Energy Levels and Size The Helium Ion and the Helium Atom The Lithium Atom Absorption Spectra lonization Energies The Size of Atoms Electron Shells The Pauli Principle Chemical Binding The Deuteron The Nuclear Force Complex Nuclei - Change in Atoms and Nuclei - The Conservation of Energy The Conservation of Momentum and of Angular Momentum Other Conservation Laws Fission A Closer Look at Alpha Decay Classical Wave Models. Lifetimes and Barrier Penetration Alpha Decay and Barrier Penetration Lifetime and Energy Spread The Emission of Photons Appendix: The Effect of Leakage on the Sharpness of Energy Levels: An Analogue Demonstration - - Table of Trigonometric Functions - Table of Physical Constants and Conversion Factors - Table of Elements (u.a.m.) -

717 S. mit zahlr. Abb., graph. Darst. Gebundene Ausgabe mit Schutzumschlag.

[SW: Lehrbuch Physik, Physical Science]

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