61. Physikmania - Biographien Translate this page eine neue physi- kalisch-chemische Wissenschaft, deren Grund- lagen Erfahrung,Experiment und Mathematik sein sollten johann Jakob balmer geb.1828,gest.1898 http://www.physikmania.de/html/biogr_b.html

Wilhelm Heinrich Walter Baade Roger Bacon Johann Jakob Balmer John Bardeen ... Robert Wilhelm Bunsen Wilhelm Heinrich Walter Baade geb.1893,gest.1960, dt. Astronom erforschte die Struktur des Weltalls Roger Bacon geb.1214,gest.1294, engl.Franziskanermönch forderte im Europa des 13.Jh. eine neue physi- kalisch-chemische Wissenschaft, deren Grund- lagen Erfahrung, Experiment und Mathematik sein sollten Johann Jakob Balmer geb.1828,gest.1898, schweiz. Mathematiker Balmer war Schreib- und Rechenlehrer, da- neben seit 1865 Privatdozent für darstellende Geometrie. Er drückte 1885 als erster die Gesetzmäßigkeit zwischen den Spektrallinien von angeregtem Wasserstoff (Balmer-Serie) in einer Formel aus 1897 erweiterte er seinen Ansatz für die Spektren anderer Elemente. John Bardeen geb. 23.5.1908 Madison gest.1991, US-amerik. Physiker arbeitete an der Entwicklung von Transistoren und an einer Theorie der Supraleitung, Nobelpreis 1956 und 1972 Heinrich Georg Barkhausen geb. 2.12.1881 Bremen

62. Palatines To America Michael Snow Fox 12 OCT 1738 Philadelphia, PA PALMER/balmer, Jacob Snow PANZER, ChristianFrederich Fresia abt 1880 unknown PAPKE, johann Barque Jenny MAY 1872 http://www.genealogy.org/~palam/idx_p.htm

Palatines to America Serving Researchers of German-Speaking Ancestors Home What's New Library Information Search Library Holdings Tips for Searching Library Holdings ... Links to Other German Genealogy Sites Do you have an idea that would help this site to better serve your needs? Palatines to America is a genealogical society dedicated to the study of ancestors from all German-speaking lands, not just the Palatinate. We take our name from the fact that some of the earliest German-speaking immigrants to the American colonies came from a region in present-day Germany known as the Palatinate and were called Palatines. We maintain a rapidly growing library that is available to all who are researching German-speaking ancestry. We also publish a quarterly journal and other publications on German-speaking genealogical research. What's New... March 7, 2003 German Ancestry from Quill Pen to Cyberspace is the theme for the Palatines to America 2003 National Conference, to be held in Columbus, Ohio, June 19, 20, 21, 2003. The conference brochure, containing complete program details and a printable registration form

63. GREEN EGGS REPORT For Fr.sci.astronomie balmer, johann Jakob; Bernard Lempel; Bienvenuechez Laurent Nottale; Bienvenue dans OLab ! Bienvenue sur http://ibd.ar.com/ger/fr/sci/astronomie/content.html

Green Eggs Report by alice at nospam.ar.com The Green Eggs Report is a list of URLs spotted within the fr.sci.astronomie newsgroup Up To: fr.sci Groups under fr.sci.astronomie amateur Refrenced Links 2002 Perseids project by the International Project for RMO 300 Black Hole Links A.A.A.O.V. AEROQUEST MACHINING ... www.teamliberty.fr.st

64. GREEN EGGS REPORT For Fr.sci.astrophysique Up To fr.sci Refrenced Links. AGN02; balmer, johann Jakob; Bienvenue chezLaurent Nottale; Eclipses de Soleil; Etude de l'espace temps, la gravitation; http://ibd.ar.com/ger/fr/sci/astrophysique/content.html

Green Eggs Report by alice at nospam.ar.com The Green Eggs Report is a list of URLs spotted within the fr.sci.astrophysique newsgroup Up To: fr.sci Refrenced Links Balmer, Johann Jakob Bienvenue chez Laurent Nottale Eclipses de Soleil Etude de l'espace temps, la gravitation ... voila - traduction

65. The Balmer Formula On June 25, 1884, johann Jacob balmer took a fairly large step forward whenhe delivered a lecture to the Naturforschende Gesellschaft in Basel. http://dbhs.wvusd.k12.ca.us/Electrons/Balmer-Formula.html

The Balmer Formula Leading up to the Formula: 1869 - 1882 Return to Electrons in Atoms menu In the years after the work of Kirchhoff and Bunsen, the major goal in spectroscopy was to determine the quantitative relationships between the lines in the spectrum of a given element as well as relationships between lines of different substances. For example, George Johnstone Stoney in 1869 speculated that spectra arose from the internal motions of molecules. However, his mathematical theory was rejected and in 1881, Arthur Schuster concluded: "Most probably some law hitherto undiscovered exists . . . . " One year later, Schuster added: "It is the ambitious object of spectroscopy to study the vibrations of atoms and molecules in order to obtain what information we can about the nature of forces which bind them together . . . But we must not too soon expect the discovery of any grand or very general law, for the constitution of what we call a molecule is no doubt a very complicated one, and the difficulty of the problem is so great that were it not for the primary importance of the result which we may finally hope to obtain, all but the most sanguine might well be discouraged to engage in an inquiry which, even after many years of work, may turn out to have been fruitless. . . . In the meantime, we must welcome with delight even the smallest step in the desired direction."

66. ChemTeam: Photo Gallery Menu images); Francis W. Aston; Amedeo Avogadro; johann Jacob balmer;Henri Becquerel; Jons Jacob Berzelius. Gallery Two 154K. NielsBohr http://dbhs.wvusd.k12.ca.us/Gallery/GalleryMenu.html

ChemTeam Photo Gallery Menu Return to ChemTeam Main Menu I remain on the prowl for more images of people (and things) relevant to discoveries in chemistry. Any suggestions as to sources would be appreciated. You may want to turn off graphics and then just load the images you are interested in. Gallery Zero comprises the most recent additions. They will be moved into alphabetical order as new images replace them. The Images of Physicists site (maintained by Harry Nelson of UC, Santa Barbara) has a wide selection of images as well as links to other image banks of physicists. The Edgar Fahs Smith Memorial Collection is maintain at UPenn. It has a wide range of chemistry images, from people to instruments. You may also be interested in my Classic Papers in Chemistry section. If you are interested in obtaining permission to use these photos in your project, please see my response. Gallery Zero [357K] Melvin Calvin Frederick Gardner Cottrell Christiaan Eijkman Luigi Galvani ... Johannes Wislicenus Gallery One [216K] Richard Abegg Anders Jonas Angstrom Aristotle Svante Arrhenius (two images) ... Francis W. Aston

67. Kimyaokulu - Bilimin öncüleri - Kim Ne Katkida Bulundu Ayrica verilen kisa bilgi, bilim adaminin baslica çalisma alanini gösterir.balmer, johann Jakob (balmer), (18251898) isviçreli matematikçi. http://www.kimyaokulu.com/bilimin onculeri/kisa/b.htm

BÝLÝME KÝM NE KATKIDA BULUNDU (KISA-KISA YAPTIÐI ÇALIÞMALAR) Bilim adamýnýn adýnýn (yaklaþýk olarak) söyleniþi parantez içinde verilmiþtir, ikinci parantez içindeki iki tarihten ilki doðum, ikincisi hayatta olmayanlarýn, ölüm yýlýný göstermektedir. Ayrýca verilen kýsa bilgi, bilim adamýnýn baþlýca çalýþma alanýný gösterir. BALMER, Johann Jakob (Balmer), (1825-1898) isviçreli matematikçi. Hidrojen tayf çizgilerine ait bir serinin formülünü kurmuþtur. BECQUEREL, Henri Antoine (Bekrel), (1852 -1908) Fransýz fizikçisi. Manyeto -optik olaylarla fosforesans üzerinde araþtýrmalar yapmýþ ve 1896 da uranyumun kendiliðinden ýþýdýðýný bulmuþtur. 1903 de Curie'lerle beraber Nobel fizik armaðanýný kazanmýþtýr. BETHE, Hans Albrecht (Beðte), (1906- ) Alman fizikçisi. 1935de Amerika'ya gitti ; Atom bombasý araþtýrmalarý enstitüsünün teorik fizik bölümü baþýna getirildi. Baþlýca çalýþmalarý, çekirdek fiziði, kristal fiziði ve kvantlar elektro - dinamiði alanlarýndadýr. Weizsackerle beraber yýldýzlardaki enerjinin kökenini aydýnlatmaða yarýyan çekirdek reaksiyonlarý düþünmüþlerdir. 1967 de bu çalýþmalarýndan dolayý Nobel armaðamyle mükâfatlandýrýlmýþtýr. BOHR, Niels Henrik David (Bor), (1885-1962)

68. Bilimin öncüleri A ANDERSON, Cari David - ARISTOTELE (Aristoteles, Aristo) - ASTON, Francis William- AVOGADRO, Lorenzo Romano Amadeo Graf B- balmer, johann Jakob - BECQUEREL http://www.kimyaokulu.com/bilimin onculeri/bilimin onculeri.htm

BÝLÝMÝN ÖNCÜLERÝ Bilim dünyasýna hizmet etmiþ bilim adamlarýnýn kýsa hayat hikayeleri, bilim dünyasýna kazandýrdýklarý, gaflarý, bilinmeyen yönleri... BÝYOGRAFÝ Ali Rýza Berkem Cabir Bin Hayyan Dimitri Ývanoviç Mendeleyev Tanýmadýðýmýz Einstein ... Oktay Sinanoðlu BÝLÝME KÝM NE KATKIDA BULUNDU (KISA-KISA YAPTIÐI ÇALIÞMALAR) Aþaðýda listesi verilen bilim adamlarý ile ilgili bilgileri incelemek için týklayýnýz A B CÇ ... T UÜ W V Y Z A- ANDERSON, Cari David - ARISTOTELE (Aristoteles, Aristo) - ASTON, Francis William - AVOGADRO, Lorenzo Romano Amadeo Graf B- BALMER, Johann Jakob - BECQUEREL, Henri Antoine - BETHE, Hans Albrecht - BOHR, Niels Henrik David - BORN, Max - BÖYLE, Robert - BROGLIE, Louis - Victor de - BUNSEN, Robert Wilhelm CÇ CHADWICK, James - COMPTON, Arthur Holly - COULOMB, Charles Augustin de - CURIE, Marie - CURlE, Pierre D- DALTON, John - DAVISSON, Clinton Joseph - DEMOCRITUS - DIRAC, Paul Adrien Maurice

69. O ESPECTRO Do HIDROGÊNIO E A SÉRIE De BALMER - 2 Translate this page relato. Em 1885, o professor secundário suiço johann balmer meditousobre esses números procurando um jeito de organizá-los. Esse http://www.fisica.ufc.br/hidrogenio2.htm

Parte da capa do "Diálogo sobre os Sistemas do Mundo", de Galileu Galilei, 1632. ) A SÉRIE DE BALMER E O ÁTOMO DE BOHR O espectro do hidrogênio e a série de Balmer. O hidrogênio é o elemento mais leve e o que tem o espectro mais simples. O espectro do hidrogênio tem quatro raias mais ou menos intensas que são visíveis aos nossos olhos e várias outras que não são. A figura abaixo mostra as quatro linhas visíveis. Cada raia tem um nome de batismo dado pelos espectroscopistas: a vermelha, por exemplo, é a raia H Os números indicam o comprimento de onda da luz de cada componente em uma unidade chamada Angstrom, muito usada em espectroscopia. É um comprimento pequeno; 1 Angstrom vale 0,00000001 centímetros, ou 10 cm. Veja abaixo uma tabela listando as quatro raias do espectro visível do hidrogênio. Cada raia é identificada por sua cor, seu nome, seu comprimento de onda em Angstroms e um número inteiro n que terá papel fundamental em nosso relato. Em 1885, o professor secundário suiço Johann Balmer meditou sobre esses números procurando um jeito de organizá-los. Esse é o ofício dos cientistas: dar ordem e sentidos aos números obtidos nas experiências. E Balmer teve sucesso. Depois de algumas tentativas achou uma fórmula relativamente simples que condensa todos os dados da tabela acima. É a seguinte: Nessa fórmula

70. LISA: AstronomInnen Walter; balmer, johann Jakob Ein Mathematiker, geboren am 1.5. http://astronomy.meta.org/infosys/ELisa/Art/Hist/histPersonenNF.html

LISA: Hauptseite Artikel Geschichte Glossar buch Artikel Lernen Bilder Daten ... Links Suchen LISA: Personen Leute, die einen Beitrag zur Astronomie geleistet haben und/oder die mir wichtig erscheinen Aristarch Baade, Walter Balmer, Johann Jakob Barnard, E.E. Bartsch, Bayer, Johann Belopolski, Aristarch Apollonowitsch Bessel, Friedrich Wilhelm Bethe, Hans Albrecht Biela, W. Biermann, Ludwig Blashko, S.N. Bok, Bart Jan Boltzmann, Ludwig Bradley, James Brahe, Tycho Bunsen, Robert Wilhelm Cassegrain Chandler, S.C.: Entdecker der Chandlerschen Periode der Polschwankungen. Chandrasekhar, S.: einer der produktivsten Wissenschaftler, der mit 2 Nobelpreisen ausgezeichnet wurde. Christy, J.S.: Entdecker des Plutomondes Charon Clark, Alvan Graham: Geboren 1832 als Sohn von Alvan Clark, der beim Testen des 0.47 m Clark Refraktors den ersten Weissen Zwerg, den Begleiter des Sirius, entdeckte. Er starb 1897. Compton, A.H.: Amerikanischer Physiker, lebte von 1892 bis 1962. Entdeckte 1923 den nach ihm benannten Compton-Effekt. Coriolis, Gustave Gaspard de: Geboren 1792, wurde der Franzose als Entdecker der Coriolis-Kraft bekannt. Gestorben 1843.

71. El Modelo Atómico De Born Translate this page En 1885 johann balmer descubrió una ecuación que describe la emisión y absorcióndel espectro del átomo de hidrógeno 1 / l = 1.097 x 10 7 (1 / 4 - 1 / n http://www.astrocosmo.cl/anexos/m-ato_bohr.htm

MODELO ÁTOMICO de BOHR E l físico danés Niels Bohr ( Premio Nobel de Física 1922), postuló que los electrones giran a grandes velocidades alrededor del núcleo atómico. En ese caso, los electrones se disponen en diversas órbitas circulares, las cuales determinan diferentes niveles de energía. Para Bohr, la razón por la cual los electrones que circulan en los átomos no satisfacen las leyes de la electrodinámica clásica, es porque obedecen a las leyes de la mecánica cuántica. Sin duda, giran en torno del núcleo atómico, pero circulan únicamente sobre órbitas tales que sus impulsos resultan determinados por múltiplos enteros de la constante de Planck. Los electrones no radian durante todo el tiempo en que describen sus órbitas; solamente cuando el electrón salta de una órbita a otra, más cercana del núcleo, lanza un cuanto de luz, un fotón. Emitidos por los átomos de gases incandescentes, son los fotones los que engendran las rayas espectrales, y Bohr tuvo el portentoso acierto de poder explicar las rayas del hidrógeno. En efecto, las longitudes de onda de estas líneas espectrales se vuelven calculables a partir del modelo de átomo cuantizado por Bohr, que interpreta también el origen de los espectros elementales embrionados por los rayos X. Bohr, gracias a la cuantización de su átomo, logró el gran éxito de explicar las líneas espectrales del hidrógeno. "Le fue dado –escribió Planck– descubrir en el concepto del cuanto la llave, por tanto tiempo buscada en vano, de la puerta de entrada del maravilloso país de la espectroscopia, que resistiera desde los tiempos de Kirchhoff y Bunsen todas las tentativas para abrirla” . La teoría original debía sufrir numerosas y profundas modificaciones; mas, sin el genio de Bohr, sin "la llave que abrió la puerta", el progreso ulterior, que el gran teórico dinamarqués no dejó de orientar, no hubiera sido posible.

72. Balmer Physics Faces. johann balmer (18251898) discoveredthe formula for the hydrogen spectrum. http://faculty.rmwc.edu/tmichalik/balmer.htm

Physics Faces Johann Balmer (1825-1898) discovered the formula for the hydrogen spectrum.

73. The Balmer Relationship In 1885 johann Jacob balmer (18251898) produces an empirical relationshipbetween the four prominent lines in the hydrogen spectrum. http://gemini.tntech.edu/~tfurtsch/scihist/balmer.htm

Balmer's Relationship for the Hydrogen Spectrum In 1885 Johann Jacob Balmer (1825-1898) produces an empirical relationship between the four prominent lines in the hydrogen spectrum. Utilizing the wavelengths (lambda) published earlier by the Swedish physicist and astronomer Anders Jonas Ångstrom, he showed that these agreed with the wavelengths calculated by the formula where n is a whole number, 3 for the red line, 4 for the green, 5 for the blue and 6 for the violet. Using other values of n in addition to these, the equation produces a series of lines which crowd together as n gets successively larger. If n is taken as infinity, the series converges at a wavelength limit of 3645.6 Å. Without having seen such a line, Balmer suggested that there should be one at the edge of the visible violet. A colleague informed him that this line and several more in the ultraviolet region had been detected. These corresponded almost exactly with the frequencies calculated by Balmer's formula. In his paper, Balmer suggested that there might be other series of lines in the hydrogen spectrum corresponding to wavelengths calculated by replacing 2 in his formula by 1 , etc.

74. References Lhand13, The Left Hand of the Electron -The Eureka Phenomenon. Natsci, The Natureof Science. B balmer,johann. Reference. Context. Primesec, Hydrogen Energy Levels. http://www.fortunecity.com/emachines/e11/86/refer.html

web hosting domain names email addresses related sites Reference Guide People A B C ... H I J K L M N ... P Q R S T U V W X Y Z Ideas A B C D E F G H I J K L M N O P Q R S T U V W X Y Z People A Aristotle Reference Context Freeuni Universe is living thing Alexand Library at Alexandria The Flat Earth A straight line is an aspect of Nature Discover Artist imitates Nature Logic The Law of Excluded Middle Magic Averroists and Neo-Platonists Asimov,Isaac Reference Context Creationism/Evolution Alien Life Belief in paranormal Open Mindedness Pseudo science Innumer Pseudo science Euclid's 5th Dimens Chirality L-hand10 "The Left Hand of the Electron" -Euclid's 5th L-hand1 "The Left Hand of the Electron" -Odds and Evens L-hand2 "The Left Hand of the Electron" -The Left Hand of the Electron L-hand13 "The Left Hand of the Electron" -The Eureka Phenomenon Natsci The Nature of Science B Balmer,Johann Reference Context Primesec Hydrogen Energy Levels Barnsley,Michael Reference Context Pracfrac Fractal Image Compression Friction Fern-Self Similarity Blackmore,Susan Reference Context John Mack's work UFO Temporal Lobe Seizure Front Transcript Physonb Quantum Consciousness Sci-Mat Transcript.Propensity to mystical belief through misunderstanding chance.

75. Buecher Suchen Hilfe Home Uebersicht Neu Links AGB Versand Translate this page Bach Schwebsch, Erich. johann Sebastian Bach und Die Kunst der Fuge. Zweite erweiterteAuflage. Baer, Hans Ueli di Paul Rudolf balmer, Sagen und Geschichten. http://buchantiquariat.com/buecher/linxuche.php3?suchstr=Baer C H

76. Personen The following list catalogues his predecessors since the turn of the century190209 johann Bernet, zu Truffersbrunnen. 1910-13 Peter balmer, Lehrer. http://www.grindelwald.ch/admin/epers.htm

Grindelwald Personalities Leading personalities in the Grindelwald local council Grindelwald personalities in leading canton and government positions Samuel Brawand, cantonal Government Minister from Grindelwald National Members of Parliament and a Federal Counsellor (Cabinet Minister) from Grindelwald ... The clergyman, Gottfried Strasser Leading personalities in the Grindelwald local council As a result of the Local Authority Act set in 1833, the Bernese town councils were established. Since 1833, Grindelwald has seen 40 different mayors. Godi Bohren, the mayor since 1st January, 1996 is the 41st person to hold this office. The following list catalogues his predecessors since the turn of the century: 1902-09 Johann Bernet, zu Truffersbrunnen 1910-13 Peter Balmer, Lehrer 1914/15 Rudolf Bohren, alt Postverwalter 1916-19 Gottfried Bohren, Spillstatt 1920-22 Peter Balmer, Lehrer 1923-27 Christian Kaufmann, Tuftbach 1928-31 Hans Bernet, Stotzhalten 1932-35 Alfred Bhend, im Tuftli

77. J. BALMER. Translate this page FRANCOWO NA WEB! PÁGINA FLUTUANTE!!!.. Uma biografia de J. balmer.johann Jakob balmer ( 1825 - 1898 ), físico suíço. Descobriu http://www.francowo.org/fisuerj/balmer.htm

FRANCOWO NA WEB! PÁGINA FLUTUANTE!!!..... Uma biografia de J. Balmer. Johann Jakob Balmer ( 1825 - 1898 ) Obrigado pela visita !!! info@francowo.org

78. Scientist Biographies 15). balmer, johann Found hydrogen atoms emit a series of lines invisible light v = 1/4 1/n2x 3.29x 1015 s-1 (534). Bartlett http://inst.augie.edu/~calacroi/scientistbiographies.htm

Oxtoby's Scientist Biographies Arrhenuis, Suante : Defined acids and bases in terms of behavior in water (172-173) Aspdin, Joseph : Rediscovered the Roman use of CaO for cement (827) Avogado, Amedeo : Avogardo's Hypothesis in 1811, Equal volumes of different gases (at room temperature and pressure) contain equal numbers of particles (13-15) Balmer, Johann : Found hydrogen atoms emit a series of lines in visible light: v = [1/4 - 1/n2]x 3.29x 1015 s-1 (534) Bartlett, Neil : Found a reaction with Xe and fluorine (800-801) Becquerel, Antoine : Discoverer of radioactivity; Observed potassium uranyl sulfate exposed photographically in the dark (499) Binnig, Gerd: Developed the Scanning Tunnel Microscope (STM), which images low energy atoms Black, Joseph : Showed that marble (CaCO3) dissociated when burned to form CaO and CO2 Bohr, Niels : Proposed H model with energy states; Bohr's model of the atom provided a bridge from theoretical physics to quantum mechanics. (534, 538, 542) Boltzmann, Ludwig : Found f(u) for gas molecules of mass (m) at temperature (T);[Maxwell-Boltzmann speed distribution (113, 116-117)

79. Balmer-Serie Translate this page 1885 hat der Schweizer Mathematiklehrer johann Jakob balmer eine einfache Formelaufgestellt, mit der man die Lage der Linien des Wasserstoffspektrums http://www.bodensee-sternwarte.de/Archiv/HeiB/themen/wass_01/balmer.htm

ARCHIV Spektrallinien des Wasserstoffs Emissionsnebel wie z.B. der Nordamerikanebel (NGC 7000)im Sternbild Schwan, der Californianebel (NGC 1499) im Perseus und Teile des Orionnebels M42 leuchten rot. Verantwortlich für dieses rote Licht ist das Wasserstoffatom. Neutraler atomarer Wasserstoff besteht aus Atomen die nur ein Proton im Kern besitzen und ein Elektron, das sich in der Atomhülle befindet. Das Elektron "schwirrt" aber nicht beliebig um den Kern herum, sondern nimmt ganz bestimmte Energiezustände ein, es ist gebunden. Den niedrigsten Energiezustand nennt man Grundzustand des Wasserstoffatoms. Diesen Zustand hat man sich immer wieder so vorgestellt, dass das negative Elektron auf der innersten Bahn, der sogenannten K-Schale, um den positiv geladenen Atomkern herumkreist. Obwohl dieses Bild anschaulich ist, ist es doch unbefriedigend, da das Elektron auch Welleneigenschaften hat. Angemessener als die Bahnvorstellung ist daher das Wellenmodell. Eine stehende Seilwelle hat verschiedene charakteristische Schwingungszustände, die Eigenschwingungen. Die Abbildung zeigt einige der möglichen Schwingungsformen, die sich durch ihre Energie unterscheiden. In ähnlicher Weise kann man auch das Atom verstehen. Das Elektron bildet hierbei eine stehende Elektronenwelle. Daraus kann man den Aufenthaltsbereich des Elektrons berechnen, den man als Orbital bezeichnet. Im Grundzustand des Wasserstoffatoms ist das ein kugelsymmetrisches 1s-Orbital:

80. Physiker2 23 ) B balmer, johann Jakob; Wasserstoffspektrum 1900 Atomphysik Bardeen u http://home.t-online.de/home/realschule-freudenberg/physiker.htm

Physik Realschule Freudenberg Datei Physiker A B C D ... Z A Archimedes ; -350, Mechanik, Auftrieb Aristarchos von Samos 310-230 v.Ch.; erste Gedanken zu einem heliozentrischen Weltbild Aristoteles Avogadro , Lorenzo Romano Amadeo Carlo, di Quarenga e di Cerreto; 1811, Gastheorie, Teilchenzahl pro Mol (6.0225...*10 B Balmer , Johann Jakob; Wasserstoffspektrum 1900 Atomphysik Bardeen u. Braittain ; Transistor 1948 E-Technik Beaufort , Francis; Sir Windskala 1805 Meteorologie Becquerel Benz , Carl-Friedrich; Auto 1885 Technik, Verbrennungsmotor 1880 Automobil Black Bohr , Niels; Atommodell 1900 Atomphysik Boltzmann Born , Max; wahrscheinlichkeitstheoretische Interpretation der Quantentheorie 1935 Atommodell Boyle , Robert; Gasgesetze 1680 Kalorik Brahe Braun Braun Broglie , Louis Victor Prince de; Materiewellen 1029 Wellenmechanik Brown , Robert; Molekularbewegung 1827 Thermodynamik Bruno Bunsen , Robert Wilhelm; Gasbrenner 1855 C Carnot Celsius , Anders; Thermometer 1720 Kalorik Chadwick , James; Neutron 1932 Physik Chladni Clapeyron Clausius Compton Coulomb Curie D Daguerre Daimler , Gottlieb; Verbrennungsmotor 1870 Automobil, Motorrad 1885 Technik

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