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Discovery of the Electron: Cathode Ray Tube Experiment
Discovery of the Electron: Cathode Ray Tube Experiment -
J. J. Thomson
J. J. ThomsonJ. J. Thomson
Thomson's contributions to cathode rays and the atomic model. -
J.J Thomson
J.J ThomsonJ.J Thomson
Please give us a THUMBS UP if you like our videos!!! don't forget to Subscribe to our Channel :) Source:http://en.wikipedia.org/wiki/J._J._Thomson Joseph John Thomson was born in 1856 in Cheetham Hill, Manchester, England. His mother, Emma Swindells, came from a local textile family. His father, Joseph James Thomson, ran an antiquarian bookshop founded by a great-grandfather from Scotland (hence the Scottish spelling of his surname). He had a brother two years younger than him, Frederick Vernon Thomson. His early education took place in small private schools where he demonstrated great talent and interest in science. In 1870 he was a -
J. J. Thomson
J. J. ThomsonJ. J. Thomson
Chemistry project by Julie Baird, KohEun Cho & Josh English. -
The Discovery of the Electron (2 of 15)
The Discovery of the Electron (2 of 15)The Discovery of the Electron (2 of 15)
Episode 2 of In Search of Giants: Dr Brian Cox takes us on a journey through the history of particle physics. In this episode we learn how J.J. Thomson disco... -
J. J. Thomson's CRT Experiment - The Discovery of the Electron
J. J. Thomson's CRT Experiment - The Discovery of the ElectronJ. J. Thomson's CRT Experiment - The Discovery of the Electron
View in 720p for best quality! USEFUL LINKS: http://www.aip.org/history/electron/ http://www.nyu.edu/classes/tuckerman/adv.chem/lectures/lecture_3/node1.html. -
Cathode Ray Tube
Cathode Ray TubeCathode Ray Tube
Demo 10 HChem "As the cathode rays carry a charge of negative electricity, are deflected by an electrostatic force as if they were negatively electrified, and are acted on by a magnetic force in just the way in which this force would act on a negatively electrified body moving along the path of these rays, I can see no escape from the conclusion that they are charges of negative electricity carried by particles of matter." —J. J. Thomson (Philosophical Magazine, 44, 293 (1897)) -
Cathode Ray Tube
Cathode Ray TubeCathode Ray Tube
This is the official Video of Cathode Ray Tube by sir JJ Thomson.. A Cathode ray tube is the forerunner of the television tube. It is a glass tube from which... -
The Plum Pudding Atomic Model, J.J. Thomson and the Electron - Chemistry
The Plum Pudding Atomic Model, J.J. Thomson and the Electron - ChemistryThe Plum Pudding Atomic Model, J.J. Thomson and the Electron - Chemistry
Learn more and understand better with Mr. Causey and Subscribe for more chemistry videos- http://bit.ly/1jeutVl http://www.yourCHEMcoach.com - Mr. Causey dis... -
Thomson
ThomsonThomson
JJ Thomson's experiment. -
J.J. THOMPSON-Los Rayos Catódicos-Descubrimiento del ELECTRÓN
J.J. THOMPSON-Los Rayos Catódicos-Descubrimiento del ELECTRÓNJ.J. THOMPSON-Los Rayos Catódicos-Descubrimiento del ELECTRÓN
Trabajo experimental con Máquina de Vacío, Tubo de Crookes, Fuente de Alto Voltaje, Imán...Observar el funcionamiento del Tubo de Crookes, su luminosidad y e... -
Cathode Rays Lead to Thomson's Model of the Atom
Cathode Rays Lead to Thomson's Model of the AtomCathode Rays Lead to Thomson's Model of the Atom
In the mid 1800's scientists successfully passed an electric current through a vacuum in a glass tube. They saw a glow from the tube that seemed to emanate f... -
JJ Thomson is Love, JJ Thomson is Life
JJ Thomson is Love, JJ Thomson is LifeJJ Thomson is Love, JJ Thomson is Life
Dedicated to nick "the dude" raxter. -
Thomson's CRT Experiment: The Discovery of the Electron
Thomson's CRT Experiment: The Discovery of the ElectronThomson's CRT Experiment: The Discovery of the Electron
Basic breakdown of the cathode ray tube experiment performed by J. J. Thomson in the late 1800s. This experiment proved the existence of the electron--a smal...
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11:08
Discovery of the Electron: Cathode Ray Tube Experiment
To see all my Chemistry videos, check out http://socratic.org/chemistry J.J. Thompson disc...
published: 28 Nov 2012
author: Tyler DeWitt
Discovery of the Electron: Cathode Ray Tube Experiment
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Discovery of the Electron: Cathode Ray Tube Experiment
- published: 28 Nov 2012
- views: 49252
- author: Tyler DeWitt
To see all my Chemistry videos, check out http://socratic.org/chemistry J.J. Thompson discovered the electron, the first of the subatomic particles, using th...
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2:01
J. J. Thomson
Thomson's contributions to cathode rays and the atomic model....
published: 14 Sep 2009
author: tsuko135
J. J. Thomson
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J. J. Thomson
- published: 14 Sep 2009
- views: 114096
- author: tsuko135
Thomson's contributions to cathode rays and the atomic model.
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12:24
J.J Thomson
Please give us a THUMBS UP if you like our videos!!!
don't forget to Subscribe to our Chan...
published: 04 Aug 2013
J.J Thomson
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J.J Thomson
- published: 04 Aug 2013
- views: 976
Please give us a THUMBS UP if you like our videos!!! don't forget to Subscribe to our Channel :) Source:http://en.wikipedia.org/wiki/J._J._Thomson Joseph John Thomson was born in 1856 in Cheetham Hill, Manchester, England. His mother, Emma Swindells, came from a local textile family. His father, Joseph James Thomson, ran an antiquarian bookshop founded by a great-grandfather from Scotland (hence the Scottish spelling of his surname). He had a brother two years younger than him, Frederick Vernon Thomson. His early education took place in small private schools where he demonstrated great talent and interest in science. In 1870 he was admitted to Owens College. Being only 14 years old at the time, he was unusually young. His parents planned to enroll him as an apprentice engineer to Sharp-Stewart & Co., a locomotive manufacturer, but these plans were cut short when his father died in 1873. He moved on to Trinity College, Cambridge in 1876. In 1880, he obtained his BA in mathematics (Second Wrangler and 2nd Smith's prize) and MA (with Adams Prize) in 1883. In 1884 he became Cavendish Professor of Physics. One of his students was Ernest Rutherford, who would later succeed him in the post. In 1890 he married Rose Elisabeth Paget, daughter of Sir George Edward Paget, KCB, a physician and then Regius Professor of Physic at Cambridge. He had one son, George Paget Thomson, and one daughter, Joan Paget Thomson, with her. One of Thomson's greatest contributions to modern science was in his role as a highly gifted teacher, as seven of his research assistants and his aforementioned son won Nobel Prizes in physics. His son won the Nobel Prize in 1937 for proving the wavelike properties of electrons.
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1:23
J. J. Thomson
Chemistry project by Julie Baird, KohEun Cho & Josh English....
published: 24 Apr 2009
author: chemistryfhs
J. J. Thomson
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J. J. Thomson
- published: 24 Apr 2009
- views: 14494
- author: chemistryfhs
Chemistry project by Julie Baird, KohEun Cho & Josh English.
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2:54
The Discovery of the Electron (2 of 15)
Episode 2 of In Search of Giants: Dr Brian Cox takes us on a journey through the history o...
published: 01 Mar 2008
The Discovery of the Electron (2 of 15)
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The Discovery of the Electron (2 of 15)
- published: 01 Mar 2008
- views: 269776
- author: Science and Technology Facilities Council
Episode 2 of In Search of Giants: Dr Brian Cox takes us on a journey through the history of particle physics. In this episode we learn how J.J. Thomson disco...
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10:44
J. J. Thomson's CRT Experiment - The Discovery of the Electron
View in 720p for best quality! USEFUL LINKS: http://www.aip.org/history/electron/ http://w...
published: 02 Nov 2012
author: Ben\'s Chem Videos
J. J. Thomson's CRT Experiment - The Discovery of the Electron
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J. J. Thomson's CRT Experiment - The Discovery of the Electron
- published: 02 Nov 2012
- views: 6074
- author: Ben\'s Chem Videos
View in 720p for best quality! USEFUL LINKS: http://www.aip.org/history/electron/ http://www.nyu.edu/classes/tuckerman/adv.chem/lectures/lecture_3/node1.html.
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2:49
Cathode Ray Tube
Demo 10 HChem
"As the cathode rays carry a charge of negative electricity, are deflected b...
published: 01 Oct 2008
Cathode Ray Tube
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Cathode Ray Tube
- published: 01 Oct 2008
- views: 186572
Demo 10 HChem "As the cathode rays carry a charge of negative electricity, are deflected by an electrostatic force as if they were negatively electrified, and are acted on by a magnetic force in just the way in which this force would act on a negatively electrified body moving along the path of these rays, I can see no escape from the conclusion that they are charges of negative electricity carried by particles of matter." —J. J. Thomson (Philosophical Magazine, 44, 293 (1897))
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1:48
Cathode Ray Tube
This is the official Video of Cathode Ray Tube by sir JJ Thomson.. A Cathode ray tube is t...
published: 07 Apr 2012
author: Brandocastillo22
Cathode Ray Tube
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Cathode Ray Tube
- published: 07 Apr 2012
- views: 66224
- author: Brandocastillo22
This is the official Video of Cathode Ray Tube by sir JJ Thomson.. A Cathode ray tube is the forerunner of the television tube. It is a glass tube from which...
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6:35
The Plum Pudding Atomic Model, J.J. Thomson and the Electron - Chemistry
Learn more and understand better with Mr. Causey and Subscribe for more chemistry videos- ...
published: 26 Nov 2010
author: Mr. Causey
The Plum Pudding Atomic Model, J.J. Thomson and the Electron - Chemistry
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The Plum Pudding Atomic Model, J.J. Thomson and the Electron - Chemistry
- published: 26 Nov 2010
- views: 22665
- author: Mr. Causey
Learn more and understand better with Mr. Causey and Subscribe for more chemistry videos- http://bit.ly/1jeutVl http://www.yourCHEMcoach.com - Mr. Causey dis...
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1:50
Thomson
JJ Thomson's experiment....
published: 21 Jan 2009
author: stalldog
Thomson
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Thomson
- published: 21 Jan 2009
- views: 19673
- author: stalldog
JJ Thomson's experiment.
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12:19
J.J. THOMPSON-Los Rayos Catódicos-Descubrimiento del ELECTRÓN
Trabajo experimental con Máquina de Vacío, Tubo de Crookes, Fuente de Alto Voltaje, Imán.....
published: 25 Mar 2014
author: Julio Germán Rodríguez Ojeda
J.J. THOMPSON-Los Rayos Catódicos-Descubrimiento del ELECTRÓN
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J.J. THOMPSON-Los Rayos Catódicos-Descubrimiento del ELECTRÓN
- published: 25 Mar 2014
- views: 6994
- author: Julio Germán Rodríguez Ojeda
Trabajo experimental con Máquina de Vacío, Tubo de Crookes, Fuente de Alto Voltaje, Imán...Observar el funcionamiento del Tubo de Crookes, su luminosidad y e...
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3:13
Cathode Rays Lead to Thomson's Model of the Atom
In the mid 1800's scientists successfully passed an electric current through a vacuum in a...
published: 02 Feb 2011
author: Veritasium
Cathode Rays Lead to Thomson's Model of the Atom
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Cathode Rays Lead to Thomson's Model of the Atom
- published: 02 Feb 2011
- views: 64125
- author: Veritasium
In the mid 1800's scientists successfully passed an electric current through a vacuum in a glass tube. They saw a glow from the tube that seemed to emanate f...
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9:40
JJ Thomson is Love, JJ Thomson is Life
Dedicated to nick "the dude" raxter....
published: 15 Jan 2015
JJ Thomson is Love, JJ Thomson is Life
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JJ Thomson is Love, JJ Thomson is Life
- published: 15 Jan 2015
- views: 106
Dedicated to nick "the dude" raxter.
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7:24
Thomson's CRT Experiment: The Discovery of the Electron
Basic breakdown of the cathode ray tube experiment performed by J. J. Thomson in the late ...
published: 17 May 2011
author: Ben\'s Chem Videos
Thomson's CRT Experiment: The Discovery of the Electron
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Thomson's CRT Experiment: The Discovery of the Electron
- published: 17 May 2011
- views: 22315
- author: Ben\'s Chem Videos
Basic breakdown of the cathode ray tube experiment performed by J. J. Thomson in the late 1800s. This experiment proved the existence of the electron--a smal...
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38:15
Discovery of cathode rays and Anode rays and J.J Thomson atomic Model
Cathode rays (also called an electron beam or e-beam) are streams of electrons observed in...
published: 15 Dec 2014
Discovery of cathode rays and Anode rays and J.J Thomson atomic Model
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Discovery of cathode rays and Anode rays and J.J Thomson atomic Model
- published: 15 Dec 2014
- views: 9
Cathode rays (also called an electron beam or e-beam) are streams of electrons observed in vacuum tubes. If an evacuated glass tube is equipped with two electrodes and a voltage is applied, the glass opposite of the negative electrode is observed to glow, due to electrons emitted from and travelling perpendicular to the cathode (the electrode connected to the negative terminal of the voltage supply). They were first observed in 1869 by German physicist Johann Hittorf, and were named in 1876 by Eugen Goldstein Kathodenstrahlen, or cathode rays.[1][2] Electrons were first discovered as the constituents of cathode rays. In 1897 British physicist J. J. Thomson showed the rays were composed of a previously unknown negatively charged particle, which was later named the electron. Cathode ray tubes (CRTs) use a focused beam of electrons deflected by electric or magnetic fields to create the image in a classic television set. Goldstein used a gas discharge tube which had a perforated cathode. When a high electrical potential of several thousand volts is applied between the cathode and anode, faint luminous "rays" are seen extending from the holes in the back of the cathode. These rays are beams of particles moving in a direction opposite to the "cathode rays," which are streams of electrons which move toward the anode. Goldstein called these positive rays Kanalstrahlen, "channel rays" or "canal rays", because they were produced by the holes or channels in the cathode. In 1907 a study of how this "ray" was deflected in a magnetic field, revealed that the particles making up the ray were not all the same mass. The lightest ones, formed when there was some hydrogen gas in the tube, were calculated to be about 1840 times as massive as an electron. They were protons. The Plum Pudding Model was a model of the atom that incorporated the recently discovered electron, and was proposed by J. J. Thomson in 1904, it was also known as J J Thomson's Atomic Model. Thomson had discovered the electron in 1897. The plum pudding model was abandoned after discovery of the atomic nucleus. The plum pudding model of the atom is also known as the Blueberry Muffin Model. In this model, the atom is composed of electrons (which Thomson still called "corpuscles", though G. J. Stoney had proposed that atoms of electricity be called "electrons", in 1894[1]) surrounded by a soup of positive charge to balance the electrons' negative charges, like negatively charged "raisins" surrounded by positively charged "pudding". The electrons (as we know them today) were thought to be positioned throughout the atom, but with many structures possible for positioning multiple electrons, particularly rotating rings of electrons (see below). Instead of a soup, the atom was also sometimes said to have had a "cloud" of positive charge. With this model, Thomson abandoned his earlier "nebular atom" hypothesis in which the atom was composed of immaterial vortices. Now, at least part of the atom was to be composed of Thomson's particulate negative "corpuscles", although the rest of the positively charged part of the atom remained somewhat nebulous and ill-defined. The 1904 Thomson model was disproved by the 1909 gold foil experiment of Hans Geiger and Ernest Marsden. This was interpreted by Ernest Rutherford in 1911[2] [3] to imply a very small nucleus of the atom containing a very high positive charge (in the case of gold, enough to balance about 100 electrons), thus leading to the Rutherford model of the atom. Although gold has an atomic number of 79, immediately after Rutherford's paper appeared in 1911 Antonius Van den Broek made the intuitive suggestion that atomic number is nuclear charge. The matter required experiment to decide. Henry Moseley's work showed experimentally in 1913 (see Moseley's law) that the effective nuclear charge was very close to the atomic number (Moseley found only one unit difference), and Moseley referenced only the papers of Van den Broek and Rutherford. This work culminated in the solar-system-like (but quantum-limited) Bohr model of the atom in the same year, in which a nucleus containing an atomic number of positive charge is surrounded by an equal number of electrons in orbital shells. Bohr had also inspired Moseley's work.
Discovery of cathode rays and Anode rays and J.J Thomson atomic Model
Published: 15 Dec 2014
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6:32
Chemistry & Physics: History of the Atom (Dalton, Thomson, Rutherford, and Bohr Models)
The model of the atom has undergone steady changes to reflect experimental results, starti...
published: 28 Mar 2014
author: Socratica
Chemistry & Physics: History of the Atom (Dalton, Thomson, Rutherford, and Bohr Models)
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Chemistry & Physics: History of the Atom (Dalton, Thomson, Rutherford, and Bohr Models)
- published: 28 Mar 2014
- views: 7633
- author: Socratica
The model of the atom has undergone steady changes to reflect experimental results, starting with John Dalton's model (1803), to JJ Thomson's model (1897), t...
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1:48
jj thomson e i raggi catodici
...
published: 29 Sep 2012
author: silvia faggioli
jj thomson e i raggi catodici
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jj thomson e i raggi catodici
- published: 29 Sep 2012
- views: 5474
- author: silvia faggioli
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2:17
Thomson's Plum Pudding Model of the Atom
JJ Thomson proposed the first model of the atom with subatomic structure. He had performed...
published: 28 Jan 2011
author: Veritasium
Thomson's Plum Pudding Model of the Atom
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Thomson's Plum Pudding Model of the Atom
- published: 28 Jan 2011
- views: 44573
- author: Veritasium
JJ Thomson proposed the first model of the atom with subatomic structure. He had performed a series of experiments and was credited with the discovery of the...
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3:54
PROMO XII J.J THOMSON 2012-2013
...
published: 25 Jun 2013
author: Juan Diaz
PROMO XII J.J THOMSON 2012-2013
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PROMO XII J.J THOMSON 2012-2013
- published: 25 Jun 2013
- views: 59
- author: Juan Diaz
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4:54
J.J. Thomson's Theory
This video is for Mr. Eastwood's IB Chemistry HL class. Enjoy!...
published: 10 Dec 2010
author: AdrianCProductions
J.J. Thomson's Theory
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J.J. Thomson's Theory
- published: 10 Dec 2010
- views: 7408
- author: AdrianCProductions
This video is for Mr. Eastwood's IB Chemistry HL class. Enjoy!
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1:43
Collider: JJ Thomson's Cathode-ray tube
Content Developer Rupert Cole introduces one of the Collider exhibition's star objects: JJ...
published: 21 Nov 2013
author: Science Museum
Collider: JJ Thomson's Cathode-ray tube
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Collider: JJ Thomson's Cathode-ray tube
- published: 21 Nov 2013
- views: 1393
- author: Science Museum
Content Developer Rupert Cole introduces one of the Collider exhibition's star objects: JJ Thomson's cathode-ray tube. Cambridge physicist JJ Thomson used th...
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5:45
Joseph John Thomson (feria)
...
published: 28 Oct 2014
Joseph John Thomson (feria)
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3:16
The Early Life of J.J. Thomson: Computational Chemistry and Gas Discharge Experiments
In this episode of "Profiles in Chemistry," Mike Grayson of the American Society for Mass ...
published: 22 May 2013
The Early Life of J.J. Thomson: Computational Chemistry and Gas Discharge Experiments
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The Early Life of J.J. Thomson: Computational Chemistry and Gas Discharge Experiments
- published: 22 May 2013
- views: 9037
In this episode of "Profiles in Chemistry," Mike Grayson of the American Society for Mass Spectrometry describes the early accomplishments of John Joseph (J. J.) Thomson. In 1897 Thomson discovered the electron through a series of experiments designed to study the nature of electric discharge in a high-vacuum cathode-ray tube. But even before that discovery, Thomson had distinguished himself through his application of advanced mathematics to chemistry. Learn more about J. J. Thomson at http://www.chemheritage.org/discover/...
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6:03
MODELO ATOMICO J.J THOMSON CBT3
TAREA DE QUIMICA....
published: 20 Dec 2010
author: cougarsaztecas
MODELO ATOMICO J.J THOMSON CBT3
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MODELO ATOMICO J.J THOMSON CBT3
- published: 20 Dec 2010
- views: 6947
- author: cougarsaztecas
TAREA DE QUIMICA.
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21:07
J.J. THOMPSON Rayos Catódicos Descubrimiento del ELECTRÓN Experimento con monitor de PC
http://www.youtube.com/user/anajesusa?sub_confirmation=1 http://espaciodecesar.com/?s=thom...
published: 05 Jun 2014
author: Espacio de César
J.J. THOMPSON Rayos Catódicos Descubrimiento del ELECTRÓN Experimento con monitor de PC
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J.J. THOMPSON Rayos Catódicos Descubrimiento del ELECTRÓN Experimento con monitor de PC
- published: 05 Jun 2014
- views: 855
- author: Espacio de César
http://www.youtube.com/user/anajesusa?sub_confirmation=1 http://espaciodecesar.com/?s=thomson Experimento de Joseph John Thomson. Rayos catódicos y descubrim...
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25:19
Química - Modelos Atômicos - EVOLUÇÃO DO MODELO ATÔMICO
Entre em contato: exatasexatas@hotmail.com
Acesse o site do Exatas Exatas: http://exatase...
published: 03 Feb 2013
Química - Modelos Atômicos - EVOLUÇÃO DO MODELO ATÔMICO
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Química - Modelos Atômicos - EVOLUÇÃO DO MODELO ATÔMICO
- published: 03 Feb 2013
- views: 45083
Entre em contato: exatasexatas@hotmail.com Acesse o site do Exatas Exatas: http://exatasexatas.orgfree.com Vamos ver hoje a evolução dos modelos atômicos, da Grécia Antiga até o modelo de Bohr. Demócrito e Leucipo, John Dalton, J.J.Thomson, James Chadwick, Ernest Rutherford e Niels Bohr colaboraram gradativamente a melhorar o modelo de átomo, baseados em experimentos inteligentes e muito bem elaborados. Veja a experiência feita por Thomson, que comprovou a existência dos elétrons, de carga elétrica negativa (se vocês não se importarem com a voz de Google Tradutor, está bem explicado lá): http://www.youtube.com/watch?v=_Pwrvn2Zl5U ATENÇÃO: Não sou o detentor dos direitos (nem tenho a intenção de violá-los) de nenhuma música ou material de terceiros que porventura venham a ser utilizados neste ou em qualquer outro vídeo.
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23:16
Charge and Mass of an Electron - A Level Physics
Continuing the A Level Physics revision series, this video covers, cathode rays, J J Thoms...
published: 21 Mar 2012
author: DrPhysicsA
Charge and Mass of an Electron - A Level Physics
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Charge and Mass of an Electron - A Level Physics
- published: 21 Mar 2012
- views: 13061
- author: DrPhysicsA
Continuing the A Level Physics revision series, this video covers, cathode rays, J J Thomson's experiment, Thermionic emission, an electron volt, measuring t...
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22:03
Atomic Structure: GCSE revision
GCSE level Atomic & Nuclear covering: Rutherford scattering, Rutherford, plum pudding, Dal...
published: 29 Jan 2014
author: DrPhysicsA
Atomic Structure: GCSE revision
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Atomic Structure: GCSE revision
- published: 29 Jan 2014
- views: 3338
- author: DrPhysicsA
GCSE level Atomic & Nuclear covering: Rutherford scattering, Rutherford, plum pudding, Dalton, Marsden, Democritus, J J Thomson, electron, alpha particle, go...
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49:27
11. Orbital Correction and Plum-Pudding Molecules
Freshman Organic Chemistry (CHEM 125) The lecture opens with tricks ("Z-effective" and "Se...
published: 18 Sep 2009
author: YaleCourses
11. Orbital Correction and Plum-Pudding Molecules
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11. Orbital Correction and Plum-Pudding Molecules
- published: 18 Sep 2009
- views: 4372
- author: YaleCourses
Freshman Organic Chemistry (CHEM 125) The lecture opens with tricks ("Z-effective" and "Self Consistent Field") that allow one to correct approximately for t...
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45:03
3. Double Minima, Earnshaw's Theorem and Plum-Puddings
Freshman Organic Chemistry (CHEM 125)
Continuing the discussion of Lewis structures and c...
published: 18 Sep 2009
3. Double Minima, Earnshaw's Theorem and Plum-Puddings
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3. Double Minima, Earnshaw's Theorem and Plum-Puddings
- published: 18 Sep 2009
- views: 13858
Freshman Organic Chemistry (CHEM 125) Continuing the discussion of Lewis structures and chemical forces from the previous lecture, Professor McBride introduces the double-well potential of the ozone molecule and its structural equilibrium. The inability for inverse-square force laws to account for stable arrangements of charged particles is prescribed by Earnshaw's Theorem, which may be visualized by means of lines of force. J.J. Thomson circumvented Earnshaw's prohibition on structure by postulating a "plum-pudding" atom. When Rutherford showed that the nucleus was a point, Thomson had to conclude that Coulomb's law was invalid at small distances. 00:00 - Chapter 1. Distinguishing Equilibrium and Resonance 06:37 - Chapter 2. The Structure and Surface Potential of Ozone 20:57 - Chapter 3. Visualizing Electrostatic Force: Earnshaw's Theorem 35:07 - Chapter 4. J. J. Thomson's Plum Pudding Model Complete course materials are available at the Open Yale Courses website: http://open.yale.edu/courses This course was recorded in Fall 2008.
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139:24
This Week in Tech 500: The Puppy's Package
Hosts: Leo Laporte, Myriam Joire, Owen JJ Stone, and Iain Thomson
MWC 2015 recap, augmente...
published: 09 Mar 2015
This Week in Tech 500: The Puppy's Package
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This Week in Tech 500: The Puppy's Package
- published: 09 Mar 2015
- views: 1886
Hosts: Leo Laporte, Myriam Joire, Owen JJ Stone, and Iain Thomson MWC 2015 recap, augmented vs. virtual reality, watch bands, Google Wireless, and more. Download or subscribe to this show at http://twit.tv/twit. For additional show notes, visit http://twit.tv/twit/500. Bandwidth for This Week in Tech
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30:08
Delirio su "Chi Vuol Essere Milionario"
Camtasia ha registrato male il video, mi scuso per gli attacchi epilettici che potreste av...
published: 17 Oct 2013
Delirio su "Chi Vuol Essere Milionario"
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Delirio su "Chi Vuol Essere Milionario"
- published: 17 Oct 2013
- views: 334
Camtasia ha registrato male il video, mi scuso per gli attacchi epilettici che potreste aver subito! NB: Ho confuso Rutherford con J.J. Thomson, spero mi perdoniate.. VUOI LA PARTNER?? eccola http://awe.sm/iGByZ Link pagina FB https://www.facebook.com/pages/Valerion19-taddy93/362470880548834 PSN taddy93 REGISTRO CON ELGATO GAME CAPTURE HD http://www.elgato.com/gaming/game-capture-hd
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121:59
Copenhagen (Copenhague)
Esta película es una ficción basada en la visita que Werner Heisenberg ( Premio Nobel de F...
published: 19 Mar 2014
author: Rolando Blest
Copenhagen (Copenhague)
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Copenhagen (Copenhague)
- published: 19 Mar 2014
- views: 5249
- author: Rolando Blest
Esta película es una ficción basada en la visita que Werner Heisenberg ( Premio Nobel de Física de 1932 ) efectuó, en la Dinamarca ocupada por Alemania, a Ni...
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22:16
Kafa Ayarı #20 - Tüplü TV ve CRT Monitörden Bugüne Ekranlar
Karşısına kilitlenip kaldığımız bu ekranları kim icat etti? Kafa Ayarı #20'de katot ışık t...
published: 09 Oct 2014
Kafa Ayarı #20 - Tüplü TV ve CRT Monitörden Bugüne Ekranlar
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Kafa Ayarı #20 - Tüplü TV ve CRT Monitörden Bugüne Ekranlar
- published: 09 Oct 2014
- views: 230
Karşısına kilitlenip kaldığımız bu ekranları kim icat etti? Kafa Ayarı #20'de katot ışık tüplerinden bugüne ekranları ve gözlerimiz halini konuşuyoruz... Bir zamanlar karşısında oturup ailecek TRT izlediğimiz tüplü televizyonlar vardı. Önce bu televizyonlara Atari'lerimizi bağlamaya başladık, ardından masamızın üzerindeki bilgisayarımızın ekranına kilitlendik. Bugün neredeyse hepimizin elinde yine bir ekran var, akıllı cep telefonları. Peki kimin fikriydi bu ilk ekran? CRT yani Cathode Ray Tube: Katot Işın Tüpü ile başladığımız sohbetimize buyrun. Soğuyan havanın da etkisiyle sıcak birer kuşburnu eşliğinde CRT'den LCD'ye, Monochrome'dan Plazma'ya kadar farklı ekran türleri, teknolojileri ve bize yaşattıklarını konuşuyoruz. Sıcak içeceğiniz eşliğinde sağlık ve iyi seyirler dileriz... httpvh://youtu.be/Uwe2kh_kUmg Dipnot: CRT'nin mucidi aynı zamanda kablosuz ağ teknolojilerinin ve sayısız diğer buluşun babası olan Karl Ferdinand Braun, tüketici elektroniği ve ürünlerinden, ilginç tasarımlarından tanıdığımız Braun markasının adını aldığı kişi değildir. Bu kişi Max Braun'dur. Braun, İngilizce derslerinde sık sık gördüğümüz "Mr. and Mrs. Brown went to the seaside" cümlesinde olduğu gibi kahverengi anlamına gelen, çok yaygın kullanılan bir soyadıdır. CRT''nin prensiplerini ve elektronu bulan kişi ise Sir Joseph John "J. J." Thomson'dur. Bu iki bilim insanını araştırarak pek çok ilginç şey keyfedebilirsiniz. Disclaimer: Ali gerçekten de kazayla bir tüplü televizyon kırmıştır ancak bu hiç bir şekilde CRT'ye karşı ön yargımız olduğu anlamına gelmez. Saadettin Teksoy bize nostalji yaşatan bir isim olarak güler yüzle anılmıştır, yine program yapsa yine izleriz, o programlar bugün olsa Mythbusters'dan daha ünlü olur. Kendisi Star TV'deki programıyla anılsa da öncesinde 1980 yılında Saddam Hüseyin ile görüşen ilk gazeteci olarak tarihe geçmiş, önemli habercilik ve gazetecilik başarıları sergilemiştir. Programımız tamamen eğlence amaçlıdır, her marka ve isim sahibine aittir.
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38:05
VCE UNIT 1: History of the atom
A few little errors in names: Thomson, not Thompson, Ernest not Ernst ** The first video o...
published: 06 Dec 2012
author: Jason Goudie
VCE UNIT 1: History of the atom
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VCE UNIT 1: History of the atom
- published: 06 Dec 2012
- views: 3968
- author: Jason Goudie
A few little errors in names: Thomson, not Thompson, Ernest not Ernst ** The first video of UNIT 1 VCE chemistry. A quick look at the history of chemistry...
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61:41
Ri Discourse: Jon Butterworth - High energy physics at the LHC
In this Friday Evening Discourse at the Royal Institution, Professor Jon Butterworth, memb...
published: 07 Feb 2012
author: The Royal Institution
Ri Discourse: Jon Butterworth - High energy physics at the LHC
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Ri Discourse: Jon Butterworth - High energy physics at the LHC
- published: 07 Feb 2012
- views: 2541
- author: The Royal Institution
In this Friday Evening Discourse at the Royal Institution, Professor Jon Butterworth, member of the High Energy Physics group on the Atlas experiment, provid...
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41:52
Podcast CP Chem I Ch.3.2a
JJ Thomson, Ernest Rutherford, subatomic particles, gold foil experiment, cathode ray tube...
published: 23 Sep 2014
Podcast CP Chem I Ch.3.2a
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Podcast CP Chem I Ch.3.2a
- published: 23 Sep 2014
- views: 0
JJ Thomson, Ernest Rutherford, subatomic particles, gold foil experiment, cathode ray tube
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27:39
Atomic Theory and Elements
This video covers the following:
1. Definition of an element, atom, and compound.
2. How ...
published: 16 Sep 2014
Atomic Theory and Elements
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Atomic Theory and Elements
- published: 16 Sep 2014
- views: 6
This video covers the following: 1. Definition of an element, atom, and compound. 2. How elements are named and element symbols. 3. Early atomic models: Democritus 4. Dalton's postulates 5. Law of constant composition. 6. J.J. Thomson's experiment. 7. Plum Pudding model of the atom 8. Millikan's oil drop experiment. 9. Rutherford's (scattering, gold foil) experiment. 10. Properties of the subatomic particles. 11. Atomic number 12. Mass number 13. Isotope
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37:37
General Chemistry Lecture: History of Atomic Theory Part 2
Discovery of electron. J. J. Thomson's CRT experiments. Millikan's oil drop experiment. Ru...
published: 09 Apr 2013
author: Glenn Lo
General Chemistry Lecture: History of Atomic Theory Part 2
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General Chemistry Lecture: History of Atomic Theory Part 2
- published: 09 Apr 2013
- views: 192
- author: Glenn Lo
Discovery of electron. J. J. Thomson's CRT experiments. Millikan's oil drop experiment. Rutherford's alpha scattering experiment. CORRECTION: at 10:00, the m...
General Chemistry Lecture: History of Atomic Theory Part 2
Published: 09 Apr 2013
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44:14
Grandes descobertas da Química
Vídeo produzido pela BBC destacando 14 grandes descobertas da Química. 01: O oxigênio - 0:...
published: 31 Mar 2012
author: EnsinoTec
Grandes descobertas da Química
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Grandes descobertas da Química
- published: 31 Mar 2012
- views: 18812
- author: EnsinoTec
Vídeo produzido pela BBC destacando 14 grandes descobertas da Química. 01: O oxigênio - 0:02:45 (Joseph Priestley / Antonie Lavoisier) 02: A teoria do átomo ...
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59:58
Jim Al-Khalili - Quantum Life: How Physics Can Revolutionise Biology
In this Friday Evening Discourse at the Royal Institution, Professor Jim Al-Khalili explor...
published: 30 Jan 2013
Jim Al-Khalili - Quantum Life: How Physics Can Revolutionise Biology
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Jim Al-Khalili - Quantum Life: How Physics Can Revolutionise Biology
- published: 30 Jan 2013
- views: 183314
In this Friday Evening Discourse at the Royal Institution, Professor Jim Al-Khalili explores how the mysteries of quantum theory might be observable at the biological level. Although many examples can be found in the scientific literature dating back half a century, there is still no widespread acceptance that quantum mechanics -- that baffling yet powerful theory of the subatomic world -- might play an important role in biological processes. Biology is, at its most basic, chemistry, and chemistry is built on the rules of quantum mechanics in the way atoms and molecules behave and fit together. As Jim explains, biologists have until recently been dismissive of counter-intuitive aspects of the theory and feel it to be unnecessary, preferring their traditional ball-and-stick models of the molecular structures of life. Likewise, physicists have been reluctant to venture into the messy and complex world of the living cell - why should they when they can test their theories far more cleanly in the controlled environment of the physics lab? But now, experimental techniques in biology have become so sophisticated that the time is ripe for testing ideas familiar to quantum physicists. Can quantum phenomena in the subatomic world impact the biological level and be present in living cells or processes - from the way proteins fold or genes mutate and the way plants harness light in photosynthesis to the way some birds navigate using the Earth's magnetic field? All appear to utilise what Jim terms "the weirdness of the quantum world". The discourse explores multiple theories of quantum mechanics, from superposition to quantum tunnelling, and reveals why "the most powerful theory in the whole of science" remains incredibly mysterious. Plus, watch out for a fantastic explanation of the famous double slit experiment. Watch this video on the Ri Channel with additional learning materials: http://bit.ly/X826sE Friday Evening Discourses The tradition of Friday evening discourses at the Royal Institution was started by Michael Faraday in 1825. Since that time most major scientific figures have spoken in the famous Lecture Theatre at the heart of the Ri building at 21 Albemarle Street. Notable talks include Faraday announcing the existence of the technology of photography in 1839 and J.J. Thomson announcing the existence of the fundamental particle later called the electron in 1897. The Ri is on Twitter: http://twitter.com/ri_science and Facebook: http://www.facebook.com/royalinstitution Subscribe for the latest science videos: http://richannel.org/newsletter
Jim Al-Khalili - Quantum Life: How Physics Can Revolutionise Biology
Published: 30 Jan 2013
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26:00
Electronics: Waveguide Plumbing 1979 US Air Force Training Film
more at http://scitech.quickfound.net
"Covers the 90 E and H bend in rectangular waveguid...
published: 23 Sep 2014
Electronics: Waveguide Plumbing 1979 US Air Force Training Film
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Electronics: Waveguide Plumbing 1979 US Air Force Training Film
- published: 23 Sep 2014
- views: 9
more at http://scitech.quickfound.net "Covers the 90 E and H bend in rectangular waveguides by explaining the effect on the field within the guide. twists, flexible waveguide, and the effects of improper bends are discussed. The choke joint and rotating joint are explained both physically and electrically. The actions of the feedhorn and dummy load are explained by mockup and cellomatic visuals. Actual bends, twists, choke joints, flexible waveguide, feedhorn and dummy load are shown." Electronics playlist: https://www.youtube.com/playlist?list=PLAA9B0175C3E15B47 USAF Training Film TV 906 Air Training Command. Public domain film from the US National Archives, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied. The soundtrack was also processed with volume normalization, noise reduction, clipping reduction, and/or equalization (the resulting sound, though not perfect, is far less noisy than the original). http://creativecommons.org/licenses/by-sa/3.0/ http://en.wikipedia.org/wiki/Waveguide_(electromagnetism) In electromagnetics and communications engineering, the term waveguide may refer to any linear structure that conveys electromagnetic waves between its endpoints. However, the original and most common meaning is a hollow metal pipe used to carry radio waves. This type of waveguide is used as a transmission line mostly at microwave frequencies, for such purposes as connecting microwave transmitters and receivers to their antennas, in equipment such as microwave ovens, radar sets, satellite communications, and microwave radio links. A dielectric waveguide employs a solid dielectric rod rather than a hollow pipe. An optical fibre is a dielectric guide designed to work at optical frequencies. Transmission lines such as microstrip, coplanar waveguide, stripline or coaxial cable may also be considered to be waveguides. The electromagnetic waves in a (metal-pipe) waveguide may be imagined as travelling down the guide in a zig-zag path, being repeatedly reflected between opposite walls of the guide. For the particular case of rectangular waveguide, it is possible to base an exact analysis on this view. Propagation in a dielectric waveguide may be viewed in the same way, with the waves confined to the dielectric by total internal reflection at its surface. Some structures, such as non-radiative dielectric waveguides and the Goubau line, use both metal walls and dielectric surfaces to confine the wave... History The first waveguide was proposed by J. J. Thomson in 1893 and experimentally verified by Oliver Lodge in 1894; the mathematical analysis of the propagating modes within a hollow metal cylinder was first performed by Lord Rayleigh in 1897... Depending on the frequency, waveguides can be constructed from either conductive or dielectric materials. Generally, the lower the frequency to be passed the larger the waveguide is. For example the natural waveguide the earth forms given by the dimensions between the conductive ionosphere and the ground as well as the circumference at the median altitude of the Earth is resonant at 7.83 Hz. This is known as Schumann resonance. On the other hand, waveguides used in extremely high frequency (EHF) communications can be less than a millimeter in width. Electromagnetic waveguides are analyzed by solving Maxwell's equations, or their reduced form, the electromagnetic wave equation, with boundary conditions determined by the properties of the materials and their interfaces. These equations have multiple solutions, or modes, which are eigenfunctions of the equation system. Each mode is characterized by a cutoff frequency below which the mode cannot exist in the guide. Waveguide propagation modes depend on the operating wavelength and polarization and the shape and size of the guide. The longitudinal mode of a waveguide is a particular standing wave pattern formed by waves confined in the cavity...
Electronics: Waveguide Plumbing 1979 US Air Force Training Film
Published: 23 Sep 2014
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43:41
Dawkins' Magic of Reality Chapter 4 myth and science "What are things made of?"
introduction to critical thinking. abstract thinking skill building. Chemistry fundamental...
published: 01 Aug 2013
author: KentStateBSN
Dawkins' Magic of Reality Chapter 4 myth and science "What are things made of?"
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Dawkins' Magic of Reality Chapter 4 myth and science "What are things made of?"
- published: 01 Aug 2013
- views: 203
- author: KentStateBSN
introduction to critical thinking. abstract thinking skill building. Chemistry fundamentals; periodic chart, elements, atoms, molecules, compounds, crystals,...
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26:43
TV Manufacturing: "The Reasons Why" 1959 RCA Desiging and Making Televisions
more at http://scitech.quickfound.net/
"Television manufacturing at RCA's New Jersey plan...
published: 22 Dec 2011
TV Manufacturing: "The Reasons Why" 1959 RCA Desiging and Making Televisions
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TV Manufacturing: "The Reasons Why" 1959 RCA Desiging and Making Televisions
- published: 22 Dec 2011
- views: 52149
more at http://scitech.quickfound.net/ "Television manufacturing at RCA's New Jersey plant. Includes scenes of design, engineering and quality control. Great scenes of TVs with flickering test patterns." Public domain film from the Library of Congress Prelinger Archive, slightly cropped to remove uneven edges, with the aspect ratio corrected, and mild video noise reduction applied. The soundtrack was also processed with volume normalization, noise reduction, clipping reduction, and equalization. http://en.wikipedia.org/wiki/Cathode_ray_tube The cathode ray tube (CRT) is a vacuum tube containing an electron gun (a source of electrons) and a fluorescent screen used to view images. It has a means to accelerate and deflect the electron beam onto the fluorescent screen to create the images. The image may represent electrical waveforms (oscilloscope), pictures (television, computer monitor), radar targets and others. CRTs have also been used as memory devices, in which case the visible light emitted from the fluoresecent material (if any) is not intended to have significant meaning to a visual observer (though the visible pattern on the tube face may cryptically represent the stored data). The CRT uses an evacuated glass envelope which is large, deep (i.e. long from front screen face to rear end), fairly heavy, and relatively fragile. As a matter of safety, the face is typically made of thick lead glass so as to be highly shatter-resistant and to block most X-ray emissions, particularly if the CRT is used in a consumer product. History The experimentation of cathode rays is largely accredited to J.J. Thomson, an English physicist who, in his three famous experiments, was able to deflect cathode rays, a fundamental function of the modern CRT. The earliest version of the CRT was invented by the German physicist Ferdinand Braun in 1897 and is also known as the Braun tube. It was a cold-cathode diode, a modification of the Crookes tube with a phosphor-coated screen. In 1907, Russian scientist Boris Rosing used a CRT in the receiving end of an experimental video signal to form a picture. He managed to display simple geometric shapes onto the screen, which marked the first time that CRT technology was used for what is now known as television. The first cathode ray tube to use a hot cathode was developed by John B. Johnson (who gave his name to the term Johnson noise) and Harry Weiner Weinhart of Western Electric, and became a commercial product in 1922. It was named by inventor Vladimir K. Zworykin in 1929. RCA was granted a trademark for the term (for its cathode ray tube) in 1932; it voluntarily released the term to the public domain in 1950. A 14 inch cathode ray tube showing its deflection coils and electron guns Typical 1950s United States television set The first commercially made electronic television sets with cathode ray tubes were manufactured by Telefunken in Germany in 1934... Overview A cathode ray tube is a vacuum tube which consists of one or more electron guns, possibly internal electrostatic deflection plates, and a phosphor target. In television sets and computer monitors, the entire front area of the tube is scanned repetitively and systematically in a fixed pattern called a raster. An image is produced by controlling the intensity of each of the three electron beams, one for each additive primary color (red, green, and blue) with a video signal as a reference. In all modern CRT monitors and televisions, the beams are bent by magnetic deflection, a varying magnetic field generated by coils and driven by electronic circuits around the neck of the tube, although electrostatic deflection is commonly used in oscilloscopes, a type of diagnostic instrument... Color CRTs Color tubes use three different phosphors which emit red, green, and blue light respectively. They are packed together in stripes (as in aperture grille designs) or clusters called "triads" (as in shadow mask CRTs). Color CRTs have three electron guns, one for each primary color, arranged either in a straight line or in an equilateral triangular configuration (the guns are usually constructed as a single unit). (The triangular configuration is often called "delta-gun", based on its relation to the shape of the Greek letter delta.) A grille or mask absorbs the electrons that would otherwise hit the wrong phosphor. A shadow mask tube uses a metal plate with tiny holes, placed so that the electron beam only illuminates the correct phosphors on the face of the tube. Another type of color CRT uses an aperture grille to achieve the same result...
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21:44
Plum Pudding Model: Atomic Structure 06/37
Topics: Plum Pudding Model by J.J Thompson Physics, class XI, Unit: Visit us at www.m-lear...
published: 05 Mar 2014
author: mlearning india
Plum Pudding Model: Atomic Structure 06/37
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Plum Pudding Model: Atomic Structure 06/37
- published: 05 Mar 2014
- views: 1263
- author: mlearning india
Topics: Plum Pudding Model by J.J Thompson Physics, class XI, Unit: Visit us at www.m-learning.in email us at info@m-learning.in Call at +919826023096, +9198...
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56:15
SMOGBEATZ - Invasion Show #014 (Electro House / Dutch House)
SMOGBEATZ INVASION SHOW with Big Room House, Dutch House, Electro House, Melbourne Bounce,...
published: 05 Jul 2014
author: SmogbeatzMusic
SMOGBEATZ - Invasion Show #014 (Electro House / Dutch House)
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SMOGBEATZ - Invasion Show #014 (Electro House / Dutch House)
- published: 05 Jul 2014
- views: 69
- author: SmogbeatzMusic
SMOGBEATZ INVASION SHOW with Big Room House, Dutch House, Electro House, Melbourne Bounce, Progressive House, Deep House, Tech House. ▷ALL RIGHTS GOES TO: Al...
SMOGBEATZ - Invasion Show #014 (Electro House / Dutch House)
Published: 05 Jul 2014
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38:12
Melbourne Bounce mix
Melbourne Bounce Mix. Songs in description.
Song 1 = Orkestrated and Fries & Shine ft. Bi...
published: 31 Jan 2015
Melbourne Bounce mix
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Melbourne Bounce mix
- published: 31 Jan 2015
- views: 69
Melbourne Bounce Mix. Songs in description. Song 1 = Orkestrated and Fries & Shine ft. Big Nab - Melbourne Bounce (Deorro Remix) Song 2 = Press Play & Nathan Thomson - Sex, Drugs & Bounce (Original Mix) 3:40 Song 3 = Will Sparks - Bourne (Cover Art) 6:23 Song 4 = Deorro & Joel Fletcher - Queef (Original Mix) 9:50 Song 5 = Loopers - Seoul (Esteban David Festival Mix) 13:30 Song 6 = Will Sparks - Pelican (Original Mix) 16:44 Song 7 = Oliver Heldens - Koala (Original Mix) 19:30 Song 8 = Reece Low - Cannon 22:56 Song 9 = Will Sparks - Ah Yeah! 26:20 Song 10 = Will Sparks - Okay (Original Mix) 29:25 Song 11 = Djuro - Drop That Bass (Original Mix) 33:33
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2:28
JJ Thomson
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published: 24 Mar 2015
JJ Thomson
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JJ Thomson
- published: 24 Mar 2015
- views: 1
-- Created using PowToon -- Free sign up at http://www.powtoon.com/join -- Create animated videos and animated presentations for free. PowToon is a free tool that allows you to develop cool animated clips and animated presentations for your website, office meeting, sales pitch, nonprofit fundraiser, product launch, video resume, or anything else you could use an animated explainer video. PowToon's animation templates help you create animated presentations and animated explainer videos from scratch. Anyone can produce awesome animations quickly with PowToon, without the cost or hassle other professional animation services require.
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2:16
J.J.Thomson Interview
Angelo(J.J. Thomson) Sterling(John)...
published: 23 Mar 2015
J.J.Thomson Interview
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J.J.Thomson Interview
- published: 23 Mar 2015
- views: 2
Angelo(J.J. Thomson) Sterling(John)
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4:16
J. J. Thomson Interview
Join Qasim Qasim as he interviews world famous 1906 Noble Physics Prize winner Joseph John...
published: 23 Nov 2014
J. J. Thomson Interview
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J. J. Thomson Interview
- published: 23 Nov 2014
- views: 38
Join Qasim Qasim as he interviews world famous 1906 Noble Physics Prize winner Joseph John Thomson.
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1:24
Synopsis | Rntgen Rays: Memoirs By Rntgen, Stokes & J.J. Thomson By Anonymous
--= THE SYNOPSIS OF YOUR FAVORITE BOOK =---
Where to buy this book?
ISBN: 978114661...
published: 21 Mar 2015
Synopsis | Rntgen Rays: Memoirs By Rntgen, Stokes & J.J. Thomson By Anonymous
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Synopsis | Rntgen Rays: Memoirs By Rntgen, Stokes & J.J. Thomson By Anonymous
- published: 21 Mar 2015
- views: 0
--= THE SYNOPSIS OF YOUR FAVORITE BOOK =--- Where to buy this book? ISBN: 9781146613828 Book Synopsis of Rntgen Rays: Memoirs by Rntgen, Stokes & J.J. Thomson by Anonymous If you want to add where to buy this book, please use the link above: http://www.justasummary.com/wheretobuy/?param=eyJ1aWRBY2hlQm9vayI6Ijk3ODExNDY2MTM4MjgifQ2 If you are the Author, Publisher or Partner and want to send us a message, use this link: http://www.justasummary.com/messageaboutthisbook/?param=eyJ1aWRBY2hlQm9vayI6Ijk3ODExNDY2MTM4MjgifQ2 Report an error: http://www.justasummary.com/reportanerror/?param=eyJ1aWRBY2hlQm9vayI6Ijk3ODExNDY2MTM4MjgifQ2 ------- + Share the book of your favorite author + ------- See more at http://www.justasummary.com/ Subscribe on our Channel. Copyright note: this video only use public information about the book: Public Synopsis, Cover, ISBN number, Author Name and Publisher Name. All rights belong to their respective owners. Contact us for any partnership enquiries, content submission or other requests at http://www.justasummary.com/contactus/?param=eyJ1aWRBY2hlQm9vayI6Ijk3ODExNDY2MTM4MjgifQ2 Contact us for any copyright issues at http://www.justasummary.com/messageaboutthisbook/?param=eyJ1aWRBY2hlQm9vayI6Ijk3ODExNDY2MTM4MjgifQ2 Music from: http://freemusicarchive.org/ https://www.youtube.com/audiolibrary/music By ID: BD9781146613828-2109145
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1:25
What Contributions Did J.J. Thomson Make To The Atom?
...
published: 07 Mar 2015
What Contributions Did J.J. Thomson Make To The Atom?
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What Contributions Did J.J. Thomson Make To The Atom?
- published: 07 Mar 2015
- views: 0
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2:24
J. J. Thomson
New Project 10...
published: 18 Feb 2015
J. J. Thomson
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4:33
J J Thomson 1897
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published: 05 Mar 2015
J J Thomson 1897
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1:24
How-To Build JJ Thomson's Model Of Atomic Structure
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published: 04 Mar 2015
How-To Build JJ Thomson's Model Of Atomic Structure
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How-To Build JJ Thomson's Model Of Atomic Structure
- published: 04 Mar 2015
- views: 0
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6:27
J.J Thomson Cathode Ray Experiment
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published: 02 Mar 2015
J.J Thomson Cathode Ray Experiment
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1:18
JJ THOMSON DEREK AND DALTON
...
published: 28 Jan 2015
JJ THOMSON DEREK AND DALTON
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0:22
About JJ thomson
...
published: 27 Jan 2015
About JJ thomson
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2:58
Atomic History
My Science T3 Final Exam is a animated video where 4 scientist that each discovered differ...
published: 24 Jan 2015
Atomic History
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Atomic History
- published: 24 Jan 2015
- views: 10
My Science T3 Final Exam is a animated video where 4 scientist that each discovered different things about the atom Click [SHOW MORE] to see the Table of Contents Table of Contents ¯¯¯¯¯¯¯¯¯¯¯¯¯¯ 0:28 Dalton 0:48 J.J. Thomson 1:13 Rutherford 1:38 Niels Bohr 2:00 Conclusion
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0:15
JJ Thomson shouldn't be considered for Chief Secretary: V.S Achuthanandan
Leader of the Opposition V.S Achuthanandan said that J.J Thomson, who has been an accused ...
published: 08 Jan 2015
JJ Thomson shouldn't be considered for Chief Secretary: V.S Achuthanandan
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JJ Thomson shouldn't be considered for Chief Secretary: V.S Achuthanandan
- published: 08 Jan 2015
- views: 76
Leader of the Opposition V.S Achuthanandan said that J.J Thomson, who has been an accused in the Palm Oil case shouldn't be considered for the Chief Secretary. He also added that a man facing corruption charges shouldn't be even considered for a promotion according to Supreme Court. Kairali People is a leading Malayalam news channel, owned by Kairali TV, which brings to you round the clock coverage of breaking news. The channel is reputed for its accurate, fast and unbiased coverage of news stories. Apart from regional news, this channel brings to you news from across the globe. Subscribe: https://www.youtube.com/user/peopletvonline Circle us on G+: https://plus.google.com/u/0/b/104936936924302791673/104936936924302791673
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3:00
J.J Thomson Qed competition
my name is sankeerth sankar, studying in NPSI Chennai and this is my entry for the J.J Tho...
published: 27 Dec 2014
J.J Thomson Qed competition
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J.J Thomson Qed competition
- published: 27 Dec 2014
- views: 10
my name is sankeerth sankar, studying in NPSI Chennai and this is my entry for the J.J Thomson Qed competition.Please vote for me!
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2:14
thevaki j j thomson's eperiment
Demonstration on J.J Thomson's experiment...
published: 19 Dec 2014
thevaki j j thomson's eperiment
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thevaki j j thomson's eperiment
- published: 19 Dec 2014
- views: 3
Demonstration on J.J Thomson's experiment
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1:02
JJ Thomson's Atomic model By GVV Rajendra-Narayana e Techno school-Ramapuram
JJ Thomson Atomic model explained by a simple activity Watermilon...
published: 12 Dec 2014
JJ Thomson's Atomic model By GVV Rajendra-Narayana e Techno school-Ramapuram
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- published: 12 Dec 2014
- views: 45
JJ Thomson Atomic model explained by a simple activity Watermilon
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2:08
Electrons: Discovered by Sir J J Thomson
...
published: 12 Dec 2014
Electrons: Discovered by Sir J J Thomson
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1:12
JJ Thomson Experiment- Properties Of Cathode Rays
JJ Thomson Experiment- Properties Of Cathode Rays
BY Namitha
Narayana e techno School ...
published: 12 Dec 2014
JJ Thomson Experiment- Properties Of Cathode Rays
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JJ Thomson Experiment- Properties Of Cathode Rays
- published: 12 Dec 2014
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JJ Thomson Experiment- Properties Of Cathode Rays BY Namitha Narayana e techno School Arumbakkam, Chennai - 600106
JJ Thomson Experiment- Properties Of Cathode Rays
Published: 12 Dec 2014
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0:53
HonChem - JJ Thomson Experiment (Cat Fur/Glass Rod)
...
published: 11 Dec 2014
HonChem - JJ Thomson Experiment (Cat Fur/Glass Rod)
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- published: 11 Dec 2014
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HonChem - JJ Thomson Experiment (Cat Fur/Glass Rod)
Published: 11 Dec 2014
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6:15
J. J. Thomson's charge to mass ratio experiment : EM Magnetic fields 7
...
published: 29 Oct 2014
J. J. Thomson's charge to mass ratio experiment : EM Magnetic fields 7
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- published: 29 Oct 2014
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J. J. Thomson's charge to mass ratio experiment : EM Magnetic fields 7
Published: 29 Oct 2014
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2:54
Dearly Departed Project: J.J. Thomson
Anna, Nhari, & Brendon Dearly Departed Project...
published: 29 Oct 2014
Dearly Departed Project: J.J. Thomson
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Anna, Nhari, & Brendon Dearly Departed Project
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Sir Joseph John "J. J." Thomson, OM, FRS (18 December 1856 – 30 August 1940) was a British physicist and Nobel laureate. He is credited with discovering electrons and isotopes, and inventing the mass spectrometer. Thomson was awarded the 1906 Nobel Prize in Physics for the discovery of the electron and for his work on the conduction of electricity in gases.
Joseph John Thomson was born in 1856 in Cheetham Hill, Manchester, England. His mother, Emma Swindells, came from a local textile family. His father, Joseph James Thomson, ran an antiquarian bookshop founded by a great-grandfather from Scotland (hence the Scottish spelling of his surname). He had a brother two years younger than he, Frederick Vernon Thomson.
His early education took place in small private schools where he demonstrated great talent and interest in science. In 1870 he was admitted to Owens College. Being only 14 years old at the time, he was unusually young. His parents planned to enroll him as an apprentice engineer to Sharp-Stewart & Co., a locomotive manufacturer, but these plans were cut short when his father died in 1873. He moved on to Trinity College, Cambridge in 1876. In 1880, he obtained his BA in mathematics (Second Wrangler and 2nd Smith's prize) and MA (with Adams Prize) in 1883. In 1884 he became Cavendish Professor of Physics. One of his students was Ernest Rutherford, who would later succeed him in the post. In 1890 he married Rose Elisabeth Paget, daughter of Sir George Edward Paget, KCB, a physician and then Regius Professor of Physic at Cambridge. He had one son, George Paget Thomson, and one daughter, Joan Paget Thomson, with her. One of Thomson's greatest contributions to modern science was in his role as a highly gifted teacher, as seven of his research assistants and his aforementioned son won Nobel Prizes in physics. His son won the Nobel Prize in 1937 for proving the wavelike properties of electrons.
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http://en.wikipedia.org/wiki/J._J._Thomson
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