- published: 18 Dec 2012
- views: 185390
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This physics video explains the concept of nuclear fission reaction by illustrating an example of nuclear fission of Uranium 235 atom. Nuclear fission is nuclear reaction process in which nucleus, when bombarded with a neutron, splits into smaller parts, often producing free neutrons, and releasing a very large amount of energy. One of the most important applications of nuclear fission reactions in creating chain reactions.
To see all my Chemistry videos, check out
http://socratic.org/chemistry
In nuclear fission, an unstable atom splits into two or more smaller pieces that are more stable, and releases energy in the process. The fission process also releases extra neutrons, which can then split additional atoms, resulting in a chain reaction that releases a lot of energy. There are also ways to modulate and soak up the neutrons.
- published: 20 May 2012
- views: 64668
What is nuclear fission, and why is it important? When was it discovered, and what is it used for today? Join the Canada Science and Technology Museum and Canadian Nuclear Laboratories to learn the basics on the science and history behind nuclear fission and atomic energy.
Learn about Canadian pioneers in nuclear science:
George C. Laurence - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-george-c-laurence.php
Harriet Brooks Pitcher - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-harriet-brooks-pitcher.php
Learn more about nuclear energy with Let’s Talk Energy: http://www.energy.techno-science.ca/en/energy101/nuclear.php
Music by Kevin Leahy, leahycreate@gmail.com
Canada Science and Technology Museum: http://cstmuseum.techno-science.ca/
Canadian Nuclear Laboratories: http://www.cnl.ca
- published: 04 Dec 2014
- views: 2233
You can directly support Crash Course at http://www.subbable.com/crashcourse Subscribe for as little as $0 to keep up with everything we're doing. Also, if you can afford to pay a little every month, it really helps us to continue producing great content.
Continuing our look at Nuclear Chemistry, Hank takes this episode to talk about Fusion and Fission. What they mean, how they work, their positives, negatives, and dangers. Plus, E=mc2, Mass Defect, and Applications of Fission and Fusion in the real world!
--
Table of Contents
E=mc2
Mass Defect
Fission vs. Fusion
Applications in the Real World
--
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Facebook - http://www.facebook.com/YouTubeCrashCourse
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- published: 19 Nov 2013
- views: 328894
How does a nuclear reactor provide energy? What causes a nuclear meltdown? And how do we make this safe?
All of these questions are answered in this 'Radioactivity' video from The Fuse School GCSE / K12.
At Fuse School, teachers and animators come together to make fun & easy-to-understand videos in Chemistry, Biology, Physics, Maths & ICT. Our OER are available free of charge to anyone. Make sure to subscribe - we are going to create 3000 more!
Be sure to follow our social media for the latest videos and information!
Twitter: https://twitter.com/fuseschool
Facebook: https://www.facebook.com/fuseschool
Google+: http://www.gplus.to/FuseSchool
Youtube: http://www.youtube.com/virtualschooluk
Email: info@fuseschool.org
Website: www.fuseschool.org
This video is distributed under a Creative Commons License:
Attribution-NonCommercial-NoDerivs CC BY-NC-ND
- published: 22 Jan 2013
- views: 59395
In this video, we look at nuclear fission and what happens in a chain reaction. We then explore how nuclear fission is used to generate electricity in a nuclear power station. This topic nearly always comes up in exams and is quite easy to understand.
- published: 12 Feb 2015
- views: 14875
Taylor Wilson was 14 when he built a nuclear fusion reactor in his parents' garage. Now 19, he returns to the TED stage to present a new take on an old topic: fission. Wilson, who has won backing to create a company to realize his vision, explains why he's so excited about his innovative design for small modular fission reactors -- and why it could be the next big step in solving the global energy crisis.
TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more.
Find closed captions and translated subtitles in many languages at http://www.ted.com/translate
Follow TED news on Twitter: http://www.twitter.com/tednews
Like TED on Facebook: https://www.facebook.com/TED
Subscribe to our channel: http://www.youtube.com/user/TEDtalksDirector
- published: 30 Apr 2013
- views: 235876
Follow me!: https://twitter.com/DoodleSci
Doodle Science teaches you high school physics in a less boring way in almost no time!
GCSE Science
Script:
Nuclear power plants generate energy in today’s world by using nuclear fission. Fission is just another word for splitting. So the process of splitting a nucleus is called nuclear fission.
For fission to be done in any practical way we have to use big atoms like uranium or plutonium.
To start off the process, one of these isotopes must absorb a neutron. When this happens, the nucleus becomes unstable and splits into two smaller nuclei. Two or three neutrons are also released in the process, which can go on to cause a chain reaction.
A lot of energy is released during nuclear fission and I mean A LOT. You could meet the demand of an average American every year with just 275g of natural uranium. That’s the equivalent to burning 4.4 tonnes of coal!
Nuclear fusion as you probably guessed is the opposite of nuclear fission as you fuse atoms together instead of splitting them up.
In fusion we use the smallest atoms we can get because it doesn’t require as much energy as bigger atoms would to fuse. Specifically the isotopes hydrogen-1 and hydrogen-2. We create conditions that forces these atoms to be squashed so closely that they fuse into Helium-3 and releases about 3-4 times more energy than a fission reaction.
I’ll leave you to calculate the equivalent in coal.
- published: 12 Jan 2015
- views: 13132
In this video you will learn about nuclear fission and fusion. What are the differences? How does a chain reaction happen?
- published: 19 May 2012
- views: 42637
In this episode of our show, 34 countries spend over 13 billion euros on 42 hectares to reach 150 million degrees with one tokamak. North to south, from St Petersburg to France, we travel in search of the sun.
SUBSCRIBE TO RTD Channel to get documentaries firsthand! http://bit.ly/1MgFbVy
FOLLOW US
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- published: 23 Mar 2016
- views: 117
In nuclear physics and nuclear chemistry, nuclear fission refers to either a nuclear reaction or a radioactive decay process in which the nucleus of an atom splits into smaller parts (lighter nuclei), often producing free neutrons and photons (in the form of gamma rays), and releasing a very large amount of energy, even by the energetic standards of radioactive decay. The two nuclei produced are most often of comparable but slightly different sizes, typically with a mass ratio of products of about 3 to 2, for common fissile isotopes. Most fissions are binary fissions (producing two charged fragments), but occasionally (2 to 4 times per 1000 events), three positively charged fragments are produced, in a ternary fission. The smallest of these fragments in ternary processes ranges in size from a proton to an argon nucleus.
Fission as encountered in the modern world is usually a deliberately-produced manmade nuclear reaction induced by a neutron. It is less commonly encountered as a natural form of spontaneous radioactive decay (not requiring a neutron), occurring especially in very high-mass-number isotopes. The unpredictable composition of the products (which vary in a broad probabilistic and somewhat chaotic manner) distinguishes fission from purely quantum-tunnelling processes such as proton emission, alpha decay and cluster decay, which give the same products each time.
This page contains text from Wikipedia, the Free Encyclopedia -
http://en.wikipedia.org/wiki/Nuclear_fission
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
This article is licensed under the Creative Commons Attribution-ShareAlike 3.0 Unported License, which means that you can copy and modify it as long as the entire work (including additions) remains under this license.
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3:44Physics - Nuclear Fission reaction explained - Physics
Physics - Nuclear Fission reaction explained - PhysicsPhysics - Nuclear Fission reaction explained - Physics
This physics video explains the concept of nuclear fission reaction by illustrating an example of nuclear fission of Uranium 235 atom. Nuclear fission is nuclear reaction process in which nucleus, when bombarded with a neutron, splits into smaller parts, often producing free neutrons, and releasing a very large amount of energy. One of the most important applications of nuclear fission reactions in creating chain reactions. -
8:59Nuclear Fission
Nuclear FissionNuclear Fission
To see all my Chemistry videos, check out http://socratic.org/chemistry In nuclear fission, an unstable atom splits into two or more smaller pieces that are more stable, and releases energy in the process. The fission process also releases extra neutrons, which can then split additional atoms, resulting in a chain reaction that releases a lot of energy. There are also ways to modulate and soak up the neutrons. -
3:55Nuclear Fission 101
Nuclear Fission 101Nuclear Fission 101
What is nuclear fission, and why is it important? When was it discovered, and what is it used for today? Join the Canada Science and Technology Museum and Canadian Nuclear Laboratories to learn the basics on the science and history behind nuclear fission and atomic energy. Learn about Canadian pioneers in nuclear science: George C. Laurence - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-george-c-laurence.php Harriet Brooks Pitcher - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-harriet-brooks-pitcher.php Learn more about nuclear energy with Let’s Talk Energy: http://www.energy.techno-science.ca/en/energy101/nuclear.php Music by Kevin Leahy, leahycreate@gmail.com Canada Science and Technology Museum: http://cstmuseum.techno-science.ca/ Canadian Nuclear Laboratories: http://www.cnl.ca -
11:18Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39
Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39
You can directly support Crash Course at http://www.subbable.com/crashcourse Subscribe for as little as $0 to keep up with everything we're doing. Also, if you can afford to pay a little every month, it really helps us to continue producing great content. Continuing our look at Nuclear Chemistry, Hank takes this episode to talk about Fusion and Fission. What they mean, how they work, their positives, negatives, and dangers. Plus, E=mc2, Mass Defect, and Applications of Fission and Fusion in the real world! -- Table of Contents E=mc2 Mass Defect Fission vs. Fusion Applications in the Real World -- Want to find Crash Course elsewhere on the internet? Facebook - http://www.facebook.com/YouTubeCrashCourse Twitter - http://www.twitter.com/TheCrashCourse Tumblr - http://thecrashcourse.tumblr.com Support CrashCourse on Subbable: http://subbable.com/crashcourse -
2:59What is Nuclear Fission? | Physics | The Fuse School
What is Nuclear Fission? | Physics | The Fuse SchoolWhat is Nuclear Fission? | Physics | The Fuse School
How does a nuclear reactor provide energy? What causes a nuclear meltdown? And how do we make this safe? All of these questions are answered in this 'Radioactivity' video from The Fuse School GCSE / K12. At Fuse School, teachers and animators come together to make fun & easy-to-understand videos in Chemistry, Biology, Physics, Maths & ICT. Our OER are available free of charge to anyone. Make sure to subscribe - we are going to create 3000 more! Be sure to follow our social media for the latest videos and information! Twitter: https://twitter.com/fuseschool Facebook: https://www.facebook.com/fuseschool Google+: http://www.gplus.to/FuseSchool Youtube: http://www.youtube.com/virtualschooluk Email: info@fuseschool.org Website: www.fuseschool.org This video is distributed under a Creative Commons License: Attribution-NonCommercial-NoDerivs CC BY-NC-ND -
3:41GCSE Science Physics Unit 2. Lesson 34: Nuclear fission
GCSE Science Physics Unit 2. Lesson 34: Nuclear fissionGCSE Science Physics Unit 2. Lesson 34: Nuclear fission
In this video, we look at nuclear fission and what happens in a chain reaction. We then explore how nuclear fission is used to generate electricity in a nuclear power station. This topic nearly always comes up in exams and is quite easy to understand. -
12:54Taylor Wilson: My radical plan for small nuclear fission reactors
Taylor Wilson: My radical plan for small nuclear fission reactorsTaylor Wilson: My radical plan for small nuclear fission reactors
Taylor Wilson was 14 when he built a nuclear fusion reactor in his parents' garage. Now 19, he returns to the TED stage to present a new take on an old topic: fission. Wilson, who has won backing to create a company to realize his vision, explains why he's so excited about his innovative design for small modular fission reactors -- and why it could be the next big step in solving the global energy crisis. TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more. Find closed captions and translated subtitles in many languages at http://www.ted.com/translate Follow TED news on Twitter: http://www.twitter.com/tednews Like TED on Facebook: https://www.facebook.com/TED Subscribe to our channel: http://www.youtube.com/user/TEDtalksDirector -
1:30Nuclear Fission and Fusion | GCSE Physics | Doodle Science
Nuclear Fission and Fusion | GCSE Physics | Doodle ScienceNuclear Fission and Fusion | GCSE Physics | Doodle Science
Follow me!: https://twitter.com/DoodleSci Doodle Science teaches you high school physics in a less boring way in almost no time! GCSE Science Script: Nuclear power plants generate energy in today’s world by using nuclear fission. Fission is just another word for splitting. So the process of splitting a nucleus is called nuclear fission. For fission to be done in any practical way we have to use big atoms like uranium or plutonium. To start off the process, one of these isotopes must absorb a neutron. When this happens, the nucleus becomes unstable and splits into two smaller nuclei. Two or three neutrons are also released in the process, which can go on to cause a chain reaction. A lot of energy is released during nuclear fission and I mean A LOT. You could meet the demand of an average American every year with just 275g of natural uranium. That’s the equivalent to burning 4.4 tonnes of coal! Nuclear fusion as you probably guessed is the opposite of nuclear fission as you fuse atoms together instead of splitting them up. In fusion we use the smallest atoms we can get because it doesn’t require as much energy as bigger atoms would to fuse. Specifically the isotopes hydrogen-1 and hydrogen-2. We create conditions that forces these atoms to be squashed so closely that they fuse into Helium-3 and releases about 3-4 times more energy than a fission reaction. I’ll leave you to calculate the equivalent in coal. -
3:56New GCSE BBC Bitesize - Nuclear Energy
New GCSE BBC Bitesize - Nuclear EnergyNew GCSE BBC Bitesize - Nuclear Energy
In this video you will learn about nuclear fission and fusion. What are the differences? How does a chain reaction happen? -
25:52Technology Update 67: Nuclear fission vs nuclear fusion & the world's largest Tokamak
Technology Update 67: Nuclear fission vs nuclear fusion & the world's largest TokamakTechnology Update 67: Nuclear fission vs nuclear fusion & the world's largest Tokamak
In this episode of our show, 34 countries spend over 13 billion euros on 42 hectares to reach 150 million degrees with one tokamak. North to south, from St Petersburg to France, we travel in search of the sun. SUBSCRIBE TO RTD Channel to get documentaries firsthand! http://bit.ly/1MgFbVy FOLLOW US RTD WEBSITE: http://RTD.rt.com/ RTD ON TWITTER: http://twitter.com/RT_DOC RTD ON FACEBOOK: http://www.facebook.com/RTDocumentary RTD ON DAILYMOTION http://www.dailymotion.com/rt_doc RTD ON INSTAGRAM http://instagram.com/rt_documentary/ RTD LIVE http://rtd.rt.com/on-air/
- Activation product
- Albert Einstein
- Alpha decay
- Alpha particle
- Ames Laboratory
- Ames process
- Anschluss
- Antineutrino
- Argon
- Arthur Wahl
- Atom
- Atomic mass
- Atomic nucleus
- Atomic number
- Background radiation
- Barium
- Berlin
- Beryllium
- Beta decay
- Beta particle
- Beta ray
- Beta-decay
- Bibcode
- Binary fission
- Binding energy
- Bioenergy
- Biomass
- Bohr model
- Boron
- Boron-10
- Brachytherapy
- Breeder reactor
- Bubble fusion
- CANDU reactor
- Chain reaction
- Chemical element
- Chemical explosive
- Chemical reaction
- Chicago Pile-1
- Cluster decay
- Coal
- Cogeneration
- Columbia University
- Cosmic ray
- Coulomb's law
- Cusp (singularity)
- Decay chain
- Delayed criticality
- Delayed neutrons
- Dense plasma focus
- Depleted uranium
- Deuterium
- Double beta decay
- Dry cask storage
- Edward Teller
- Elastic energy
- Electric charge
- Electricity
- Electron
- Electron capture
- Electronvolt
- Emilio Segrè
- Energetics
- Energy
- Energy carrier
- Enriched uranium
- Enrico Fermi
- Enthalpy
- Eon (geology)
- Ernest Rutherford
- Ernest Walton
- Eugene T. Booth
- Eugene Wigner
- Exclusion principle
- Exothermic reaction
- Explosive
- Exponential decay
- Fast breeder reactor
- Fast neutron
- Fast-neutron reactor
- Fat Man
- Fertile material
- Fissile
- Fission product
- Fission products
- Fissionable
- FLiBe
- Force
- Fossil fuel
- Francis G. Slack
- Francis Perrin
- Frank Spedding
- Franklin Roosevelt
- Free neutron
- Fritz Strassmann
- Fuel oil
- Fusion bomb
- Fusion neutron
- Fusion power
- Fusor
- G. Norris Glasoe
- Gabon
- Gamma camera
- Gamma ray
- Gasoline
- George Gamow
- Geothermal energy
- Glenn Seaborg
- Graphite
- Half-life
- Hanford Site
- Hans Bethe
- Hans von Halban
- Health physics
- Heat
- Heat engine
- Heavy water
- Heavy water reactor
- Helium
- Helium-3
- Henri Becquerel
- Herbert L. Anderson
- Hesperium
- High level waste
- Hiroshima
- Homi J. Bhabha
- Hydropower
- Hydropower plant
- Hypocenter
- Ida Noddack
- Infrared
- Internal conversion
- Invariant mass
- Ionization chamber
- Ionizing radiation
- Ishfaq Ahmad
- Isidor Isaac Rabi
- Isomeric transition
- Isotope
- Isotope separation
- Isotopes
- James Chadwick
- Japan
- John Cockcroft
- John R. Dunning
- Joseph W. Kennedy
- Kelvin
- Kinetic energy
- Laser safety
- Leslie R. Groves
- Levitated dipole
- Lew Kowarski
- Leó Szilárd
- Light
- Light water reactor
- Lise Meitner
- Little Boy
- Low level waste
- Magnox
- Manhattan Project
- Marie Curie
- Marine energy
- Mark Oliphant
- Mass
- Mean lifetime
- Mechanical work
- Medical imaging
- Microwave
- Migma
- Military strategy
- Millennium
- Minor actinide
- Molten salt reactor
- Mushroom cloud
- N-reactor
- Nagasaki, Nagasaki
- Natural gas
- Natural uranium
- Neutron
- Neutron activation
- Neutron bomb
- Neutron capture
- Neutron emission
- Neutron generator
- Neutron moderator
- Neutron poison
- Neutron radiation
- Neutron reflector
- Neutron temperature
- Neutrons
- Niels Bohr
- Nuclear arms race
- Nuclear chemistry
- Nuclear engineering
- Nuclear explosion
- Nuclear fission
- Nuclear force
- Nuclear fuel
- Nuclear fuel cycle
- Nuclear fusion
- Nuclear Fusion
- Nuclear medicine
- Nuclear meltdown
- Nuclear physics
- Nuclear power
- Nuclear power debate
- Nuclear power plant
- Nuclear propulsion
- Nuclear reaction
- Nuclear reactions
- Nuclear reactor
- Nuclear reprocessing
- Nuclear safety
- Nuclear shell model
- Nuclear submarine
- Nuclear technology
- Nuclear warfare
- Nuclear weapon
- Nuclear weapon yield
- Nuclear weapons
- Nuclear winter
- Nucleon
- Nucleosynthesis
- Oak Ridge, Tennessee
- Oil refinery
- Oklo
- Oklo Fossil Reactors
- Otto Hahn
- Otto Robert Frisch
- Oxidation
- P-process
- Particle accelerator
- Pebble bed reactor
- Petroleum
- Photodisintegration
- Photofission
- Photon
- Pierre Curie
- Plutonium
- Plutonium-239
- Politics
- Polywell
- Positron emission
- Power (physics)
- Princeton University
- Prompt critical
- Proton
- Proton emission
- Proton therapy
- Pu-239
- Pupin Hall
- Pyroelectric fusion
- R-process
- Radiation
- Radiation hardening
- Radiation poisoning
- Radiation therapy
- Radio waves
- Radioactive
- Radioactive decay
- Radioactive waste
- Radioactivity
- Radiobiology
- Radionuclide
- RBMK
- Reprocessed uranium
- Research reactor
- Reversed field pinch
- Richard Rhodes
- Rocket
- Rome
- Rp-process
- Rudolf Peierls
- Rutherford model
- S-process
- Scintigraphy
- SGHWR
- Solar energy
- Solar furnace
- Solar power
- Solar power tower
- Solar thermal energy
- Spallation
- Spent fuel pool
- Spent nuclear fuel
- Spheromak
- Splitting the Atom
- Spontaneous fission
- SSTAR
- Star
- Steam explosion
- Stellarator
- Strong force
- Technology
- Template Radiation
- Ternary fission
- Thermal neutron
- Thermal radiation
- Thermite
- Thermonuclear weapon
- Thorium
- Thorium cycle
- Tidal power station
- TNT equivalent
- Tokamak
- Tomotherapy
- Trinitrotoluene
- Trinity test
- Tritium
- U.S. military
- UHTREX
- Ultraviolet
- Units of energy
- Uranium
- Uranium 235
- Uranium enrichment
- Uranium-233
- Uranium-235
- Uranium-238
- VVER
- W88
- Walter Zinn
- Washington, D.C.
- Water
- Wave farm
- Werner Heisenberg
- Willis Lamb
- Wind energy
- Wind farm
- Wind power
- Working fluid
- World War II
- X-ray
- Yukawa potential
- Z-pinch
- Albert Einstein
- Arthur Wahl
- Edward Teller
- Enrico Fermi
- Ernest Rutherford
- Ernest Walton
- Eugene Wigner
- Francis Perrin
- Frank Spedding
- Fritz Strassmann
- George Gamow
- Hans Bethe
- Hans von Halban
- Henri Becquerel
- Ida Noddack
- Ishfaq Ahmad
- Isidor Isaac Rabi
- James Chadwick
- John Cockcroft
- Lew Kowarski
- Leó Szilárd
- Lise Meitner
- Marie Curie
- Mark Oliphant
- Migma
- Niels Bohr
- Otto Hahn
- Otto Robert Frisch
- Pierre Curie
- Richard Rhodes
- Rudolf Peierls
- Walter Zinn
- Werner Heisenberg
- Willis Lamb
-
Physics - Nuclear Fission reaction explained - Physics
This physics video explains the concept of nuclear fission reaction by illustrating an example of nuclear fission of Uranium 235 atom. Nuclear fission is nuclear reaction process in which nucleus, when bombarded with a neutron, splits into smaller parts, often producing free neutrons, and releasing a very large amount of energy. One of the most important applications of nuclear fission reactions in creating chain reactions. -
Nuclear Fission
To see all my Chemistry videos, check out http://socratic.org/chemistry In nuclear fission, an unstable atom splits into two or more smaller pieces that are more stable, and releases energy in the process. The fission process also releases extra neutrons, which can then split additional atoms, resulting in a chain reaction that releases a lot of energy. There are also ways to modulate and soak up the neutrons. -
Nuclear Fission 101
What is nuclear fission, and why is it important? When was it discovered, and what is it used for today? Join the Canada Science and Technology Museum and Canadian Nuclear Laboratories to learn the basics on the science and history behind nuclear fission and atomic energy. Learn about Canadian pioneers in nuclear science: George C. Laurence - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-george-c-laurence.php Harriet Brooks Pitcher - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-harriet-brooks-pitcher.php Learn more about nuclear energy with Let’s Talk Energy: http://www.energy.techno-science.ca/en/energy101/nuclear.php Music by Kevin Leahy, leahycreate@gmail.com Canada Science and Technology Museum: http://cstmuseum.techno-science.ca/ Canadian Nucle... -
Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39
You can directly support Crash Course at http://www.subbable.com/crashcourse Subscribe for as little as $0 to keep up with everything we're doing. Also, if you can afford to pay a little every month, it really helps us to continue producing great content. Continuing our look at Nuclear Chemistry, Hank takes this episode to talk about Fusion and Fission. What they mean, how they work, their positives, negatives, and dangers. Plus, E=mc2, Mass Defect, and Applications of Fission and Fusion in the real world! -- Table of Contents E=mc2 Mass Defect Fission vs. Fusion Applications in the Real World -- Want to find Crash Course elsewhere on the internet? Facebook - http://www.facebook.com/YouTubeCrashCourse Twitter - http://www.twitter.com/TheCrashCourse Tumblr - http://thecrashcourse.tumblr... -
What is Nuclear Fission? | Physics | The Fuse School
How does a nuclear reactor provide energy? What causes a nuclear meltdown? And how do we make this safe? All of these questions are answered in this 'Radioactivity' video from The Fuse School GCSE / K12. At Fuse School, teachers and animators come together to make fun & easy-to-understand videos in Chemistry, Biology, Physics, Maths & ICT. Our OER are available free of charge to anyone. Make sure to subscribe - we are going to create 3000 more! Be sure to follow our social media for the latest videos and information! Twitter: https://twitter.com/fuseschool Facebook: https://www.facebook.com/fuseschool Google+: http://www.gplus.to/FuseSchool Youtube: http://www.youtube.com/virtualschooluk Email: info@fuseschool.org Website: www.fuseschool.org This video is distributed under a Creative... -
GCSE Science Physics Unit 2. Lesson 34: Nuclear fission
In this video, we look at nuclear fission and what happens in a chain reaction. We then explore how nuclear fission is used to generate electricity in a nuclear power station. This topic nearly always comes up in exams and is quite easy to understand. -
Taylor Wilson: My radical plan for small nuclear fission reactors
Taylor Wilson was 14 when he built a nuclear fusion reactor in his parents' garage. Now 19, he returns to the TED stage to present a new take on an old topic: fission. Wilson, who has won backing to create a company to realize his vision, explains why he's so excited about his innovative design for small modular fission reactors -- and why it could be the next big step in solving the global energy crisis. TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more. Find closed captions and translated subtitles in many languages at http://ww... -
Nuclear Fission and Fusion | GCSE Physics | Doodle Science
Follow me!: https://twitter.com/DoodleSci Doodle Science teaches you high school physics in a less boring way in almost no time! GCSE Science Script: Nuclear power plants generate energy in today’s world by using nuclear fission. Fission is just another word for splitting. So the process of splitting a nucleus is called nuclear fission. For fission to be done in any practical way we have to use big atoms like uranium or plutonium. To start off the process, one of these isotopes must absorb a neutron. When this happens, the nucleus becomes unstable and splits into two smaller nuclei. Two or three neutrons are also released in the process, which can go on to cause a chain reaction. A lot of energy is released during nuclear fission and I mean A LOT. You could meet the demand of an a... -
New GCSE BBC Bitesize - Nuclear Energy
In this video you will learn about nuclear fission and fusion. What are the differences? How does a chain reaction happen? -
Technology Update 67: Nuclear fission vs nuclear fusion & the world's largest Tokamak
In this episode of our show, 34 countries spend over 13 billion euros on 42 hectares to reach 150 million degrees with one tokamak. North to south, from St Petersburg to France, we travel in search of the sun. SUBSCRIBE TO RTD Channel to get documentaries firsthand! http://bit.ly/1MgFbVy FOLLOW US RTD WEBSITE: http://RTD.rt.com/ RTD ON TWITTER: http://twitter.com/RT_DOC RTD ON FACEBOOK: http://www.facebook.com/RTDocumentary RTD ON DAILYMOTION http://www.dailymotion.com/rt_doc RTD ON INSTAGRAM http://instagram.com/rt_documentary/ RTD LIVE http://rtd.rt.com/on-air/
Physics - Nuclear Fission reaction explained - Physics
- Order: Reorder
- Duration: 3:44
- Updated: 18 Dec 2012
- views: 185390
This physics video explains the concept of nuclear fission reaction by illustrating an example of nuclear fission of Uranium 235 atom. Nuclear fission is nucle...
This physics video explains the concept of nuclear fission reaction by illustrating an example of nuclear fission of Uranium 235 atom. Nuclear fission is nuclear reaction process in which nucleus, when bombarded with a neutron, splits into smaller parts, often producing free neutrons, and releasing a very large amount of energy. One of the most important applications of nuclear fission reactions in creating chain reactions.
wn.com/Physics Nuclear Fission Reaction Explained Physics
This physics video explains the concept of nuclear fission reaction by illustrating an example of nuclear fission of Uranium 235 atom. Nuclear fission is nuclear reaction process in which nucleus, when bombarded with a neutron, splits into smaller parts, often producing free neutrons, and releasing a very large amount of energy. One of the most important applications of nuclear fission reactions in creating chain reactions.
- published: 18 Dec 2012
- views: 185390
Nuclear Fission
- Order: Reorder
- Duration: 8:59
- Updated: 20 May 2012
- views: 64668
To see all my Chemistry videos, check out
http://socratic.org/chemistry
In nuclear fission, an unstable atom splits into two or more smaller pieces that are mo...
To see all my Chemistry videos, check out
http://socratic.org/chemistry
In nuclear fission, an unstable atom splits into two or more smaller pieces that are more stable, and releases energy in the process. The fission process also releases extra neutrons, which can then split additional atoms, resulting in a chain reaction that releases a lot of energy. There are also ways to modulate and soak up the neutrons.
wn.com/Nuclear Fission
To see all my Chemistry videos, check out
http://socratic.org/chemistry
In nuclear fission, an unstable atom splits into two or more smaller pieces that are more stable, and releases energy in the process. The fission process also releases extra neutrons, which can then split additional atoms, resulting in a chain reaction that releases a lot of energy. There are also ways to modulate and soak up the neutrons.
- published: 20 May 2012
- views: 64668
Nuclear Fission 101
- Order: Reorder
- Duration: 3:55
- Updated: 04 Dec 2014
- views: 2233
What is nuclear fission, and why is it important? When was it discovered, and what is it used for today? Join the Canada Science and Technology Museum and Canad...
What is nuclear fission, and why is it important? When was it discovered, and what is it used for today? Join the Canada Science and Technology Museum and Canadian Nuclear Laboratories to learn the basics on the science and history behind nuclear fission and atomic energy.
Learn about Canadian pioneers in nuclear science:
George C. Laurence - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-george-c-laurence.php
Harriet Brooks Pitcher - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-harriet-brooks-pitcher.php
Learn more about nuclear energy with Let’s Talk Energy: http://www.energy.techno-science.ca/en/energy101/nuclear.php
Music by Kevin Leahy, leahycreate@gmail.com
Canada Science and Technology Museum: http://cstmuseum.techno-science.ca/
Canadian Nuclear Laboratories: http://www.cnl.ca
wn.com/Nuclear Fission 101
What is nuclear fission, and why is it important? When was it discovered, and what is it used for today? Join the Canada Science and Technology Museum and Canadian Nuclear Laboratories to learn the basics on the science and history behind nuclear fission and atomic energy.
Learn about Canadian pioneers in nuclear science:
George C. Laurence - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-george-c-laurence.php
Harriet Brooks Pitcher - http://cstmuseum.techno-science.ca/en/hall-of-fame/hall-of-fame-harriet-brooks-pitcher.php
Learn more about nuclear energy with Let’s Talk Energy: http://www.energy.techno-science.ca/en/energy101/nuclear.php
Music by Kevin Leahy, leahycreate@gmail.com
Canada Science and Technology Museum: http://cstmuseum.techno-science.ca/
Canadian Nuclear Laboratories: http://www.cnl.ca
- published: 04 Dec 2014
- views: 2233
Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39
- Order: Reorder
- Duration: 11:18
- Updated: 19 Nov 2013
- views: 328894
You can directly support Crash Course at http://www.subbable.com/crashcourse Subscribe for as little as $0 to keep up with everything we're doing. Also, if you ...
You can directly support Crash Course at http://www.subbable.com/crashcourse Subscribe for as little as $0 to keep up with everything we're doing. Also, if you can afford to pay a little every month, it really helps us to continue producing great content.
Continuing our look at Nuclear Chemistry, Hank takes this episode to talk about Fusion and Fission. What they mean, how they work, their positives, negatives, and dangers. Plus, E=mc2, Mass Defect, and Applications of Fission and Fusion in the real world!
--
Table of Contents
E=mc2
Mass Defect
Fission vs. Fusion
Applications in the Real World
--
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wn.com/Nuclear Chemistry Part 2 Fusion And Fission Crash Course Chemistry 39
You can directly support Crash Course at http://www.subbable.com/crashcourse Subscribe for as little as $0 to keep up with everything we're doing. Also, if you can afford to pay a little every month, it really helps us to continue producing great content.
Continuing our look at Nuclear Chemistry, Hank takes this episode to talk about Fusion and Fission. What they mean, how they work, their positives, negatives, and dangers. Plus, E=mc2, Mass Defect, and Applications of Fission and Fusion in the real world!
--
Table of Contents
E=mc2
Mass Defect
Fission vs. Fusion
Applications in the Real World
--
Want to find Crash Course elsewhere on the internet?
Facebook - http://www.facebook.com/YouTubeCrashCourse
Twitter - http://www.twitter.com/TheCrashCourse
Tumblr - http://thecrashcourse.tumblr.com
Support CrashCourse on Subbable: http://subbable.com/crashcourse
- published: 19 Nov 2013
- views: 328894
What is Nuclear Fission? | Physics | The Fuse School
- Order: Reorder
- Duration: 2:59
- Updated: 22 Jan 2013
- views: 59395
How does a nuclear reactor provide energy? What causes a nuclear meltdown? And how do we make this safe?
All of these questions are answered in this 'Radioacti...
How does a nuclear reactor provide energy? What causes a nuclear meltdown? And how do we make this safe?
All of these questions are answered in this 'Radioactivity' video from The Fuse School GCSE / K12.
At Fuse School, teachers and animators come together to make fun & easy-to-understand videos in Chemistry, Biology, Physics, Maths & ICT. Our OER are available free of charge to anyone. Make sure to subscribe - we are going to create 3000 more!
Be sure to follow our social media for the latest videos and information!
Twitter: https://twitter.com/fuseschool
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Google+: http://www.gplus.to/FuseSchool
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Email: info@fuseschool.org
Website: www.fuseschool.org
This video is distributed under a Creative Commons License:
Attribution-NonCommercial-NoDerivs CC BY-NC-ND
wn.com/What Is Nuclear Fission | Physics | The Fuse School
How does a nuclear reactor provide energy? What causes a nuclear meltdown? And how do we make this safe?
All of these questions are answered in this 'Radioactivity' video from The Fuse School GCSE / K12.
At Fuse School, teachers and animators come together to make fun & easy-to-understand videos in Chemistry, Biology, Physics, Maths & ICT. Our OER are available free of charge to anyone. Make sure to subscribe - we are going to create 3000 more!
Be sure to follow our social media for the latest videos and information!
Twitter: https://twitter.com/fuseschool
Facebook: https://www.facebook.com/fuseschool
Google+: http://www.gplus.to/FuseSchool
Youtube: http://www.youtube.com/virtualschooluk
Email: info@fuseschool.org
Website: www.fuseschool.org
This video is distributed under a Creative Commons License:
Attribution-NonCommercial-NoDerivs CC BY-NC-ND
- published: 22 Jan 2013
- views: 59395
GCSE Science Physics Unit 2. Lesson 34: Nuclear fission
- Order: Reorder
- Duration: 3:41
- Updated: 12 Feb 2015
- views: 14875
In this video, we look at nuclear fission and what happens in a chain reaction. We then explore how nuclear fission is used to generate electricity in a nuclear...
In this video, we look at nuclear fission and what happens in a chain reaction. We then explore how nuclear fission is used to generate electricity in a nuclear power station. This topic nearly always comes up in exams and is quite easy to understand.
wn.com/Gcse Science Physics Unit 2. Lesson 34 Nuclear Fission
In this video, we look at nuclear fission and what happens in a chain reaction. We then explore how nuclear fission is used to generate electricity in a nuclear power station. This topic nearly always comes up in exams and is quite easy to understand.
- published: 12 Feb 2015
- views: 14875
Taylor Wilson: My radical plan for small nuclear fission reactors
- Order: Reorder
- Duration: 12:54
- Updated: 30 Apr 2013
- views: 235876
Taylor Wilson was 14 when he built a nuclear fusion reactor in his parents' garage. Now 19, he returns to the TED stage to present a new take on an old topic: f...
Taylor Wilson was 14 when he built a nuclear fusion reactor in his parents' garage. Now 19, he returns to the TED stage to present a new take on an old topic: fission. Wilson, who has won backing to create a company to realize his vision, explains why he's so excited about his innovative design for small modular fission reactors -- and why it could be the next big step in solving the global energy crisis.
TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more.
Find closed captions and translated subtitles in many languages at http://www.ted.com/translate
Follow TED news on Twitter: http://www.twitter.com/tednews
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Subscribe to our channel: http://www.youtube.com/user/TEDtalksDirector
wn.com/Taylor Wilson My Radical Plan For Small Nuclear Fission Reactors
Taylor Wilson was 14 when he built a nuclear fusion reactor in his parents' garage. Now 19, he returns to the TED stage to present a new take on an old topic: fission. Wilson, who has won backing to create a company to realize his vision, explains why he's so excited about his innovative design for small modular fission reactors -- and why it could be the next big step in solving the global energy crisis.
TEDTalks is a daily video podcast of the best talks and performances from the TED Conference, where the world's leading thinkers and doers give the talk of their lives in 18 minutes (or less). Look for talks on Technology, Entertainment and Design -- plus science, business, global issues, the arts and much more.
Find closed captions and translated subtitles in many languages at http://www.ted.com/translate
Follow TED news on Twitter: http://www.twitter.com/tednews
Like TED on Facebook: https://www.facebook.com/TED
Subscribe to our channel: http://www.youtube.com/user/TEDtalksDirector
- published: 30 Apr 2013
- views: 235876
Nuclear Fission and Fusion | GCSE Physics | Doodle Science
- Order: Reorder
- Duration: 1:30
- Updated: 12 Jan 2015
- views: 13132
Follow me!: https://twitter.com/DoodleSci
Doodle Science teaches you high school physics in a less boring way in almost no time!
GCSE Science
Script:
Nuclear...
Follow me!: https://twitter.com/DoodleSci
Doodle Science teaches you high school physics in a less boring way in almost no time!
GCSE Science
Script:
Nuclear power plants generate energy in today’s world by using nuclear fission. Fission is just another word for splitting. So the process of splitting a nucleus is called nuclear fission.
For fission to be done in any practical way we have to use big atoms like uranium or plutonium.
To start off the process, one of these isotopes must absorb a neutron. When this happens, the nucleus becomes unstable and splits into two smaller nuclei. Two or three neutrons are also released in the process, which can go on to cause a chain reaction.
A lot of energy is released during nuclear fission and I mean A LOT. You could meet the demand of an average American every year with just 275g of natural uranium. That’s the equivalent to burning 4.4 tonnes of coal!
Nuclear fusion as you probably guessed is the opposite of nuclear fission as you fuse atoms together instead of splitting them up.
In fusion we use the smallest atoms we can get because it doesn’t require as much energy as bigger atoms would to fuse. Specifically the isotopes hydrogen-1 and hydrogen-2. We create conditions that forces these atoms to be squashed so closely that they fuse into Helium-3 and releases about 3-4 times more energy than a fission reaction.
I’ll leave you to calculate the equivalent in coal.
wn.com/Nuclear Fission And Fusion | Gcse Physics | Doodle Science
Follow me!: https://twitter.com/DoodleSci
Doodle Science teaches you high school physics in a less boring way in almost no time!
GCSE Science
Script:
Nuclear power plants generate energy in today’s world by using nuclear fission. Fission is just another word for splitting. So the process of splitting a nucleus is called nuclear fission.
For fission to be done in any practical way we have to use big atoms like uranium or plutonium.
To start off the process, one of these isotopes must absorb a neutron. When this happens, the nucleus becomes unstable and splits into two smaller nuclei. Two or three neutrons are also released in the process, which can go on to cause a chain reaction.
A lot of energy is released during nuclear fission and I mean A LOT. You could meet the demand of an average American every year with just 275g of natural uranium. That’s the equivalent to burning 4.4 tonnes of coal!
Nuclear fusion as you probably guessed is the opposite of nuclear fission as you fuse atoms together instead of splitting them up.
In fusion we use the smallest atoms we can get because it doesn’t require as much energy as bigger atoms would to fuse. Specifically the isotopes hydrogen-1 and hydrogen-2. We create conditions that forces these atoms to be squashed so closely that they fuse into Helium-3 and releases about 3-4 times more energy than a fission reaction.
I’ll leave you to calculate the equivalent in coal.
- published: 12 Jan 2015
- views: 13132
New GCSE BBC Bitesize - Nuclear Energy
- Order: Reorder
- Duration: 3:56
- Updated: 19 May 2012
- views: 42637
In this video you will learn about nuclear fission and fusion. What are the differences? How does a chain reaction happen?
In this video you will learn about nuclear fission and fusion. What are the differences? How does a chain reaction happen?
wn.com/New Gcse BBC Bitesize Nuclear Energy
In this video you will learn about nuclear fission and fusion. What are the differences? How does a chain reaction happen?
- published: 19 May 2012
- views: 42637
Technology Update 67: Nuclear fission vs nuclear fusion & the world's largest Tokamak
- Order: Reorder
- Duration: 25:52
- Updated: 23 Mar 2016
- views: 117
In this episode of our show, 34 countries spend over 13 billion euros on 42 hectares to reach 150 million degrees with one tokamak. North to south, from St Pete...
In this episode of our show, 34 countries spend over 13 billion euros on 42 hectares to reach 150 million degrees with one tokamak. North to south, from St Petersburg to France, we travel in search of the sun.
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wn.com/Technology Update 67 Nuclear Fission Vs Nuclear Fusion The World's Largest Tokamak
In this episode of our show, 34 countries spend over 13 billion euros on 42 hectares to reach 150 million degrees with one tokamak. North to south, from St Petersburg to France, we travel in search of the sun.
SUBSCRIBE TO RTD Channel to get documentaries firsthand! http://bit.ly/1MgFbVy
FOLLOW US
RTD WEBSITE: http://RTD.rt.com/
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RTD LIVE http://rtd.rt.com/on-air/
- published: 23 Mar 2016
- views: 117
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3:44
Physics - Nuclear Fission reaction explained - Physics
This physics video explains the concept of nuclear fission reaction by illustrating an exa...
published: 18 Dec 2012
Physics - Nuclear Fission reaction explained - Physics
Physics - Nuclear Fission reaction explained - Physics
- Report rights infringement
- published: 18 Dec 2012
- views: 185390
8:59
Nuclear Fission
To see all my Chemistry videos, check out
http://socratic.org/chemistry
In nuclear fissio...
published: 20 May 2012
Nuclear Fission
Nuclear Fission
- Report rights infringement
- published: 20 May 2012
- views: 64668
3:55
Nuclear Fission 101
What is nuclear fission, and why is it important? When was it discovered, and what is it u...
published: 04 Dec 2014
Nuclear Fission 101
Nuclear Fission 101
- Report rights infringement
- published: 04 Dec 2014
- views: 2233
11:18
Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39
You can directly support Crash Course at http://www.subbable.com/crashcourse Subscribe for...
published: 19 Nov 2013
Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39
Nuclear Chemistry Part 2: Fusion and Fission - Crash Course Chemistry #39
- Report rights infringement
- published: 19 Nov 2013
- views: 328894
2:59
What is Nuclear Fission? | Physics | The Fuse School
How does a nuclear reactor provide energy? What causes a nuclear meltdown? And how do we m...
published: 22 Jan 2013
What is Nuclear Fission? | Physics | The Fuse School
What is Nuclear Fission? | Physics | The Fuse School
- Report rights infringement
- published: 22 Jan 2013
- views: 59395
3:41
GCSE Science Physics Unit 2. Lesson 34: Nuclear fission
In this video, we look at nuclear fission and what happens in a chain reaction. We then ex...
published: 12 Feb 2015
GCSE Science Physics Unit 2. Lesson 34: Nuclear fission
GCSE Science Physics Unit 2. Lesson 34: Nuclear fission
- Report rights infringement
- published: 12 Feb 2015
- views: 14875
12:54
Taylor Wilson: My radical plan for small nuclear fission reactors
Taylor Wilson was 14 when he built a nuclear fusion reactor in his parents' garage. Now 19...
published: 30 Apr 2013
Taylor Wilson: My radical plan for small nuclear fission reactors
Taylor Wilson: My radical plan for small nuclear fission reactors
- Report rights infringement
- published: 30 Apr 2013
- views: 235876
1:30
Nuclear Fission and Fusion | GCSE Physics | Doodle Science
Follow me!: https://twitter.com/DoodleSci
Doodle Science teaches you high school physics ...
published: 12 Jan 2015
Nuclear Fission and Fusion | GCSE Physics | Doodle Science
Nuclear Fission and Fusion | GCSE Physics | Doodle Science
- Report rights infringement
- published: 12 Jan 2015
- views: 13132
3:56
New GCSE BBC Bitesize - Nuclear Energy
In this video you will learn about nuclear fission and fusion. What are the differences? H...
published: 19 May 2012
New GCSE BBC Bitesize - Nuclear Energy
New GCSE BBC Bitesize - Nuclear Energy
- Report rights infringement
- published: 19 May 2012
- views: 42637
25:52
Technology Update 67: Nuclear fission vs nuclear fusion & the world's largest Tokamak
In this episode of our show, 34 countries spend over 13 billion euros on 42 hectares to re...
published: 23 Mar 2016
Technology Update 67: Nuclear fission vs nuclear fusion & the world's largest Tokamak
Technology Update 67: Nuclear fission vs nuclear fusion & the world's largest Tokamak
- Report rights infringement
- published: 23 Mar 2016
- views: 117
Physics - Nuclear Fission reaction explained - Phy...
Nuclear Fission...
Nuclear Fission 101...
Nuclear Chemistry Part 2: Fusion and Fission - Cra...
What is Nuclear Fission? | Physics | The Fuse Scho...
GCSE Science Physics Unit 2. Lesson 34: Nuclear fi...
Taylor Wilson: My radical plan for small nuclear f...
Nuclear Fission and Fusion | GCSE Physics | Doodle...
New GCSE BBC Bitesize - Nuclear Energy...
Technology Update 67: Nuclear fission vs nuclear f...
photo: Creative Commons / Gage Skidmore
GOP Wants to Declare War On Islamic Ideology In Wake Of Orlando Shooting
Edit WorldNews.com 17 Jun 2016
Article by WN.com Correspondent Dallas DarlingRepublicans are giving a whole new meaning to Carl Von Clausewitz’s famous military theory “war is the continuation of Politik by other means.” ... “Groups like ISIS want to claim that they are the true leaders of over a billion Muslims…who reject their crazy notions” said the president ... Indeed, some view it as either a conservative or liberal movement dependent on their notion of Islam....
photo: Creative Commons / TheBostonianLonghorn
IAAF Refuses To Lift Ban, Russian Olympic Team To Miss Rio Olympics
Edit WorldNews.com 17 Jun 2016
A decision by the International Association of Athletics Federations (IAAF) governing body Friday will force Russian track and field athletes to miss the Rio Olympics after the sport's governing body decided unanimously to keep a ban in place ahead of the Games, SkyNews reported.In November, the IAAF provisionally suspended the country’s athletes from competition....
photo: Public Domain / Facebook/ Attanai Thaiyuanwong
Video: Godzilla-sized lizard tries to enter home in Thailand
Edit Deccan Chronicle 17 Jun 2016
How often do you see a Godzilla-sized lizard knocking your door? On Wednesday a Thai resident captured a video of his encounter with a giant reptile, who was knocking on his door trying to get into his house. Attanai Thaiyuanwong found this huge lizard trying to make his way into his place and within no time shared the photos of it on Facebook ... . ....
photo: AP / Marcio Jose Sanchez
Apple Suffers Another China Setback With Beijing Patent Ruling
Edit WorldNews.com 17 Jun 2016
Apple Inc ... We appealed an administrative order from a regional patent tribunal in Beijing last month and as a result the order has been stayed pending review by the Beijing IP Court.” – Kristen Huguet Still, the decision is another sign that Chinese officials are scrutinizing the company more closely and comes as Apple, already grappling with slowing iPhone sales, prepares to roll out the next version of its iconic smartphone....
« back to news headlines
Sweden Won't Become Carbon-Free If It Ditches Its Nuclear Power
Edit IFL Science 14 Jun 2016
They are gradually phasing out their nuclear power, which has an insignificant carbon footprint ... It’s likely that without the constant and efficient supply of power from nuclear fission, a back-up electricity system will be required, and this will most certainly take the form of a fossil fuel combustions system – probably natural gas ... This highlights the need for nuclear power in the fight against man-made climate change....
Here’s how to wreck the Republican Party
Edit Lexington Herald-Leader 13 Jun 2016
If someone wanted to destroy the Republican Party, at least for this presidential cycle, here’s what they could do.. Find a famous celebrity with instant name recognition. He should be presidential-tall with an expansive ego that makes nuclear fission look tame. Convince him that his complete lack of qualifications and electoral experience is actually the best way to stand out in a crowded field of highly qualified politicians ... ....
Congress approves limiting refugees admitted to the U.S.
Edit The News & Observer 13 Jun 2016
If someone wanted to destroy the Republican Party, at least for this presidential cycle, here’s what they could do.. Find a famous celebrity with instant name recognition. He should be presidential-tall with an expansive ego that makes nuclear fission look tame. Convince him that his complete lack of qualifications and electoral experience is actually the best way to stand out in a crowded field of highly qualified politicians ... ....
Worse Than a Disaster
Edit Dissident Voice 07 Jun 2016
Nuclear fission is when atoms split apart into smaller atoms. With nuclear bombs, fission must happen extremely quickly to charge a large explosion whereas, in a nuclear reactor, fission must happen very slowly to make heat, which, in turn, is used to boil water to make steam to turn a turbine to generate electricity....
Watts Bar Unit 2 Produces Electricity for the First Time (TVA - Tennessee Valley Authority)
Edit Public Technologies 04 Jun 2016
- The Tennessee Valley Authority's Watts Bar nuclear Unit 2 generated electricity onto its power grid for the first time on Friday, June 3 ... Nuclear Officer Joe Grimes ... Watts Bar Unit 2, like Unit 1, produces electricity using controlled nuclear fission to generate heat, which is used to produce steam to turn turbines and a single, large generator....
Matt Damon's Commencement address (MIT - Massachusetts Institute of Technology)
Edit Public Technologies 03 Jun 2016
(Source. MIT - Massachusetts Institute of Technology). Below is the prepared text of the Commencement address delivered by actor and filmmaker Matt Damon for the Institute's 2016 Commencement, held June 3, 2016. Thank you. Thank you, President Reif - and thank you, Class of 2016!. It's an honor to be part of this day - an honor to be here with you, with your friends, your professors, and your parents ... Nobel Prize winners ... Nuclear fission....
‘I Now Know Better Than to Cry at MIT’
Edit Time Magazine 03 Jun 2016
. Thank you. Thank you, President Reif — and thank you, Class of 2016!. It’s an honor to be part of this day — an honor to be here with you, with your friends, your professors, and your parents. But let’s be honest — It’s an honor I didn’t earn. Let’s just put that out there. I mean, I’ve seen the list of previous commencement speakers. Nobel Prize winners ... Go ahead ... Nuclear fission....
Fusion-powered cars soon? Princeton U. accelerates its new energy research | Editorial
Edit NJ dot com 02 Jun 2016
Princeton University and the U.S. Department of Energy have collaborated to run the Princeton Plasma Physics Laboratory in hopes of finding a way to make fusion a viable energy alternative ... The new energy will come from fusion, the same process used by our sun to provide light and warmth to our planet ... Department of Energy ... PPPL says it is safe since there are no dangerous byproducts such as those left over from nuclear fission ... ....
Re Generate (Texas A&M; University)
Edit Public Technologies 02 Jun 2016
(Source. Texas A&M; University) ... (Credit. Robb Kendrick / Texas A&M; Foundation.) ... EDITOR'S NOTE ... #TAMUleads. ###. Solar power ... Among other breakthroughs thus far in his nearly four-decade career, he has invented a way to produce electric power from nuclear fission in a reactor that is intrinsically stable, cannot melt down, eats its own waste, does not produce bomb-capable isotopes and uses a fuel that is 10 times more plentiful than uranium....
While the West was applying pressure on Iran to abandon its civilian nuclear programme, the Saudis were buying the atomic bomb from Israel or Pakistan. By Thierry Meyssan
Edit Information Clearing House 17 Mar 2016
The Hebrew state has never signed the Non-Proliferation Treaty, and has always avoided answering questions about its nuclear programme ... He restarted the teaching of nuclear physics, and launched a research programme which was aimed, in particular, at finding a way of producing electricity from atomic fusion and not nuclear fission, which is currently used by the United States, Russia, France, China and Japan....
All Aboard: Getting Users to Hop on the Secure Text Messaging Bandwagon (Spok Holdings Inc)
Edit Public Technologies 16 Mar 2016
(Source. Spok Holdings Inc). March 16, 2016 at 11.00 AM. Let's say you use iMessage and are happy with the app. All of your friends are on the platform and you are able to chat away. Then, suddenly your world is turned upside down ... What once was one has now become two. You find yourself using the two messaging apps…until the day another friend starts using WhatsApp-and just like nuclear fission, your world of messaging splits again ... (noodl....
Meltdown – The Fateful 88 Hours
Edit CounterPunch 11 Mar 2016
What was happening inside Fukushima Daiichi Nuclear Power Plant? ... After all, nuclear fission has its own life cycle, relentlessly splitting atoms, even as humans flip an off switch ... Meltdown brings to center stage the enormity, the mystery, and foreboding imagery of nuclear power ... In part, this is because connotations surrounding the nuclear fission process, with its intense heat, bring forth emotions of deep anxiety and apprehension....
Work to halt N-reactor begins
Edit The Japan News 10 Mar 2016
3 reactor at its Takahama nuclear power plant in western Japan, following a court order on the previous day ... In the suspension work from 10 a.m., Kansai Electric gradually inserted control rods to curb nuclear fission reaction....
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