-
The basics of the Higgs boson - Dave Barney and Steve Goldfarb
View full lesson: http://ed.ted.com/lessons/the-basics-of-boson-dave-barney-and-steve-goldfarb
In 2012, scientists at CERN discovered evidence of the Higgs boson. The what? The Higgs boson is one of two types of fundamental particles and is a particular game-changer in the field of particle physics, proving how particles gain mass. Using the Socratic method, CERN scientists Dave Barney and Steve Goldfarb explain the exciting implications of the Higgs boson.
Lesson by Dave Barney and Steve Goldfarb, animation by Jeanette Nørgaard.
published: 03 May 2013
-
Neil deGrasse Tyson explains the Higgs boson particle
Appearing on the 100th edition of The Infinite Monkey Cage, astrophysicist Neil deGrasse Tyson uses a Hollywood party analogy to explain the Higgs boson particle. Watch the full programme here: https://www.bbc.co.uk/programmes/p06dmygk
published: 01 Aug 2018
-
Higgs Boson (The God Particle) and Higgs Field Explained in Simple Words
The Higgs boson is a wave, ripple or disturbance in an invisible, all-permeating field called the Higgs field. In the year 1964, Peter Higgs, François Englert and four other scientists proposed a rather unique idea to explain why certain particles had mass. They hypothesized that the entire universe is filled with an invisible, all-permeating field that gives mass to all elementary particles.
The field in question is called the Higgs field. A wave, ripple or disturbance in that field is therefore called the Higgs boson, or the Higgs particle.
This theory suggests that particles do not have a mass of their own; rather, they get their mass by interacting with the Higgs field. How heavy a particle is will be determined by how strongly a particle interacts with the Higgs field. Electrons, qu...
published: 10 Oct 2022
-
Your Mass is NOT From the Higgs Boson
The Higgs Boson is awesome but it's NOT responsible for most of your mass! Thanks to audible.com for supporting this episode: http://bit.ly/ZJ5Q6z
The Higgs mechanism is meant to account for the mass of everything, right? Well no, only the fundamental particles, which means that electrons derive their mass entirely from the Higgs interaction but protons and neutrons, made of quarks, do not. In fact the quark masses are so small that they only make up about 1% of the mass of the proton (and a similar fraction of the neutron). The rest of the mass comes from the energy in the gluon field. Gluons are massless, but there is so much energy in the field that by E=mc^2 there is a significant amount of mass there. This is where most of your mass comes from and the mass of virtually everything arou...
published: 09 May 2013
-
How the Higgs Mechanism Give Things Mass
Take the Space Time Fan Survey Here: https://forms.gle/wS4bj9o3rvyhfKzUA
PBS Member Stations rely on viewers like you. To support your local station, go to:http://to.pbs.org/DonateSPACE
Sign Up on Patreon to get access to the Space Time Discord!
https://www.patreon.com/pbsspacetime
Fermilab physicists really care about the mass of the W boson. They spent nearly a decade recording collisions in the Tevatron collider and another decade analysing the data. This culminated in the April 7 announcement that this obscure particle’s mass seems to be heavier than expected. So why do we care? Because understanding why this particle even has mass was one of the most important breakthroughs in our understanding of the subatomic world. And because measuring its precise mass either doubles down on ou...
published: 27 Apr 2022
-
What Is the Higgs Boson? | Sean Carroll Discusses the God Particle
Want to stream more content like this… and 1,000’s of courses, documentaries & more?
👉 👉 Start Your Free Trial of Wondrium https://tinyurl.com/merszdz4 👈 👈
-------------------------------------------
On July 4, 2012, the discovery of the Higgs boson was announced. This was a massive, worldwide media sensation—the Higgs boson is a big deal. Who better to illustrate the importance of this monumental discovery than our very own Sean Carroll?
This video is episode one from the series The Higgs Boson and Beyond, presented by Sean Carroll.
Learn more about the crazy world of physics at https://www.wondrium.com/YouTube
00:00 Higgs Boson Discovery Is a Media Sensation
02:32 Democritus: Father of Particle Physics
04:02 What Are Elementary Particles?
05:15 Difference Between Particles and Fie...
published: 16 Jul 2021
-
The Higgs Field, explained - Don Lincoln
View full lesson: http://ed.ted.com/lessons/the-higgs-field-explained-don-lincoln
One of the most significant scientific discoveries of the early 21st century is surely the Higgs boson, but the boson and the Higgs Field that allows for that magic particle are extremely difficult to grasp. Don Lincoln outlines an analogy that all of us can appreciate, starring a large dinner party, a raucous group of physicists, and Peter Higgs himself.
Lesson by Don Lincoln, animation by Powerhouse Animation Studios Inc.
published: 27 Aug 2013
-
So what IS the Higgs boson?
Hank responds to viewer questions, and explains what the Higgs boson particle actually IS.
Follow SciShow on Twitter: http://www.twitter.com/scishow
Like SciShow on Facebook: http://www.facebook.com/scishow
published: 13 Jan 2012
6:30
The basics of the Higgs boson - Dave Barney and Steve Goldfarb
View full lesson: http://ed.ted.com/lessons/the-basics-of-boson-dave-barney-and-steve-goldfarb
In 2012, scientists at CERN discovered evidence of the Higgs bos...
View full lesson: http://ed.ted.com/lessons/the-basics-of-boson-dave-barney-and-steve-goldfarb
In 2012, scientists at CERN discovered evidence of the Higgs boson. The what? The Higgs boson is one of two types of fundamental particles and is a particular game-changer in the field of particle physics, proving how particles gain mass. Using the Socratic method, CERN scientists Dave Barney and Steve Goldfarb explain the exciting implications of the Higgs boson.
Lesson by Dave Barney and Steve Goldfarb, animation by Jeanette Nørgaard.
https://wn.com/The_Basics_Of_The_Higgs_Boson_Dave_Barney_And_Steve_Goldfarb
View full lesson: http://ed.ted.com/lessons/the-basics-of-boson-dave-barney-and-steve-goldfarb
In 2012, scientists at CERN discovered evidence of the Higgs boson. The what? The Higgs boson is one of two types of fundamental particles and is a particular game-changer in the field of particle physics, proving how particles gain mass. Using the Socratic method, CERN scientists Dave Barney and Steve Goldfarb explain the exciting implications of the Higgs boson.
Lesson by Dave Barney and Steve Goldfarb, animation by Jeanette Nørgaard.
- published: 03 May 2013
- views: 2282257
1:27
Neil deGrasse Tyson explains the Higgs boson particle
Appearing on the 100th edition of The Infinite Monkey Cage, astrophysicist Neil deGrasse Tyson uses a Hollywood party analogy to explain the Higgs boson particl...
Appearing on the 100th edition of The Infinite Monkey Cage, astrophysicist Neil deGrasse Tyson uses a Hollywood party analogy to explain the Higgs boson particle. Watch the full programme here: https://www.bbc.co.uk/programmes/p06dmygk
https://wn.com/Neil_Degrasse_Tyson_Explains_The_Higgs_Boson_Particle
Appearing on the 100th edition of The Infinite Monkey Cage, astrophysicist Neil deGrasse Tyson uses a Hollywood party analogy to explain the Higgs boson particle. Watch the full programme here: https://www.bbc.co.uk/programmes/p06dmygk
- published: 01 Aug 2018
- views: 155974
4:49
Higgs Boson (The God Particle) and Higgs Field Explained in Simple Words
The Higgs boson is a wave, ripple or disturbance in an invisible, all-permeating field called the Higgs field. In the year 1964, Peter Higgs, François Englert a...
The Higgs boson is a wave, ripple or disturbance in an invisible, all-permeating field called the Higgs field. In the year 1964, Peter Higgs, François Englert and four other scientists proposed a rather unique idea to explain why certain particles had mass. They hypothesized that the entire universe is filled with an invisible, all-permeating field that gives mass to all elementary particles.
The field in question is called the Higgs field. A wave, ripple or disturbance in that field is therefore called the Higgs boson, or the Higgs particle.
This theory suggests that particles do not have a mass of their own; rather, they get their mass by interacting with the Higgs field. How heavy a particle is will be determined by how strongly a particle interacts with the Higgs field. Electrons, quarks and other elementary particles interact with the Higgs field in different ways and therefore have different masses. Photons, however, don’t interact with the field, and thus have no mass.
#higgsboson #quantumphysics #particles
References
https://home.cern/science/physics/higgs-boson/what
https://www.damtp.cam.ac.uk/user/tong/whatisqft.html
https://home.cern/science/physics/higgs-boson
Original Article Link: https://www.scienceabc.com/pure-sciences/what-is-the-higgs-boson.html
If you wish to buy/license this video, please write to us at
[email protected].
Voice Over Artist: John Staughton ( https://www.fiverr.com/jswildwood )
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The Higgs boson is a wave, ripple or disturbance in an invisible, all-permeating field called the Higgs field. In the year 1964, Peter Higgs, François Englert and four other scientists proposed a rather unique idea to explain why certain particles had mass. They hypothesized that the entire universe is filled with an invisible, all-permeating field that gives mass to all elementary particles.
The field in question is called the Higgs field. A wave, ripple or disturbance in that field is therefore called the Higgs boson, or the Higgs particle.
This theory suggests that particles do not have a mass of their own; rather, they get their mass by interacting with the Higgs field. How heavy a particle is will be determined by how strongly a particle interacts with the Higgs field. Electrons, quarks and other elementary particles interact with the Higgs field in different ways and therefore have different masses. Photons, however, don’t interact with the field, and thus have no mass.
#higgsboson #quantumphysics #particles
References
https://home.cern/science/physics/higgs-boson/what
https://www.damtp.cam.ac.uk/user/tong/whatisqft.html
https://home.cern/science/physics/higgs-boson
Original Article Link: https://www.scienceabc.com/pure-sciences/what-is-the-higgs-boson.html
If you wish to buy/license this video, please write to us at
[email protected].
Voice Over Artist: John Staughton ( https://www.fiverr.com/jswildwood )
SUBSCRIBE to get more such science videos!
https://www.youtube.com/channel/UCcN3IuIAR6Fn74FWMQf6lFA?sub_confirmation=1
Follow us on Twitter!
https://twitter.com/abc_science
Follow us on Facebook!
https://facebook.com/sciabc
Follow us on Instagram!
https://www.instagram.com/scienceabcofficial/
Follow us on LinkedIn!
https://www.linkedin.com/company/scienceabc
Follow our Website!
https://www.scienceabc.com
- published: 10 Oct 2022
- views: 135615
6:51
Your Mass is NOT From the Higgs Boson
The Higgs Boson is awesome but it's NOT responsible for most of your mass! Thanks to audible.com for supporting this episode: http://bit.ly/ZJ5Q6z
The Higgs mec...
The Higgs Boson is awesome but it's NOT responsible for most of your mass! Thanks to audible.com for supporting this episode: http://bit.ly/ZJ5Q6z
The Higgs mechanism is meant to account for the mass of everything, right? Well no, only the fundamental particles, which means that electrons derive their mass entirely from the Higgs interaction but protons and neutrons, made of quarks, do not. In fact the quark masses are so small that they only make up about 1% of the mass of the proton (and a similar fraction of the neutron). The rest of the mass comes from the energy in the gluon field. Gluons are massless, but there is so much energy in the field that by E=mc^2 there is a significant amount of mass there. This is where most of your mass comes from and the mass of virtually everything around you.
Thanks to Professor Derek Leinweber for his great images, animations and explanations. Check out his site to find out more: http://bit.ly/ZZTKFP
https://wn.com/Your_Mass_Is_Not_From_The_Higgs_Boson
The Higgs Boson is awesome but it's NOT responsible for most of your mass! Thanks to audible.com for supporting this episode: http://bit.ly/ZJ5Q6z
The Higgs mechanism is meant to account for the mass of everything, right? Well no, only the fundamental particles, which means that electrons derive their mass entirely from the Higgs interaction but protons and neutrons, made of quarks, do not. In fact the quark masses are so small that they only make up about 1% of the mass of the proton (and a similar fraction of the neutron). The rest of the mass comes from the energy in the gluon field. Gluons are massless, but there is so much energy in the field that by E=mc^2 there is a significant amount of mass there. This is where most of your mass comes from and the mass of virtually everything around you.
Thanks to Professor Derek Leinweber for his great images, animations and explanations. Check out his site to find out more: http://bit.ly/ZZTKFP
- published: 09 May 2013
- views: 3271819
18:04
How the Higgs Mechanism Give Things Mass
Take the Space Time Fan Survey Here: https://forms.gle/wS4bj9o3rvyhfKzUA
PBS Member Stations rely on viewers like you. To support your local station, go to:htt...
Take the Space Time Fan Survey Here: https://forms.gle/wS4bj9o3rvyhfKzUA
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Fermilab physicists really care about the mass of the W boson. They spent nearly a decade recording collisions in the Tevatron collider and another decade analysing the data. This culminated in the April 7 announcement that this obscure particle’s mass seems to be heavier than expected. So why do we care? Because understanding why this particle even has mass was one of the most important breakthroughs in our understanding of the subatomic world. And because measuring its precise mass either doubles down on our current understanding or reveals a path to an even deeper knowledge. The FermiLab discrepancy is a tantalizing hint of the latter.
Need Catch Up On Your Fundamental Forces?
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Post Production by Leonardo Scholzer, Yago Ballarini, Pedro Osinski, Adriano Leal & Stephanie Faria
GFX Visualizations: Fernando Franco Félix
Directed by Andrew Kornhaber
Associate Producer: Bahar Gholipour
Executive Producers: Eric Brown & Andrew Kornhaber
Executives in Charge (PBS): Adam Dylewski, Maribel Lopez
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Spacetime is produced by Kornhaber Brown for PBS Digital Studios.
This program is produced by Kornhaber Brown, which is solely responsible for its content.
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https://wn.com/How_The_Higgs_Mechanism_Give_Things_Mass
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Fermilab physicists really care about the mass of the W boson. They spent nearly a decade recording collisions in the Tevatron collider and another decade analysing the data. This culminated in the April 7 announcement that this obscure particle’s mass seems to be heavier than expected. So why do we care? Because understanding why this particle even has mass was one of the most important breakthroughs in our understanding of the subatomic world. And because measuring its precise mass either doubles down on our current understanding or reveals a path to an even deeper knowledge. The FermiLab discrepancy is a tantalizing hint of the latter.
Need Catch Up On Your Fundamental Forces?
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Check out the Space Time Merch Store
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Hosted by Matt O'Dowd
Written by Fernando Franco Félix, Graeme Gossel, & Matt O'Dowd
Post Production by Leonardo Scholzer, Yago Ballarini, Pedro Osinski, Adriano Leal & Stephanie Faria
GFX Visualizations: Fernando Franco Félix
Directed by Andrew Kornhaber
Associate Producer: Bahar Gholipour
Executive Producers: Eric Brown & Andrew Kornhaber
Executives in Charge (PBS): Adam Dylewski, Maribel Lopez
Director of Programming (PBS): Gabrielle Ewing
Spacetime is produced by Kornhaber Brown for PBS Digital Studios.
This program is produced by Kornhaber Brown, which is solely responsible for its content.
© 2022 PBS. All rights reserved.
End Credits Music by J.R.S. Schattenberg: https://www.youtube.com/user/MultiDroideka
Special Thanks to Our Patreon Supporters
Big Bang Sponsors
Bryce Fort
Mark Evans
David Taiclet
Daniel Alexiuc
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David Neumann
Charlie
Leo Koguan
Sandy Wu
Ahmad Jodeh
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Morgan Hough
Amy
Juan Benet
Vinnie Falco
Fabrice Eap
Mark Rosenthal
David Nicklas
Quasar Supporters
Alex Kern
Ethan Cohen
Stephen Wilcox
Christina Oegren
Mark Heising
Hank S
Hypernova Supporters
william bryan
Kirk Honour
drollere
Joe Moreira
Marc Armstrong
Scott Gorlick
Paul Stehr-Green
Adam Walters
Russell Pope
Ben Delo
Scott Gray
Антон Кочков
John R. Slavik
Mathew
Donal Botkin
John Pollock
Edmund Fokschaner
Joseph Salomone
chuck zegar
Jordan Young
Daniel Muzquiz
Gamma Ray Burst Supporters
Carsten Quinlan
Susan Albee
Frank Walker
Matt Q
WhizBangery
Tony Affinito
Avi Yashchin
MHL SHS
Kory Kirk
Terje Vold
Anatoliy Nagornyy
comboy
Brett Baker
Jeremy Soller
Jonathan Conerly
Andre Stechert
Ross Bohner
Paul Wood
Kent Durham
jim bartosh
Nubble
Chris Navrides
Scott R Calkins
The Mad Mechanic
Ellis Hall
John H. Austin, Jr.
Diana S
Ben Campbell
Faraz Khan
Almog Cohen
Alex Edwards
Ádám Kettinger
MD3
Endre Pech
Daniel Jennings
Cameron Sampson
Pratik Mukherjee
Geoffrey Clarion
Nate
Darren Duncan
Russ Creech
Jeremy Reed
Eric Webster
David Johnston
Web Browser
Michael Barton
Christopher Barron
James Ramsey
Mr T
Andrew Mann
Isaac Suttell
Devon Rosenthal
Oliver Flanagan
Bleys Goodson
Robert Walter
Bruce B
Simon Oliphant
Mirik Gogri
Mark Delagasse
Mark Daniel Cohen
Brandon Lattin
Nickolas Andrew Freeman
Shane Calimlim
Tybie Fitzhugh
Robert Ilardi
Eric Kiebler
Craig Stonaha
Martin Skans
The Art of Sin
Graydon Goss
Frederic Simon
Tonyface
John Robinson
A G
David Neal
Kevin Lee
justahat
John Funai
Tristan
Bradley Jenkins
Kyle Hofer
Daniel Stříbrný
Luaan
Cody
Thomas Dougherty
King Zeckendorff
Nick Virtue
Scott Gossett
Dan Warren
Patrick Sutton
Daniel Lyons
DFaulk
Kevin Warne
- published: 27 Apr 2022
- views: 1559427
30:58
What Is the Higgs Boson? | Sean Carroll Discusses the God Particle
Want to stream more content like this… and 1,000’s of courses, documentaries & more?
👉 👉 Start Your Free Trial of Wondrium https://tinyurl.com/merszdz4 👈 👈
...
Want to stream more content like this… and 1,000’s of courses, documentaries & more?
👉 👉 Start Your Free Trial of Wondrium https://tinyurl.com/merszdz4 👈 👈
-------------------------------------------
On July 4, 2012, the discovery of the Higgs boson was announced. This was a massive, worldwide media sensation—the Higgs boson is a big deal. Who better to illustrate the importance of this monumental discovery than our very own Sean Carroll?
This video is episode one from the series The Higgs Boson and Beyond, presented by Sean Carroll.
Learn more about the crazy world of physics at https://www.wondrium.com/YouTube
00:00 Higgs Boson Discovery Is a Media Sensation
02:32 Democritus: Father of Particle Physics
04:02 What Are Elementary Particles?
05:15 Difference Between Particles and Fields
08:42 Two Crucial Roles of Higgs Field
12:34 Standard Model of Particle Physics
15:15 Solving Issue with Gauge Symmetries
18:41 Einstein's Famous Equation and Particle Accelerators
20:21 Tevatron Leads to Large Hadron Collider
24:44 Peter Higgs and Francois Englert Win Nobel Prize
25:17 Why Scientists Devote Time to Particle Physics
-------------------------------------------
Welcome to Wondrium on YouTube.
Here, you can enjoy a carefully curated selection of the history, science, and math videos you’ve come to know and love from brands like The Great Courses, and more.
If you’ve ever wanted to travel back in time, wondered about the science of life, wished for a better understanding of math, or dreamt of exploring the stars … then Wondrium will be your new favorite channel on YouTube!
If you decide you’d like to learn more about what you love, check out the full experience at http://wondrium.com/YouTube
There, you’ll find in-depth answers to everything you’ve ever wondered, with mind-blowing surprises along the way.
Your brain is going to love this place!
-------------------------------------------
You can also read thousands of articles from the smartest experts in their fields at The Great Courses Daily: https://www.wondriumdaily.com
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-------------------------------------------
#HiggsBoson #SeanCarroll
https://wn.com/What_Is_The_Higgs_Boson_|_Sean_Carroll_Discusses_The_God_Particle
Want to stream more content like this… and 1,000’s of courses, documentaries & more?
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-------------------------------------------
On July 4, 2012, the discovery of the Higgs boson was announced. This was a massive, worldwide media sensation—the Higgs boson is a big deal. Who better to illustrate the importance of this monumental discovery than our very own Sean Carroll?
This video is episode one from the series The Higgs Boson and Beyond, presented by Sean Carroll.
Learn more about the crazy world of physics at https://www.wondrium.com/YouTube
00:00 Higgs Boson Discovery Is a Media Sensation
02:32 Democritus: Father of Particle Physics
04:02 What Are Elementary Particles?
05:15 Difference Between Particles and Fields
08:42 Two Crucial Roles of Higgs Field
12:34 Standard Model of Particle Physics
15:15 Solving Issue with Gauge Symmetries
18:41 Einstein's Famous Equation and Particle Accelerators
20:21 Tevatron Leads to Large Hadron Collider
24:44 Peter Higgs and Francois Englert Win Nobel Prize
25:17 Why Scientists Devote Time to Particle Physics
-------------------------------------------
Welcome to Wondrium on YouTube.
Here, you can enjoy a carefully curated selection of the history, science, and math videos you’ve come to know and love from brands like The Great Courses, and more.
If you’ve ever wanted to travel back in time, wondered about the science of life, wished for a better understanding of math, or dreamt of exploring the stars … then Wondrium will be your new favorite channel on YouTube!
If you decide you’d like to learn more about what you love, check out the full experience at http://wondrium.com/YouTube
There, you’ll find in-depth answers to everything you’ve ever wondered, with mind-blowing surprises along the way.
Your brain is going to love this place!
-------------------------------------------
You can also read thousands of articles from the smartest experts in their fields at The Great Courses Daily: https://www.wondriumdaily.com
And, of course, check us out on all of our social channels:
-Facebook: https://www.facebook.com/wondrium
-Twitter: http://twitter.com/wondrium
-Instagram: https://www.instagram.com/wondrium
-------------------------------------------
#HiggsBoson #SeanCarroll
- published: 16 Jul 2021
- views: 971749
3:19
The Higgs Field, explained - Don Lincoln
View full lesson: http://ed.ted.com/lessons/the-higgs-field-explained-don-lincoln
One of the most significant scientific discoveries of the early 21st century ...
View full lesson: http://ed.ted.com/lessons/the-higgs-field-explained-don-lincoln
One of the most significant scientific discoveries of the early 21st century is surely the Higgs boson, but the boson and the Higgs Field that allows for that magic particle are extremely difficult to grasp. Don Lincoln outlines an analogy that all of us can appreciate, starring a large dinner party, a raucous group of physicists, and Peter Higgs himself.
Lesson by Don Lincoln, animation by Powerhouse Animation Studios Inc.
https://wn.com/The_Higgs_Field,_Explained_Don_Lincoln
View full lesson: http://ed.ted.com/lessons/the-higgs-field-explained-don-lincoln
One of the most significant scientific discoveries of the early 21st century is surely the Higgs boson, but the boson and the Higgs Field that allows for that magic particle are extremely difficult to grasp. Don Lincoln outlines an analogy that all of us can appreciate, starring a large dinner party, a raucous group of physicists, and Peter Higgs himself.
Lesson by Don Lincoln, animation by Powerhouse Animation Studios Inc.
- published: 27 Aug 2013
- views: 964829
5:17
So what IS the Higgs boson?
Hank responds to viewer questions, and explains what the Higgs boson particle actually IS.
Follow SciShow on Twitter: http://www.twitter.com/scishow
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Hank responds to viewer questions, and explains what the Higgs boson particle actually IS.
Follow SciShow on Twitter: http://www.twitter.com/scishow
Like SciShow on Facebook: http://www.facebook.com/scishow
https://wn.com/So_What_Is_The_Higgs_Boson
Hank responds to viewer questions, and explains what the Higgs boson particle actually IS.
Follow SciShow on Twitter: http://www.twitter.com/scishow
Like SciShow on Facebook: http://www.facebook.com/scishow
- published: 13 Jan 2012
- views: 1275442
