- published: 06 Jul 2022
- views: 43172
-
remove the playlistHigh Energy Physics
- remove the playlistHigh Energy Physics
- Particle physics
- Energy
- High energy
- High Energy (The Supremes song)
- High Energy (The Supremes album)
Particle physics
Particle physics (also high energy physics) is the branch of physics that studies the nature of the particles that constitute matter (particles with mass) and radiation (massless particles). Although the word "particle" can refer to various types of very small objects (e.g. protons, gas particles, or even household dust), "particle physics" usually investigates the irreducibly smallest detectable particles and the irreducibly fundamental force fields necessary to explain them. By our current understanding, these elementary particles are excitations of the quantum fields that also govern their interactions. The currently dominant theory explaining these fundamental particles and fields, along with their dynamics, is called the Standard Model. Thus, modern particle physics generally investigates the Standard Model and its various possible extensions, e.g. to the newest "known" particle, the Higgs boson, or even to the oldest known force field, gravity.
Subatomic particles
Modern particle physics research is focused on subatomic particles, including atomic constituents such as electrons, protons, and neutrons (protons and neutrons are composite particles called baryons, made of quarks), produced by radioactive and scattering processes, such as photons, neutrinos, and muons, as well as a wide range of exotic particles. Dynamics of particles is also governed by quantum mechanics; they exhibit wave–particle duality, displaying particle-like behaviour under certain experimental conditions and wave-like behaviour in others. In more technical terms, they are described by quantum state vectors in a Hilbert space, which is also treated in quantum field theory. Following the convention of particle physicists, the term elementary particles is applied to those particles that are, according to current understanding, presumed to be indivisible and not composed of other particles.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Particle_physics
Energy
In physics, energy is a property of objects which can be transferred to other objects or converted into different forms, but cannot be created or destroyed. The "ability of a system to perform work" is a common description, but it is difficult to give one single comprehensive definition of energy because of its many forms. For instance, in SI units, energy is measured in joules, and one joule is defined "mechanically", being the energy transferred to an object by the mechanical work of moving it a distance of 1 metre against a force of 1 newton. However, there are many other definitions of energy, depending on the context, such as thermal energy, radiant energy, electromagnetic, nuclear, etc., where definitions are derived that are the most convenient.
Common energy forms include the kinetic energy of a moving object, the potential energy stored by an object's position in a force field (gravitational, electric or magnetic), the elastic energy stored by stretching solid objects, the chemical energy released when a fuel burns, the radiant energy carried by light, and the thermal energy due to an object's temperature. All of the many forms of energy are convertible to other kinds of energy, and obey the law of conservation of energy which says that energy can be neither created nor be destroyed; however, it can change from one form to another.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Energy
High energy
High energy may refer to:
See also
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/High_energy
High Energy (The Supremes song)
"High Energy" is a dance/disco song by The Supremes. Released as the album's title-track single in 1976 from their penultimate album High Energy, this energic, sound-bursting tune featured lead vocals by Susaye Greene. Greene, new to the group, was brought in to dub her vocals although Scherrie Payne had already recorded lead vocals prior to Greene's entry into the trio. As such, this was the final single to feature former member Cindy Birdsong's vocals, and the sixth and final single of the group to feature four members. Written by Harold Beatty, Brian Holland and Edward Holland, Jr., the song peaked at position nine on the dance/disco charts later that same year.
Personnel
Chart history
References
External links
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/High_Energy_(The_Supremes_song)
High Energy (The Supremes album)
High Energy is the twenty-eighth studio album by The Supremes, released in 1976 on the Motown label. The first album since 1968's Reflections to include four Supremes members (not counting albums after Diana Ross was given individual billing containing outtakes from Florence Ballard's tenure in the group), it also is notable for featuring the last Billboard Hot 100 Top 40 pop hit for the group, "I'm Gonna Let My Heart Do the Walking". The album sold around 125,000 copies in the USA.
Overview
The penultimate studio album released by the group, the Supremes began recording High Energy in December 1975, when its lineup consisted of Scherrie Payne, Mary Wilson and Cindy Birdsong. Birdsong left the group in February 1976, and her replacement, Susaye Greene, was overdubbed on two tracks, including "I'm Gonna Let My Heart Do the Walking". Greene also assumed lead vocal duties on the title track. Along with Meet The Supremes and Reflections, these are the only studio albums to include four members of the group rather than the usual three. (Let the Sunshine In and Cream of the Crop both had Florence Ballard appear on a previously recorded track for each album, though she had long been dismissed from the group).
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/High_Energy_(The_Supremes_album)
Podcasts:
-
The LHC's Record Energy at CERN Will Just Produce Record Nonsense
Ten years after the so-called "discovery" of the Higgs Boson, we have to fear the next cycle of self-deception in high energy physics. Hossenfelder's take on particle physics: https://www.youtube.com/watch?v=9qqEU1Q-gYE
published: 06 Jul 2022 -
AI and Physics: High Energy Physics
The recent development of AI presents challenges, but also great opportunities. In this series I will discuss possible AI applications: One important field to fix is high energy physics... Mind also my backup channel: https://odysee.com/@TheMachian:c My books: www.amazon.com/Alexander-Unzicker/e/B00DQCRYYY/
published: 03 Mar 2024 -
Particle Physics Explained Visually in 20 min | Feynman diagrams
Get MagellanTV here: https://try.magellantv.com/arvinash and get an exclusive offer for our viewers: an extended, month-long trial, FREE. MagellanTV has the largest and best collection of Science content anywhere, including Space, Physics, Technology, Nature, Mind and Body, and a growing collection of 4K. This new streaming service has 3000 great documentaries. Check out our personal recommendation and MagellanTV’s exclusive playlists: https://www.magellantv.com/genres/science-and-tech If you didn't understand this video, these may help: https://youtu.be/xZqID1zSm0k -- Mechanism of the fundamental forces https://youtu.be/jlEovwE1oHI -- What are quantum fields? 0:00 - Intro & Fields 2:22 - Special offer 3:09 - Particles, charges, forces 6:32 - Recap 7:13 - Electromagnetism 10:04 - Weak f...
published: 20 Dec 2020 -
Brian Cox explains quantum mechanics in 60 seconds - BBC News
Subscribe to BBC News www.youtube.com/bbcnews British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult. http://www.bbc.co.uk/programmes/b04hvx9z Subscribe to BBC News HERE http://bit.ly/1rbfUog Check out our website: http://www.bbc.com/news Facebook: http://www.facebook.com/bbcworldnews Twitter: http://www.twitter.com/bbcworld Instagram: http://instagram.com/bbcnews
published: 23 Sep 2014 -
ALL OF PHYSICS explained in 14 Minutes
Physics is an amazing science, that is incredibly tedious to learn and notoriously difficult. Let's learn pretty much all of Physics in under 15 minutes. Explaining all of physics would take more than 14 minutes. Obviously I can't get ALL of physics in that small timeframe, but I tried my best to get all of the stuff worth knowing for most people, and explaining it as simply as possible, as fast as possible ;) Timestamps: 00:00 Classical Mechanics 02:33 Energy 04:40 Thermodynamics 06:01 Electromagnetism 08:30 Nuclear Physics 1 09:28 Relativity 11:25 Nuclear Physics 2 12:13 Quantum Mechanics This video took way too many hours to make. If you like it, show it to your friends. Thanks Music by Audionautix.com Inspired by Arvin Ash's Video: https://youtu.be/TTHazQeM8v8?si=6taX-lihz1hSNY...
published: 17 Feb 2024 -
String Theory Explained in a Minute
Dr. Michio Kaku, a professor of theoretical physics, answers the internet's burning questions about physics. Can Michio explain "string theory" to the layperson? Still haven’t subscribed to WIRED on YouTube? ►► http://wrd.cm/15fP7B7 Listen to the Get WIRED podcast ►► https://link.chtbl.com/wired-ytc-desc Want more WIRED? Get the magazine ►► https://subscribe.wired.com/subscribe/splits/wired/WIR_YouTube?source=EDT_WIR_YouTube_0_Video_Description_ZZ Follow WIRED: Instagram ►►https://instagram.com/wired Twitter ►►http://www.twitter.com/wired Facebook ►►https://www.facebook.com/wired Tik Tok ►►https://www.tiktok.com/@wired Get more incredible stories on science and tech with our daily newsletter: https://wrd.cm/DailyYT Also, check out the free WIRED channel on Roku, Apple TV...
published: 27 Sep 2023 -
Center for High Energy Physics
UO Development Communications Producer: Ed Dorsch Director of Photography: Michael McDermott The Center for High Energy Physics enhances the experimental and theoretical high energy physics research activities at the University of Oregon. The Center is one of several centers and institutes supported by the Office of the Vice President for Research and Graduate Studies, and maintains a close relationship with the Department of Physics and the Institute of Theoretical Science. The Center sponsors seminars on topics in high energy physics, hosts visiting scientists, supports graduate student research, facilitates interaction between experimental activities and theoretical investigations of Oregon scientists, and fosters communication of research to a broader community.
published: 07 Jul 2011 -
The Map of Particle Physics | The Standard Model Explained
In this video I explain all the basics of particle physics and the standard model of particle physics. Check out Brilliant here: https://brilliant.org/DOS/ Buy the poster here: https://store.dftba.com/collections/domain-of-science/products/map-of-fundamental-particles Digital version here: https://www.flickr.com/photos/95869671@N08 The standard model of particle physics is our fundamental description of the stuff in the universe. It doesn’t answer why anything exists, but does describe what exists and how it behaves, and that’s what we’ll be discovering in this video. We will cover the fermions, which contain the quarks and the leptons, as well as the bosons or force carriers. As well as which of the fundamental forces each of these fundamental particles interact with, along with the Higg...
published: 01 May 2021 -
Lecture by Alan Guth “INFLATIONARY COSMOLOGY Is Our Universe Part of a Multiverse?” | SGT University
A huge multi-acre campus on the outskirts of Gurugram, flush with greenery and seemingly endless to the eyes, SGT University is often regarded as one of the best private universities in Delhi and Haryana. The Creativity of Arts, The Stability of Commerce, or The Inquiry of Science; whatever it is you search for, you will get it here. From our NVIDIA-powered high-speed computers to a 3600 sq.ft. shooting floor, or the sui generis NRSC facility, our focus is not actually to keep you in, but to get you out into the world, ready to take it on. Our perspective on education and teaching is molded in line with the needs and wants of the industry you want to be in. The challenging task of establishing a multi-disciplinary educational institution began with the establishment of SGT Dental College ...
published: 19 Dec 2024 -
What does the future hold for particle physics?
In this video, I talk about what the results from the Large Hadron Collider that we have so far mean for the future of particle physics. The Large Hadron Collider has, contrary to many physicists' hopes, found only the Higgs-boson, and no other fundamentally new particles. But I am sure you recall that before this machine turned on, we heard a lot of talk about other, more exciting things, that it could find: dark matter, new symmetries, extra dimensions, black holes, evidence for parallel universes or even time travel. Whatever happened to that? Why did physicists think these were reasonable expectations? And what have they now learned from their failed predictions? Physicists believed that something besides the Higgs should show up at the LHC due to an argument known as "technical na...
published: 07 Oct 2019
developed with YouTube
7:21
The LHC's Record Energy at CERN Will Just Produce Record Nonsense
- Order: Reorder
- Duration: 7:21
- Uploaded Date: 06 Jul 2022
- views: 43172
Ten years after the so-called "discovery" of the Higgs Boson, we have to fear the next cycle of self-deception in high energy physics.
Hossenfelder's take on pa...
Ten years after the so-called "discovery" of the Higgs Boson, we have to fear the next cycle of self-deception in high energy physics.
Hossenfelder's take on particle physics: https://www.youtube.com/watch?v=9qqEU1Q-gYE
https://wn.com/The_Lhc's_Record_Energy_At_Cern_Will_Just_Produce_Record_Nonsense
Ten years after the so-called "discovery" of the Higgs Boson, we have to fear the next cycle of self-deception in high energy physics.
Hossenfelder's take on particle physics: https://www.youtube.com/watch?v=9qqEU1Q-gYE
3:52
AI and Physics: High Energy Physics
- Order: Reorder
- Duration: 3:52
- Uploaded Date: 03 Mar 2024
- views: 2594
The recent development of AI presents challenges, but also great opportunities. In this series I will discuss possible AI applications:
One important field to f...
The recent development of AI presents challenges, but also great opportunities. In this series I will discuss possible AI applications:
One important field to fix is high energy physics...
Mind also my backup channel:
https://odysee.com/@TheMachian:c
My books: www.amazon.com/Alexander-Unzicker/e/B00DQCRYYY/
https://wn.com/Ai_And_Physics_High_Energy_Physics
The recent development of AI presents challenges, but also great opportunities. In this series I will discuss possible AI applications:
One important field to fix is high energy physics...
Mind also my backup channel:
https://odysee.com/@TheMachian:c
My books: www.amazon.com/Alexander-Unzicker/e/B00DQCRYYY/
- published: 03 Mar 2024
- views: 2594
18:43
Particle Physics Explained Visually in 20 min | Feynman diagrams
- Order: Reorder
- Duration: 18:43
- Uploaded Date: 20 Dec 2020
- views: 379556
Get MagellanTV here: https://try.magellantv.com/arvinash and get an exclusive offer for our viewers: an extended, month-long trial, FREE. MagellanTV has the la...
Get MagellanTV here: https://try.magellantv.com/arvinash and get an exclusive offer for our viewers: an extended, month-long trial, FREE. MagellanTV has the largest and best collection of Science content anywhere, including Space, Physics, Technology, Nature, Mind and Body, and a growing collection of 4K. This new streaming service has 3000 great documentaries. Check out our personal recommendation and MagellanTV’s exclusive playlists: https://www.magellantv.com/genres/science-and-tech
If you didn't understand this video, these may help:
https://youtu.be/xZqID1zSm0k -- Mechanism of the fundamental forces
https://youtu.be/jlEovwE1oHI -- What are quantum fields?
0:00 - Intro & Fields
2:22 - Special offer
3:09 - Particles, charges, forces
6:32 - Recap
7:13 - Electromagnetism
10:04 - Weak force
12:19 - Strong force
16:53 - Higgs
If we generalize the concept of bosons interacting with particles, we can get all fundamental particle physics. Complex math, but physicist Richard Feynman came up with a simple way to view these interactions - Feynman diagrams.
The 12 fermions are depicted as straight lines with arrows in the diagrams. The arrows represent the “flow” of fermions. No two arrows point towards each other. If time is in the x direction, then fermion arrows going forwards are matter particles, and those going backwards, antimatter particles.
All 6 quarks have color charges. All particles with color charges interact with the strong nuclear force. Quarks also have an electric charge, so they also feel the electromagnetic force.
Leptons can be divided into the electron and its heavier cousins, the muon and tau particles. These all have electric charges but no color charges. Neutrinos do not have a color charge or an electric charge, so they are not affected by the strong and electromagnetic forces.
All fermions carry something called weak isospin. This can be thought of as the “charge” of the weak force. It can be +1/2 or -1/2. All fermions interact with the weak force. But weak isospin can also be -1, 0, and +1 – the W- boson has a weak isospin of -1, W+ has +1, Higgs has -1/2, and Z boson and photons have a weak isospin of 0. Note that this zero is not the same has having no isospin. Everything in the standard model has a weak isospin except gluons.
The weak force has the power to turn one particle into another particle. It is the only force that can do that.
To recap, quarks interact with all forces, electron like particles interact with electromagnetism and the weak force, but do not interact with the strong force. Neutrinos only interact with the weak force and nothing else. Only quarks and gluons carry the strong force. Higgs bosons do not interact with photons or gluons. They confer mass to fundamental particles, so all fundamental particles with mass interact with Higgs.
The simplest force is electromagnetic which interacts with quarks and leptons. Repulsion is depicted in Møller scattering. Attraction is shown in Bhabha scattering. When electrons and positrons are near each other, they can annihilate or attract each other.'
Weak force is felt by all of the standard model particles, except gluons. W-boson can do something very special. They can change the identity or flavor of the particle - a neutron to a proton. We probably would not exist without it.
Z-boson has no electric charge and can mediate interactions with electrically neutral particles like the neutrino and the Higgs.
The strong force is the most complicated mathematically, but since it only relates to quarks and gluons. A pair of quarks can change color. This happens all the time inside protons and neutrons, and is the glue that binds the quarks together.
Because gluons themselves contain color charges, they also interact with each other via complicated diagrams. This is what flux tubes are made of. These tubes are formed when you try to pull quarks apart.
Mesons are formed when a quark tries to leave a nucleon. These mesons are a combination of a quark, anti-quark pairs which mediate the strong force between protons and neutrons.
Pi mesons exchanges colors and quarks between protons and neutron. This is what keeps them glued together. Color charges must be conserved. Either red, blue, and green must combine, or color anti-color must combine to form a neutral color charge.
The most prominent process used at the Large hadron collider to make a Higgs boson is called the gluon fusion process. During high energy proton-proton collisions, two high energy gluons can be produced. Strong force interaction can turn these into top quarks which fuse together via a loop of top quark, anti-top quark creation and annihilation. The energy of this can create a Higgs boson.
#particlephysics
#fundamentalforces
When particles decay, they tend to decay into the next highest mass particle.
Become a patron: https://www.patreon.com/bePatron?u=17543985
Further reading: http://t.ly/fKKD
https://wn.com/Particle_Physics_Explained_Visually_In_20_Min_|_Feynman_Diagrams
Get MagellanTV here: https://try.magellantv.com/arvinash and get an exclusive offer for our viewers: an extended, month-long trial, FREE. MagellanTV has the largest and best collection of Science content anywhere, including Space, Physics, Technology, Nature, Mind and Body, and a growing collection of 4K. This new streaming service has 3000 great documentaries. Check out our personal recommendation and MagellanTV’s exclusive playlists: https://www.magellantv.com/genres/science-and-tech
If you didn't understand this video, these may help:
https://youtu.be/xZqID1zSm0k -- Mechanism of the fundamental forces
https://youtu.be/jlEovwE1oHI -- What are quantum fields?
0:00 - Intro & Fields
2:22 - Special offer
3:09 - Particles, charges, forces
6:32 - Recap
7:13 - Electromagnetism
10:04 - Weak force
12:19 - Strong force
16:53 - Higgs
If we generalize the concept of bosons interacting with particles, we can get all fundamental particle physics. Complex math, but physicist Richard Feynman came up with a simple way to view these interactions - Feynman diagrams.
The 12 fermions are depicted as straight lines with arrows in the diagrams. The arrows represent the “flow” of fermions. No two arrows point towards each other. If time is in the x direction, then fermion arrows going forwards are matter particles, and those going backwards, antimatter particles.
All 6 quarks have color charges. All particles with color charges interact with the strong nuclear force. Quarks also have an electric charge, so they also feel the electromagnetic force.
Leptons can be divided into the electron and its heavier cousins, the muon and tau particles. These all have electric charges but no color charges. Neutrinos do not have a color charge or an electric charge, so they are not affected by the strong and electromagnetic forces.
All fermions carry something called weak isospin. This can be thought of as the “charge” of the weak force. It can be +1/2 or -1/2. All fermions interact with the weak force. But weak isospin can also be -1, 0, and +1 – the W- boson has a weak isospin of -1, W+ has +1, Higgs has -1/2, and Z boson and photons have a weak isospin of 0. Note that this zero is not the same has having no isospin. Everything in the standard model has a weak isospin except gluons.
The weak force has the power to turn one particle into another particle. It is the only force that can do that.
To recap, quarks interact with all forces, electron like particles interact with electromagnetism and the weak force, but do not interact with the strong force. Neutrinos only interact with the weak force and nothing else. Only quarks and gluons carry the strong force. Higgs bosons do not interact with photons or gluons. They confer mass to fundamental particles, so all fundamental particles with mass interact with Higgs.
The simplest force is electromagnetic which interacts with quarks and leptons. Repulsion is depicted in Møller scattering. Attraction is shown in Bhabha scattering. When electrons and positrons are near each other, they can annihilate or attract each other.'
Weak force is felt by all of the standard model particles, except gluons. W-boson can do something very special. They can change the identity or flavor of the particle - a neutron to a proton. We probably would not exist without it.
Z-boson has no electric charge and can mediate interactions with electrically neutral particles like the neutrino and the Higgs.
The strong force is the most complicated mathematically, but since it only relates to quarks and gluons. A pair of quarks can change color. This happens all the time inside protons and neutrons, and is the glue that binds the quarks together.
Because gluons themselves contain color charges, they also interact with each other via complicated diagrams. This is what flux tubes are made of. These tubes are formed when you try to pull quarks apart.
Mesons are formed when a quark tries to leave a nucleon. These mesons are a combination of a quark, anti-quark pairs which mediate the strong force between protons and neutrons.
Pi mesons exchanges colors and quarks between protons and neutron. This is what keeps them glued together. Color charges must be conserved. Either red, blue, and green must combine, or color anti-color must combine to form a neutral color charge.
The most prominent process used at the Large hadron collider to make a Higgs boson is called the gluon fusion process. During high energy proton-proton collisions, two high energy gluons can be produced. Strong force interaction can turn these into top quarks which fuse together via a loop of top quark, anti-top quark creation and annihilation. The energy of this can create a Higgs boson.
#particlephysics
#fundamentalforces
When particles decay, they tend to decay into the next highest mass particle.
Become a patron: https://www.patreon.com/bePatron?u=17543985
Further reading: http://t.ly/fKKD
- published: 20 Dec 2020
- views: 379556
1:22
Brian Cox explains quantum mechanics in 60 seconds - BBC News
- Order: Reorder
- Duration: 1:22
- Uploaded Date: 23 Sep 2014
- views: 8116720
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to expl...
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult.
http://www.bbc.co.uk/programmes/b04hvx9z
Subscribe to BBC News HERE http://bit.ly/1rbfUog
Check out our website: http://www.bbc.com/news
Facebook: http://www.facebook.com/bbcworldnews
Twitter: http://www.twitter.com/bbcworld
Instagram: http://instagram.com/bbcnews
https://wn.com/Brian_Cox_Explains_Quantum_Mechanics_In_60_Seconds_BBC_News
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult.
http://www.bbc.co.uk/programmes/b04hvx9z
Subscribe to BBC News HERE http://bit.ly/1rbfUog
Check out our website: http://www.bbc.com/news
Facebook: http://www.facebook.com/bbcworldnews
Twitter: http://www.twitter.com/bbcworld
Instagram: http://instagram.com/bbcnews
- published: 23 Sep 2014
- views: 8116720
14:20
ALL OF PHYSICS explained in 14 Minutes
- Order: Reorder
- Duration: 14:20
- Uploaded Date: 17 Feb 2024
- views: 4419504
Physics is an amazing science, that is incredibly tedious to learn and notoriously difficult.
Let's learn pretty much all of Physics in under 15 minutes.
Expla...
Physics is an amazing science, that is incredibly tedious to learn and notoriously difficult.
Let's learn pretty much all of Physics in under 15 minutes.
Explaining all of physics would take more than 14 minutes.
Obviously I can't get ALL of physics in that small timeframe, but I tried my best to get all of the stuff worth knowing for most people, and explaining it as simply as possible, as fast as possible ;)
Timestamps:
00:00 Classical Mechanics
02:33 Energy
04:40 Thermodynamics
06:01 Electromagnetism
08:30 Nuclear Physics 1
09:28 Relativity
11:25 Nuclear Physics 2
12:13 Quantum Mechanics
This video took way too many hours to make.
If you like it, show it to your friends. Thanks
Music by Audionautix.com
Inspired by Arvin Ash's Video: https://youtu.be/TTHazQeM8v8?si=6taX-lihz1hSNYk5
https://wn.com/All_Of_Physics_Explained_In_14_Minutes
Physics is an amazing science, that is incredibly tedious to learn and notoriously difficult.
Let's learn pretty much all of Physics in under 15 minutes.
Explaining all of physics would take more than 14 minutes.
Obviously I can't get ALL of physics in that small timeframe, but I tried my best to get all of the stuff worth knowing for most people, and explaining it as simply as possible, as fast as possible ;)
Timestamps:
00:00 Classical Mechanics
02:33 Energy
04:40 Thermodynamics
06:01 Electromagnetism
08:30 Nuclear Physics 1
09:28 Relativity
11:25 Nuclear Physics 2
12:13 Quantum Mechanics
This video took way too many hours to make.
If you like it, show it to your friends. Thanks
Music by Audionautix.com
Inspired by Arvin Ash's Video: https://youtu.be/TTHazQeM8v8?si=6taX-lihz1hSNYk5
- published: 17 Feb 2024
- views: 4419504
0:58
String Theory Explained in a Minute
- Order: Reorder
- Duration: 0:58
- Uploaded Date: 27 Sep 2023
- views: 5995233
Dr. Michio Kaku, a professor of theoretical physics, answers the internet's burning questions about physics. Can Michio explain "string theory" to the layperson...
Dr. Michio Kaku, a professor of theoretical physics, answers the internet's burning questions about physics. Can Michio explain "string theory" to the layperson?
Still haven’t subscribed to WIRED on YouTube? ►► http://wrd.cm/15fP7B7
Listen to the Get WIRED podcast ►► https://link.chtbl.com/wired-ytc-desc
Want more WIRED? Get the magazine ►► https://subscribe.wired.com/subscribe/splits/wired/WIR_YouTube?source=EDT_WIR_YouTube_0_Video_Description_ZZ
Follow WIRED:
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Get more incredible stories on science and tech with our daily newsletter: https://wrd.cm/DailyYT
Also, check out the free WIRED channel on Roku, Apple TV, Amazon Fire TV, and Android TV.
ABOUT WIRED
WIRED is where tomorrow is realized. Through thought-provoking stories and videos, WIRED explores the future of business, innovation, and culture.
https://wn.com/String_Theory_Explained_In_A_Minute
Dr. Michio Kaku, a professor of theoretical physics, answers the internet's burning questions about physics. Can Michio explain "string theory" to the layperson?
Still haven’t subscribed to WIRED on YouTube? ►► http://wrd.cm/15fP7B7
Listen to the Get WIRED podcast ►► https://link.chtbl.com/wired-ytc-desc
Want more WIRED? Get the magazine ►► https://subscribe.wired.com/subscribe/splits/wired/WIR_YouTube?source=EDT_WIR_YouTube_0_Video_Description_ZZ
Follow WIRED:
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Twitter ►►http://www.twitter.com/wired
Facebook ►►https://www.facebook.com/wired
Tik Tok ►►https://www.tiktok.com/@wired
Get more incredible stories on science and tech with our daily newsletter: https://wrd.cm/DailyYT
Also, check out the free WIRED channel on Roku, Apple TV, Amazon Fire TV, and Android TV.
ABOUT WIRED
WIRED is where tomorrow is realized. Through thought-provoking stories and videos, WIRED explores the future of business, innovation, and culture.
- published: 27 Sep 2023
- views: 5995233
2:37
Center for High Energy Physics
- Order: Reorder
- Duration: 2:37
- Uploaded Date: 07 Jul 2011
- views: 3241
UO Development Communications
Producer: Ed Dorsch
Director of Photography: Michael McDermott
The Center for High Energy Physics enhances the experimental a...
UO Development Communications
Producer: Ed Dorsch
Director of Photography: Michael McDermott
The Center for High Energy Physics enhances the experimental and theoretical high energy physics research activities at the University of Oregon. The Center is one of several centers and institutes supported by the Office of the Vice President for Research and Graduate Studies, and maintains a close relationship with the Department of Physics and the Institute of Theoretical Science.
The Center sponsors seminars on topics in high energy physics, hosts visiting scientists, supports graduate student research, facilitates interaction between experimental activities and theoretical investigations of Oregon scientists, and fosters communication of research to a broader community.
https://wn.com/Center_For_High_Energy_Physics
UO Development Communications
Producer: Ed Dorsch
Director of Photography: Michael McDermott
The Center for High Energy Physics enhances the experimental and theoretical high energy physics research activities at the University of Oregon. The Center is one of several centers and institutes supported by the Office of the Vice President for Research and Graduate Studies, and maintains a close relationship with the Department of Physics and the Institute of Theoretical Science.
The Center sponsors seminars on topics in high energy physics, hosts visiting scientists, supports graduate student research, facilitates interaction between experimental activities and theoretical investigations of Oregon scientists, and fosters communication of research to a broader community.
- published: 07 Jul 2011
- views: 3241
31:48
The Map of Particle Physics | The Standard Model Explained
- Order: Reorder
- Duration: 31:48
- Uploaded Date: 01 May 2021
- views: 1590617
In this video I explain all the basics of particle physics and the standard model of particle physics. Check out Brilliant here: https://brilliant.org/DOS/
Buy ...
In this video I explain all the basics of particle physics and the standard model of particle physics. Check out Brilliant here: https://brilliant.org/DOS/
Buy the poster here: https://store.dftba.com/collections/domain-of-science/products/map-of-fundamental-particles
Digital version here: https://www.flickr.com/photos/95869671@N08
The standard model of particle physics is our fundamental description of the stuff in the universe. It doesn’t answer why anything exists, but does describe what exists and how it behaves, and that’s what we’ll be discovering in this video. We will cover the fermions, which contain the quarks and the leptons, as well as the bosons or force carriers. As well as which of the fundamental forces each of these fundamental particles interact with, along with the Higgs field. We’ll also look at the conservation rules of particle physics, symmetries in physics and the various quantum numbers that rule which particle interactions are valid and which are not.
#particlephysics #standardmodel #DomainOfScience
--- Posters ----
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I have also made posters available for educational use which you can find here: https://www.flickr.com/photos/95869671@N08/
-- Some Awesome People ---
And many thanks to my $10 supporters on Patreon, you are awesome!
Bob Milano
Alex Polo
Eric Epstein
Kevin Delaney
Mark Pickenheim
noggieB
Raj Duphare
Reggie Fourmyle
Sandy Toye
Sebastian
Terrence Masson
Join the gang and help support me produce free and high quality science content:
https://www.patreon.com/domainofscience
--- Special Thanks ---
Special thanks to Sarah Johnson https://twitter.com/SJDJ and Henry Reich https://www.youtube.com/user/minutephysics for their fact checking help.
--- My Science Books ----
I also write science books for kids called Professor Astro Cat. You can see them all here:
http://profastrocat.com
--- Follow me around the internet ---
http://dominicwalliman.com
https://twitter.com/DominicWalliman
https://www.instagram.com/dominicwalliman
--- Credits ---
Art, animation, presented by Dominic Walliman
References
[1] good summary
https://physics.info/standard/
[2] CPT symmetry
en.wikipedia.org/wiki/CP_violation
[3] Arvin Ash video
https://youtu.be/gkHmXhhAF2Y
[4] Conservation rules video
https://www.youtube.com/watch?v=dkFr3BGO8Dg
[5] More conservation rules
https://www.youtube.com/watch?v=qbf7y7Uv6d4
[6] Particle conservation laws
https://bit.ly/3pIb05M
[7] Short explanation of spin
https://bit.ly/2R7UIGV
[8] Short video explaining spin
https://youtu.be/cd2Ua9dKEl8
[9] Pauli exclusion principle
https://bit.ly/3mr4bF5
[10] The failure of supersymmetry
https://bit.ly/3uumFHn
[11] A nice summary of CP-symmetry
https://bit.ly/3t5WmqS
--- Chapters ---
00:00 Intro
00:28 What is particle physics?
01:33 The Fundamental Particles
02:13 Spin
3:52 Conservation Laws
5:01 Fermions and Bosons
7:40 Quarks
11:12 Color Charge
14:13 Leptons
16:39 Neutrinos
19:08 Symmetries in Physics
21:56 Conservation Laws With Forces
23:07 Summary So Far
23:36 Bosons
25:48 Gravity
26:52 Mysteries
28:24 The Future
29:08 Sponsor Message
30:12 End Ramble
https://wn.com/The_Map_Of_Particle_Physics_|_The_Standard_Model_Explained
In this video I explain all the basics of particle physics and the standard model of particle physics. Check out Brilliant here: https://brilliant.org/DOS/
Buy the poster here: https://store.dftba.com/collections/domain-of-science/products/map-of-fundamental-particles
Digital version here: https://www.flickr.com/photos/95869671@N08
The standard model of particle physics is our fundamental description of the stuff in the universe. It doesn’t answer why anything exists, but does describe what exists and how it behaves, and that’s what we’ll be discovering in this video. We will cover the fermions, which contain the quarks and the leptons, as well as the bosons or force carriers. As well as which of the fundamental forces each of these fundamental particles interact with, along with the Higgs field. We’ll also look at the conservation rules of particle physics, symmetries in physics and the various quantum numbers that rule which particle interactions are valid and which are not.
#particlephysics #standardmodel #DomainOfScience
--- Posters ----
DFTBA Store: https://store.dftba.com/collections/domain-of-science
RedBubble Store: https://www.redbubble.com/people/DominicWalliman
I have also made posters available for educational use which you can find here: https://www.flickr.com/photos/95869671@N08/
-- Some Awesome People ---
And many thanks to my $10 supporters on Patreon, you are awesome!
Bob Milano
Alex Polo
Eric Epstein
Kevin Delaney
Mark Pickenheim
noggieB
Raj Duphare
Reggie Fourmyle
Sandy Toye
Sebastian
Terrence Masson
Join the gang and help support me produce free and high quality science content:
https://www.patreon.com/domainofscience
--- Special Thanks ---
Special thanks to Sarah Johnson https://twitter.com/SJDJ and Henry Reich https://www.youtube.com/user/minutephysics for their fact checking help.
--- My Science Books ----
I also write science books for kids called Professor Astro Cat. You can see them all here:
http://profastrocat.com
--- Follow me around the internet ---
http://dominicwalliman.com
https://twitter.com/DominicWalliman
https://www.instagram.com/dominicwalliman
--- Credits ---
Art, animation, presented by Dominic Walliman
References
[1] good summary
https://physics.info/standard/
[2] CPT symmetry
en.wikipedia.org/wiki/CP_violation
[3] Arvin Ash video
https://youtu.be/gkHmXhhAF2Y
[4] Conservation rules video
https://www.youtube.com/watch?v=dkFr3BGO8Dg
[5] More conservation rules
https://www.youtube.com/watch?v=qbf7y7Uv6d4
[6] Particle conservation laws
https://bit.ly/3pIb05M
[7] Short explanation of spin
https://bit.ly/2R7UIGV
[8] Short video explaining spin
https://youtu.be/cd2Ua9dKEl8
[9] Pauli exclusion principle
https://bit.ly/3mr4bF5
[10] The failure of supersymmetry
https://bit.ly/3uumFHn
[11] A nice summary of CP-symmetry
https://bit.ly/3t5WmqS
--- Chapters ---
00:00 Intro
00:28 What is particle physics?
01:33 The Fundamental Particles
02:13 Spin
3:52 Conservation Laws
5:01 Fermions and Bosons
7:40 Quarks
11:12 Color Charge
14:13 Leptons
16:39 Neutrinos
19:08 Symmetries in Physics
21:56 Conservation Laws With Forces
23:07 Summary So Far
23:36 Bosons
25:48 Gravity
26:52 Mysteries
28:24 The Future
29:08 Sponsor Message
30:12 End Ramble
- published: 01 May 2021
- views: 1590617
1:39:35
Lecture by Alan Guth “INFLATIONARY COSMOLOGY Is Our Universe Part of a Multiverse?” | SGT University
- Order: Reorder
- Duration: 1:39:35
- Uploaded Date: 19 Dec 2024
- views: 266
A huge multi-acre campus on the outskirts of Gurugram, flush with greenery and seemingly endless to the eyes, SGT University is often regarded as one of the bes...
A huge multi-acre campus on the outskirts of Gurugram, flush with greenery and seemingly endless to the eyes, SGT University is often regarded as one of the best private universities in Delhi and Haryana. The Creativity of Arts, The Stability of Commerce, or The Inquiry of Science; whatever it is you search for, you will get it here. From our NVIDIA-powered high-speed computers to a 3600 sq.ft. shooting floor, or the sui generis NRSC facility, our focus is not actually to keep you in, but to get you out into the world, ready to take it on. Our perspective on education and teaching is molded in line with the needs and wants of the industry you want to be in.
The challenging task of establishing a multi-disciplinary educational institution began with the establishment of SGT Dental College in 2002. The two decades since have seen us grow leaps and bounds, with five academic blocks and a multi-specialty hospital with more than 800 beds, taking us closer to our ambition to nurture future change-makers. At the heart of SGT University’s curriculum lies a commitment to train students to adapt to the rapidly changing demands of today’s knowledge economy. We strive to deliver higher education that is on par with international standards across our 18 faculties by fusing academic rigor with practical experience. Our approach to teaching focuses on creating an engaging learning environment that meets the individual needs of each student. By focusing on practical applications and critical thinking, we prepare students for real-world challenges. Evaluation is based on a holistic approach, encompassing regular assessments, projects, and practical exams, providing students with a comprehensive understanding of their progress. Our goal is to strive for continuous improvement in our learners and educators.
We have just started, and our ambitions are set towards becoming a nationally and globally recognized university. With an insatiable desire to meet and surpass international standards for quality education, we have come up with the following course of action for the immediate future. You can check out more about the programs and SGT University news & events from the website https://bit.ly/3DiblVl
You can also call us at our toll-free number, 1800-1025661, for any inquiry about our programs.
Visit us at: https://sgtuniversity.ac.in/
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LinkedIn: https://bit.ly/3XVlPDB
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Admission Open 2024 -25.
Apply now- https://sgtuniversity.ac.in/admissions/apply-online
This stream is created with #PRISMLiveStudio
https://wn.com/Lecture_By_Alan_Guth_“Inflationary_Cosmology_Is_Our_Universe_Part_Of_A_Multiverse_”_|_Sgt_University
A huge multi-acre campus on the outskirts of Gurugram, flush with greenery and seemingly endless to the eyes, SGT University is often regarded as one of the best private universities in Delhi and Haryana. The Creativity of Arts, The Stability of Commerce, or The Inquiry of Science; whatever it is you search for, you will get it here. From our NVIDIA-powered high-speed computers to a 3600 sq.ft. shooting floor, or the sui generis NRSC facility, our focus is not actually to keep you in, but to get you out into the world, ready to take it on. Our perspective on education and teaching is molded in line with the needs and wants of the industry you want to be in.
The challenging task of establishing a multi-disciplinary educational institution began with the establishment of SGT Dental College in 2002. The two decades since have seen us grow leaps and bounds, with five academic blocks and a multi-specialty hospital with more than 800 beds, taking us closer to our ambition to nurture future change-makers. At the heart of SGT University’s curriculum lies a commitment to train students to adapt to the rapidly changing demands of today’s knowledge economy. We strive to deliver higher education that is on par with international standards across our 18 faculties by fusing academic rigor with practical experience. Our approach to teaching focuses on creating an engaging learning environment that meets the individual needs of each student. By focusing on practical applications and critical thinking, we prepare students for real-world challenges. Evaluation is based on a holistic approach, encompassing regular assessments, projects, and practical exams, providing students with a comprehensive understanding of their progress. Our goal is to strive for continuous improvement in our learners and educators.
We have just started, and our ambitions are set towards becoming a nationally and globally recognized university. With an insatiable desire to meet and surpass international standards for quality education, we have come up with the following course of action for the immediate future. You can check out more about the programs and SGT University news & events from the website https://bit.ly/3DiblVl
You can also call us at our toll-free number, 1800-1025661, for any inquiry about our programs.
Visit us at: https://sgtuniversity.ac.in/
Facebook: https://bit.ly/46SGdct
Twitter: https://bit.ly/3K6rtwN
LinkedIn: https://bit.ly/3XVlPDB
Instagram: https://bit.ly/43xysFO
Admission Open 2024 -25.
Apply now- https://sgtuniversity.ac.in/admissions/apply-online
This stream is created with #PRISMLiveStudio
- published: 19 Dec 2024
- views: 266
7:22
What does the future hold for particle physics?
- Order: Reorder
- Duration: 7:22
- Uploaded Date: 07 Oct 2019
- views: 106064
In this video, I talk about what the results from the Large Hadron Collider that we have so far mean for the future of particle physics.
The Large Hadron Colli...
In this video, I talk about what the results from the Large Hadron Collider that we have so far mean for the future of particle physics.
The Large Hadron Collider has, contrary to many physicists' hopes, found only the Higgs-boson, and no other fundamentally new particles. But I am sure you recall that before this machine turned on, we heard a lot of talk about other, more exciting things, that it could find: dark matter, new symmetries, extra dimensions, black holes, evidence for parallel universes or even time travel.
Whatever happened to that? Why did physicists think these were reasonable expectations? And what have they now learned from their failed predictions?
Physicists believed that something besides the Higgs should show up at the LHC due to an argument known as "technical naturalness". In my video I explain, however, that this argument is unconvincing, for the new effects predicted this way are not necessary. They are basically wishful thinking.
I then speculate on what will happen to the field in the coming decade.
The articles quoted in the video are these:
Jamieson:
https://www.newscientist.com/article/dn14606-introduction-the-large-hadron-collider/
Ian Sample
https://www.theguardian.com/science/2008/sep/10/large.hadron.collider
Paul Langacker for the APS
https://physics.aps.org/articles/v3/98
Michael Dine for Physics Today (note that I got the date wrong in the video. The article date to 2007, not 2010)
https://physicstoday.scitation.org/doi/full/10.1063/1.2825069
The Telegraph
https://www.telegraph.co.uk/news/science/large-hadron-collider/7538956/The-Large-Hadron-Collider-Questions-and-Answers.html
Steve Giddings for phys.org
https://phys.org/news/2010-01-large-hadron-collider-reveal.html
https://wn.com/What_Does_The_Future_Hold_For_Particle_Physics
In this video, I talk about what the results from the Large Hadron Collider that we have so far mean for the future of particle physics.
The Large Hadron Collider has, contrary to many physicists' hopes, found only the Higgs-boson, and no other fundamentally new particles. But I am sure you recall that before this machine turned on, we heard a lot of talk about other, more exciting things, that it could find: dark matter, new symmetries, extra dimensions, black holes, evidence for parallel universes or even time travel.
Whatever happened to that? Why did physicists think these were reasonable expectations? And what have they now learned from their failed predictions?
Physicists believed that something besides the Higgs should show up at the LHC due to an argument known as "technical naturalness". In my video I explain, however, that this argument is unconvincing, for the new effects predicted this way are not necessary. They are basically wishful thinking.
I then speculate on what will happen to the field in the coming decade.
The articles quoted in the video are these:
Jamieson:
https://www.newscientist.com/article/dn14606-introduction-the-large-hadron-collider/
Ian Sample
https://www.theguardian.com/science/2008/sep/10/large.hadron.collider
Paul Langacker for the APS
https://physics.aps.org/articles/v3/98
Michael Dine for Physics Today (note that I got the date wrong in the video. The article date to 2007, not 2010)
https://physicstoday.scitation.org/doi/full/10.1063/1.2825069
The Telegraph
https://www.telegraph.co.uk/news/science/large-hadron-collider/7538956/The-Large-Hadron-Collider-Questions-and-Answers.html
Steve Giddings for phys.org
https://phys.org/news/2010-01-large-hadron-collider-reveal.html
- published: 07 Oct 2019
- views: 106064
7:21
The LHC's Record Energy at CERN Will Just Produce Record Nonsense
Ten years after the so-called "discovery" of the Higgs Boson, we have to fear the next cyc...
published: 06 Jul 2022
The LHC's Record Energy at CERN Will Just Produce Record Nonsense
The LHC's Record Energy at CERN Will Just Produce Record Nonsense
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- published: 06 Jul 2022
- views: 43172
Ten years after the so-called "discovery" of the Higgs Boson, we have to fear the next cycle of self-deception in high energy physics.
Hossenfelder's take on particle physics: https://www.youtube.com/watch?v=9qqEU1Q-gYE
3:52
AI and Physics: High Energy Physics
The recent development of AI presents challenges, but also great opportunities. In this se...
published: 03 Mar 2024
AI and Physics: High Energy Physics
AI and Physics: High Energy Physics
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- published: 03 Mar 2024
- views: 2594
The recent development of AI presents challenges, but also great opportunities. In this series I will discuss possible AI applications:
One important field to fix is high energy physics...
Mind also my backup channel:
https://odysee.com/@TheMachian:c
My books: www.amazon.com/Alexander-Unzicker/e/B00DQCRYYY/
18:43
Particle Physics Explained Visually in 20 min | Feynman diagrams
Get MagellanTV here: https://try.magellantv.com/arvinash and get an exclusive offer for ou...
published: 20 Dec 2020
Particle Physics Explained Visually in 20 min | Feynman diagrams
Particle Physics Explained Visually in 20 min | Feynman diagrams
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- published: 20 Dec 2020
- views: 379556
Get MagellanTV here: https://try.magellantv.com/arvinash and get an exclusive offer for our viewers: an extended, month-long trial, FREE. MagellanTV has the largest and best collection of Science content anywhere, including Space, Physics, Technology, Nature, Mind and Body, and a growing collection of 4K. This new streaming service has 3000 great documentaries. Check out our personal recommendation and MagellanTV’s exclusive playlists: https://www.magellantv.com/genres/science-and-tech
If you didn't understand this video, these may help:
https://youtu.be/xZqID1zSm0k -- Mechanism of the fundamental forces
https://youtu.be/jlEovwE1oHI -- What are quantum fields?
0:00 - Intro & Fields
2:22 - Special offer
3:09 - Particles, charges, forces
6:32 - Recap
7:13 - Electromagnetism
10:04 - Weak force
12:19 - Strong force
16:53 - Higgs
If we generalize the concept of bosons interacting with particles, we can get all fundamental particle physics. Complex math, but physicist Richard Feynman came up with a simple way to view these interactions - Feynman diagrams.
The 12 fermions are depicted as straight lines with arrows in the diagrams. The arrows represent the “flow” of fermions. No two arrows point towards each other. If time is in the x direction, then fermion arrows going forwards are matter particles, and those going backwards, antimatter particles.
All 6 quarks have color charges. All particles with color charges interact with the strong nuclear force. Quarks also have an electric charge, so they also feel the electromagnetic force.
Leptons can be divided into the electron and its heavier cousins, the muon and tau particles. These all have electric charges but no color charges. Neutrinos do not have a color charge or an electric charge, so they are not affected by the strong and electromagnetic forces.
All fermions carry something called weak isospin. This can be thought of as the “charge” of the weak force. It can be +1/2 or -1/2. All fermions interact with the weak force. But weak isospin can also be -1, 0, and +1 – the W- boson has a weak isospin of -1, W+ has +1, Higgs has -1/2, and Z boson and photons have a weak isospin of 0. Note that this zero is not the same has having no isospin. Everything in the standard model has a weak isospin except gluons.
The weak force has the power to turn one particle into another particle. It is the only force that can do that.
To recap, quarks interact with all forces, electron like particles interact with electromagnetism and the weak force, but do not interact with the strong force. Neutrinos only interact with the weak force and nothing else. Only quarks and gluons carry the strong force. Higgs bosons do not interact with photons or gluons. They confer mass to fundamental particles, so all fundamental particles with mass interact with Higgs.
The simplest force is electromagnetic which interacts with quarks and leptons. Repulsion is depicted in Møller scattering. Attraction is shown in Bhabha scattering. When electrons and positrons are near each other, they can annihilate or attract each other.'
Weak force is felt by all of the standard model particles, except gluons. W-boson can do something very special. They can change the identity or flavor of the particle - a neutron to a proton. We probably would not exist without it.
Z-boson has no electric charge and can mediate interactions with electrically neutral particles like the neutrino and the Higgs.
The strong force is the most complicated mathematically, but since it only relates to quarks and gluons. A pair of quarks can change color. This happens all the time inside protons and neutrons, and is the glue that binds the quarks together.
Because gluons themselves contain color charges, they also interact with each other via complicated diagrams. This is what flux tubes are made of. These tubes are formed when you try to pull quarks apart.
Mesons are formed when a quark tries to leave a nucleon. These mesons are a combination of a quark, anti-quark pairs which mediate the strong force between protons and neutrons.
Pi mesons exchanges colors and quarks between protons and neutron. This is what keeps them glued together. Color charges must be conserved. Either red, blue, and green must combine, or color anti-color must combine to form a neutral color charge.
The most prominent process used at the Large hadron collider to make a Higgs boson is called the gluon fusion process. During high energy proton-proton collisions, two high energy gluons can be produced. Strong force interaction can turn these into top quarks which fuse together via a loop of top quark, anti-top quark creation and annihilation. The energy of this can create a Higgs boson.
#particlephysics
#fundamentalforces
When particles decay, they tend to decay into the next highest mass particle.
Become a patron: https://www.patreon.com/bePatron?u=17543985
Further reading: http://t.ly/fKKD
1:22
Brian Cox explains quantum mechanics in 60 seconds - BBC News
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by...
published: 23 Sep 2014
Brian Cox explains quantum mechanics in 60 seconds - BBC News
Brian Cox explains quantum mechanics in 60 seconds - BBC News
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- published: 23 Sep 2014
- views: 8116720
Subscribe to BBC News www.youtube.com/bbcnews
British physicist Brian Cox is challenged by the presenter of Radio 4's 'Life Scientific', Jim Al-Khalili, to explain the rules of quantum mechanics in just a minute. Brian succeeds; while conceding that the idea that everything is inherently probabilistic, is challenging. Even Einstein found it difficult.
http://www.bbc.co.uk/programmes/b04hvx9z
Subscribe to BBC News HERE http://bit.ly/1rbfUog
Check out our website: http://www.bbc.com/news
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14:20
ALL OF PHYSICS explained in 14 Minutes
Physics is an amazing science, that is incredibly tedious to learn and notoriously difficu...
published: 17 Feb 2024
ALL OF PHYSICS explained in 14 Minutes
ALL OF PHYSICS explained in 14 Minutes
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- published: 17 Feb 2024
- views: 4419504
Physics is an amazing science, that is incredibly tedious to learn and notoriously difficult.
Let's learn pretty much all of Physics in under 15 minutes.
Explaining all of physics would take more than 14 minutes.
Obviously I can't get ALL of physics in that small timeframe, but I tried my best to get all of the stuff worth knowing for most people, and explaining it as simply as possible, as fast as possible ;)
Timestamps:
00:00 Classical Mechanics
02:33 Energy
04:40 Thermodynamics
06:01 Electromagnetism
08:30 Nuclear Physics 1
09:28 Relativity
11:25 Nuclear Physics 2
12:13 Quantum Mechanics
This video took way too many hours to make.
If you like it, show it to your friends. Thanks
Music by Audionautix.com
Inspired by Arvin Ash's Video: https://youtu.be/TTHazQeM8v8?si=6taX-lihz1hSNYk5
0:58
String Theory Explained in a Minute
Dr. Michio Kaku, a professor of theoretical physics, answers the internet's burning questi...
published: 27 Sep 2023
String Theory Explained in a Minute
String Theory Explained in a Minute
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- published: 27 Sep 2023
- views: 5995233
Dr. Michio Kaku, a professor of theoretical physics, answers the internet's burning questions about physics. Can Michio explain "string theory" to the layperson?
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2:37
Center for High Energy Physics
UO Development Communications
Producer: Ed Dorsch
Director of Photography: Michael McDer...
published: 07 Jul 2011
Center for High Energy Physics
Center for High Energy Physics
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- published: 07 Jul 2011
- views: 3241
UO Development Communications
Producer: Ed Dorsch
Director of Photography: Michael McDermott
The Center for High Energy Physics enhances the experimental and theoretical high energy physics research activities at the University of Oregon. The Center is one of several centers and institutes supported by the Office of the Vice President for Research and Graduate Studies, and maintains a close relationship with the Department of Physics and the Institute of Theoretical Science.
The Center sponsors seminars on topics in high energy physics, hosts visiting scientists, supports graduate student research, facilitates interaction between experimental activities and theoretical investigations of Oregon scientists, and fosters communication of research to a broader community.
31:48
The Map of Particle Physics | The Standard Model Explained
In this video I explain all the basics of particle physics and the standard model of parti...
published: 01 May 2021
The Map of Particle Physics | The Standard Model Explained
The Map of Particle Physics | The Standard Model Explained
- Report rights infringement
- published: 01 May 2021
- views: 1590617
In this video I explain all the basics of particle physics and the standard model of particle physics. Check out Brilliant here: https://brilliant.org/DOS/
Buy the poster here: https://store.dftba.com/collections/domain-of-science/products/map-of-fundamental-particles
Digital version here: https://www.flickr.com/photos/95869671@N08
The standard model of particle physics is our fundamental description of the stuff in the universe. It doesn’t answer why anything exists, but does describe what exists and how it behaves, and that’s what we’ll be discovering in this video. We will cover the fermions, which contain the quarks and the leptons, as well as the bosons or force carriers. As well as which of the fundamental forces each of these fundamental particles interact with, along with the Higgs field. We’ll also look at the conservation rules of particle physics, symmetries in physics and the various quantum numbers that rule which particle interactions are valid and which are not.
#particlephysics #standardmodel #DomainOfScience
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References
[1] good summary
https://physics.info/standard/
[2] CPT symmetry
en.wikipedia.org/wiki/CP_violation
[3] Arvin Ash video
https://youtu.be/gkHmXhhAF2Y
[4] Conservation rules video
https://www.youtube.com/watch?v=dkFr3BGO8Dg
[5] More conservation rules
https://www.youtube.com/watch?v=qbf7y7Uv6d4
[6] Particle conservation laws
https://bit.ly/3pIb05M
[7] Short explanation of spin
https://bit.ly/2R7UIGV
[8] Short video explaining spin
https://youtu.be/cd2Ua9dKEl8
[9] Pauli exclusion principle
https://bit.ly/3mr4bF5
[10] The failure of supersymmetry
https://bit.ly/3uumFHn
[11] A nice summary of CP-symmetry
https://bit.ly/3t5WmqS
--- Chapters ---
00:00 Intro
00:28 What is particle physics?
01:33 The Fundamental Particles
02:13 Spin
3:52 Conservation Laws
5:01 Fermions and Bosons
7:40 Quarks
11:12 Color Charge
14:13 Leptons
16:39 Neutrinos
19:08 Symmetries in Physics
21:56 Conservation Laws With Forces
23:07 Summary So Far
23:36 Bosons
25:48 Gravity
26:52 Mysteries
28:24 The Future
29:08 Sponsor Message
30:12 End Ramble
1:39:35
Lecture by Alan Guth “INFLATIONARY COSMOLOGY Is Our Universe Part of a Multiverse?” | SGT University
A huge multi-acre campus on the outskirts of Gurugram, flush with greenery and seemingly e...
published: 19 Dec 2024
Lecture by Alan Guth “INFLATIONARY COSMOLOGY Is Our Universe Part of a Multiverse?” | SGT University
Lecture by Alan Guth “INFLATIONARY COSMOLOGY Is Our Universe Part of a Multiverse?” | SGT University
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- published: 19 Dec 2024
- views: 266
A huge multi-acre campus on the outskirts of Gurugram, flush with greenery and seemingly endless to the eyes, SGT University is often regarded as one of the best private universities in Delhi and Haryana. The Creativity of Arts, The Stability of Commerce, or The Inquiry of Science; whatever it is you search for, you will get it here. From our NVIDIA-powered high-speed computers to a 3600 sq.ft. shooting floor, or the sui generis NRSC facility, our focus is not actually to keep you in, but to get you out into the world, ready to take it on. Our perspective on education and teaching is molded in line with the needs and wants of the industry you want to be in.
The challenging task of establishing a multi-disciplinary educational institution began with the establishment of SGT Dental College in 2002. The two decades since have seen us grow leaps and bounds, with five academic blocks and a multi-specialty hospital with more than 800 beds, taking us closer to our ambition to nurture future change-makers. At the heart of SGT University’s curriculum lies a commitment to train students to adapt to the rapidly changing demands of today’s knowledge economy. We strive to deliver higher education that is on par with international standards across our 18 faculties by fusing academic rigor with practical experience. Our approach to teaching focuses on creating an engaging learning environment that meets the individual needs of each student. By focusing on practical applications and critical thinking, we prepare students for real-world challenges. Evaluation is based on a holistic approach, encompassing regular assessments, projects, and practical exams, providing students with a comprehensive understanding of their progress. Our goal is to strive for continuous improvement in our learners and educators.
We have just started, and our ambitions are set towards becoming a nationally and globally recognized university. With an insatiable desire to meet and surpass international standards for quality education, we have come up with the following course of action for the immediate future. You can check out more about the programs and SGT University news & events from the website https://bit.ly/3DiblVl
You can also call us at our toll-free number, 1800-1025661, for any inquiry about our programs.
Visit us at: https://sgtuniversity.ac.in/
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7:22
What does the future hold for particle physics?
In this video, I talk about what the results from the Large Hadron Collider that we have s...
published: 07 Oct 2019
What does the future hold for particle physics?
What does the future hold for particle physics?
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- published: 07 Oct 2019
- views: 106064
In this video, I talk about what the results from the Large Hadron Collider that we have so far mean for the future of particle physics.
The Large Hadron Collider has, contrary to many physicists' hopes, found only the Higgs-boson, and no other fundamentally new particles. But I am sure you recall that before this machine turned on, we heard a lot of talk about other, more exciting things, that it could find: dark matter, new symmetries, extra dimensions, black holes, evidence for parallel universes or even time travel.
Whatever happened to that? Why did physicists think these were reasonable expectations? And what have they now learned from their failed predictions?
Physicists believed that something besides the Higgs should show up at the LHC due to an argument known as "technical naturalness". In my video I explain, however, that this argument is unconvincing, for the new effects predicted this way are not necessary. They are basically wishful thinking.
I then speculate on what will happen to the field in the coming decade.
The articles quoted in the video are these:
Jamieson:
https://www.newscientist.com/article/dn14606-introduction-the-large-hadron-collider/
Ian Sample
https://www.theguardian.com/science/2008/sep/10/large.hadron.collider
Paul Langacker for the APS
https://physics.aps.org/articles/v3/98
Michael Dine for Physics Today (note that I got the date wrong in the video. The article date to 2007, not 2010)
https://physicstoday.scitation.org/doi/full/10.1063/1.2825069
The Telegraph
https://www.telegraph.co.uk/news/science/large-hadron-collider/7538956/The-Large-Hadron-Collider-Questions-and-Answers.html
Steve Giddings for phys.org
https://phys.org/news/2010-01-large-hadron-collider-reveal.html
Particle physics
Particle physics (also high energy physics) is the branch of physics that studies the nature of the particles that constitute matter (particles with mass) and radiation (massless particles). Although the word "particle" can refer to various types of very small objects (e.g. protons, gas particles, or even household dust), "particle physics" usually investigates the irreducibly smallest detectable particles and the irreducibly fundamental force fields necessary to explain them. By our current understanding, these elementary particles are excitations of the quantum fields that also govern their interactions. The currently dominant theory explaining these fundamental particles and fields, along with their dynamics, is called the Standard Model. Thus, modern particle physics generally investigates the Standard Model and its various possible extensions, e.g. to the newest "known" particle, the Higgs boson, or even to the oldest known force field, gravity.
Subatomic particles
Modern particle physics research is focused on subatomic particles, including atomic constituents such as electrons, protons, and neutrons (protons and neutrons are composite particles called baryons, made of quarks), produced by radioactive and scattering processes, such as photons, neutrinos, and muons, as well as a wide range of exotic particles. Dynamics of particles is also governed by quantum mechanics; they exhibit wave–particle duality, displaying particle-like behaviour under certain experimental conditions and wave-like behaviour in others. In more technical terms, they are described by quantum state vectors in a Hilbert space, which is also treated in quantum field theory. Following the convention of particle physicists, the term elementary particles is applied to those particles that are, according to current understanding, presumed to be indivisible and not composed of other particles.
This page contains text from Wikipedia, the Free Encyclopedia - https://wn.com/Particle_physics
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by Supremes
-
by Evelyn Thomas
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by Soraya
High Energy
by: SupremesSpoken intro by Mary Wilson:
Share what you've got
To keep what you need.
Right? Wrong!
Because I need all of you
I may share many things in life
But I will never share my man...
Everytime you love you love me
The way I like it, yeah
Everytime it's something different
I wouldn't share you if I could
You make me feel light as a breeze
Fly like an eagle
Touching life with ease
See the glow you excite within me
Ooh, the love is bursting, bursting in meeeeeeeeee
ALL:
High...High Energy
(Mary: Hiiiiiigh)
High...High Energy
You make me feel light as a breeze
Fly like an eagle
Touching life with ease
See the glow you excite within me
Ooh, the love is bursting, bursting in meeeeeeeeeeeeee
ALL:
High...High Energy (Yeah, yeah, yeah, yeah)
High...High Energy
(Mary: Hiiiiiigh)
High...High Energy
(Mary oo woo hoo hoo)
High...High Energy
Ooh, ooh, ooh, ooh, ooh-ooh-ooh
Ooooooooohhhhhhhhhhh...Wow!
Ooh, ooh, ooh, ooh, ooh-ooh-ooh
Ooh, ooh, ooh, ooh, ooh-ooh-ooh
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