The idea of quantum physics is that matter is not continuous, but made of tiny discrete fundamental particles that are indivisible.. We cannot cut them into half using a knife because the 'sharpness' of the knife is limited and can never cut quarks or electrons into half.. The only way to break these particles apart so that we can see what is inside of them is to smash them together..
I don't understand what is meant to be discovered by colliding protons. If it is know that protons are made of elementary particles (UQ and DQ) what is likely to come out the other side of a collision, except these particles?
How does the LHC gather data? Dr. Cox described the detectors as "taking 600 million pictures a second" after the collision. But doesn't introducing so many photos effect the result of the experiment?
@orlandorjames Because no chemical or even nuclear process could extract the energy out of the quarks. It would require breaking the bonds between the quarks, which would take far more energy input then you'd ever get out of it. This would also sent neuron on fire.
the world of the large , the stars , galaxies and stuff ... its limited to us ...we have a horizon ..we cant see past the cosmic microwave backround ...for several reason but the main one is the expansion of the universe but the world of the small ...is still strange and misterious to us. so i think its more important to discover everything we can about how particles work before we think about big stuff again.
@violentauntie Classical mechanics (the old laws) explain very accurately our world that we usually see - fairly large sized objects and low speed. When the speeds become sizeable relative to speed of light, classical physics completely fails, and we need a new model - relativistic mechanics. At extremely small sizes and low speeds we have quantum mechanics. At small sizes and large speeds - quantum field theory. None of them is right or wrong, they just fit reality better at that dimension.
If by collisions, we don't get more particles than we have originally smashed together, no matter how hard we smashed, we know that these particles are most probably fundamental or indivisible.. to give you an idea of the distances we are probing.. It's approximately 2.81794 x 10^-15 m.. Thats about 3 millionths of a billionth of a meter... That's cutting a meter into half about 47 times!
@pab7984 At smaller and smaller distance scales momentum become more and more uncertain. The chances that a particle will pick up enough speed to get out becomes ever greater. Basically at some point it would take a force stronger then any that exist to keep these particles in a small enough space.
Atoms; but subatomic particles are smaller than them- i.e. top quark, bottom quark (which makes up neutrons, and protons), electron, electron neutrino, charm quark, strange, quack, muon etc...
@pab7984 I guess quarks are just energy? idk and string theory those strings are like the DNA of the universe, the fundamental building blocks of the universe. so those strings are jus the smallest things imaginable cuz we'll never be able to see them, even with our most powerful microscopes that we have or we will ever have
Interesting. But, isn't the idea of "no size" an oxymoron? If Quarks exist then they have a size. If they are physically "there" then they can be cut in half, and those "pieces" also can be cut in half...and so one and so forth, forever. No?
I'm a lawyer, not a science person, but, If there is an infinity in both directions (big and small, or out and in?) then isn't there an infinite amount of particles to discover? The atom is made up of protons and neutrons, which are made of quarks, which are made of....??? Get my point? Then string theory says all matter and energy is made of tiny vibrating stings. But what are the stings made of? And what is what makes the strings made of? It's an infinity, right?
@sidewaysfcs0718 I agree, but really, I think we should focus on everything. We're a species of information, of discovery, that is what we do best and that is what we should focus on, only problem, we're still too dumb to understand that we yet don't understand. If our focus as a species was to discover the beauty of existence, instead of trying to take it for our own individual selves, then there would be no desire of hoarding it all, allowing us to experience the full depth of being
Does anyone know where the four forces and the particles of the standard model come from? Please someone explain this. Explanations of the Big Bang given by physicists state it started from a "singularity", but then contradict themselves by saying they don't know anything about what happened prior to an infinitesimal part of a second from the beginning of the "bang". Then they start talking about cooling, etc., after that time, that produced "dust", blah blah blah. They then say that hydrogen came about, blah blah blah. OKAY, but where did the electron, proton, and neutron, come from to produce the element???? Where do all the exotic particles, quarks, leptons, bosons, etc. come from??? Please no BS!
the outer is the source not theinner just trust me. factor that in for everything and it all makes sense. think about it. think the universe like a hologram a human would look out and be blinded by the outer wall and the sun would help light things around us my girl is deaf and if i stand in front of the sun shhe cant see my lips so think the original light source as the darkness of space we need stars to see around us like a hologram we are blinded by the spotlight that created us
Im all for education but how exactly is this so important to loose sleep over?Are people that desperate to find the truth to existance?You will learn or you wont once you die.Thats it.
Isaac Asimov Quote: Today's science fiction is tomorrow's science fact ..aye aye! a Ken a KEN ! Aye! sounds archaic ? x So Space is a Cartoon..? or is a Ball ! Give the children a Ball
I've learned a lot from this :)
The idea of quantum physics is that matter is not continuous, but made of tiny discrete fundamental particles that are indivisible.. We cannot cut them into half using a knife because the 'sharpness' of the knife is limited and can never cut quarks or electrons into half.. The only way to break these particles apart so that we can see what is inside of them is to smash them together..
I was watching this video
then at 1:12 I heard the dude say "hundred"
I immediately thought
Holy shit it's Brian Cox!
I don't understand what is meant to be discovered by colliding protons.
If it is know that protons are made of elementary particles (UQ and DQ) what is likely to come out the other side of a collision, except these particles?
this is so exciting!
How does the LHC gather data? Dr. Cox described the detectors as "taking 600 million pictures a second" after the collision. But doesn't introducing so many photos effect the result of the experiment?
@orlandorjames Because no chemical or even nuclear process could extract the energy out of the quarks.
It would require breaking the bonds between the quarks, which would take far more energy input then you'd ever get out of it. This would also sent neuron on fire.
the world of the large , the stars , galaxies and stuff ...
its limited to us ...we have a horizon ..we cant see past the cosmic microwave backround ...for several reason but the main one is the expansion of the universe
but the world of the small ...is still strange and misterious to us. so i think its more important to discover everything we can about how particles work before we think about big stuff again.
I love this! I love this. I love this!!!
its a cartoon loon
호구😮 0:21
12 0:44
Dr Brian Cox my favourite science communicator. (2024)
The sound at 53!
IT's from a game named AIRFIX DOGFIGHTER!!!!!!
Could you take an electron micrograph of the electron itself?
@violentauntie
Classical mechanics (the old laws) explain very accurately our world that we usually see - fairly large sized objects and low speed. When the speeds become sizeable relative to speed of light, classical physics completely fails, and we need a new model - relativistic mechanics.
At extremely small sizes and low speeds we have quantum mechanics. At small sizes and large speeds - quantum field theory.
None of them is right or wrong, they just fit reality better at that dimension.
If by collisions, we don't get more particles than we have originally smashed together, no matter how hard we smashed, we know that these particles are most probably fundamental or indivisible.. to give you an idea of the distances we are probing.. It's approximately 2.81794 x 10^-15 m.. Thats about 3 millionths of a billionth of a meter... That's cutting a meter into half about 47 times!
@pab7984 At smaller and smaller distance scales momentum become more and more uncertain. The chances that a particle will pick up enough speed to get out becomes ever greater. Basically at some point it would take a force stronger then any that exist to keep these particles in a small enough space.
Atoms; but subatomic particles are smaller than them- i.e. top quark, bottom quark (which makes up neutrons, and protons), electron, electron neutrino, charm quark, strange, quack, muon etc...
Just wait two years to see what cool things they find! Like remember the Higgs Boson? Well.... ah never mind, I won't spoil it for you.
SUPER VIDEO JE RECOMMANDE
BIEN DIT MON KIWI
@pab7984 I guess quarks are just energy? idk and string theory those strings are like the DNA of the universe, the fundamental building blocks of the universe. so those strings are jus the smallest things imaginable cuz we'll never be able to see them, even with our most powerful microscopes that we have or we will ever have
Interesting. But, isn't the idea of "no size" an oxymoron? If Quarks exist then they have a size. If they are physically "there" then they can be cut in half, and those "pieces" also can be cut in half...and so one and so forth, forever. No?
1XAJAVIER: i love this video! I love chemistry
its physics
It sounded more like a Star Wars Tie Fighter Blaster.
every particle type has it's own personality. Inside a detector it's a particle party.
so which is smaller, atoms or DNA?
you are fucking kiddin right?
I'm a lawyer, not a science person, but, If there is an infinity in both directions (big and small, or out and in?) then isn't there an infinite amount of particles to discover? The atom is made up of protons and neutrons, which are made of quarks, which are made of....??? Get my point? Then string theory says all matter and energy is made of tiny vibrating stings. But what are the stings made of? And what is what makes the strings made of? It's an infinity, right?
@cheasea
Absolutely correct!
finally switched it on today :-)
@Zayin1993 It is well over 9000.... kph
@sidewaysfcs0718 I agree, but really, I think we should focus on everything. We're a species of information, of discovery, that is what we do best and that is what we should focus on, only problem, we're still too dumb to understand that we yet don't understand. If our focus as a species was to discover the beauty of existence, instead of trying to take it for our own individual selves, then there would be no desire of hoarding it all, allowing us to experience the full depth of being
That is a pretty big hadron
i hope they'll find out why the identical particles are heavier in difference.
-alfabeto Chem 51 AGC
1XE SISON: wow!
2:05 : Twenty-seven kilometres of tunne... in circumference?
newtons laws arent wrong ..they just dont explain in detail how gravity works ....
1XADOCTOR amazing!
no sorry i ment 1:53
this guy looks young but hes got grey hair...kinda like this kid i went to school with. he was like 16 but had bunches of grey hair.
Who are the 3 inch worms who disliked this video?
@shep312
TURBOPUNS!!!
@shep312 Very clever!
sounded more like the clack of a billiard ball.
@jockedahl123 thank you
good series but to learn about quarks ill have to stick to my textbooks lol
The awesome Carl Sagan was replaced by this kid....
holy fk 600million frames/s...
Does anyone know where the four forces and the particles of the standard model come from? Please someone explain this. Explanations of the Big Bang given by physicists state it started from a "singularity", but then contradict themselves by saying they don't know anything about what happened prior to an infinitesimal part of a second from the beginning of the "bang". Then they start talking about cooling, etc., after that time, that produced "dust", blah blah blah. They then say that hydrogen came about, blah blah blah. OKAY, but where did the electron, proton, and neutron, come from to produce the element???? Where do all the exotic particles, quarks, leptons, bosons, etc. come from??? Please no BS!
the outer is the source not theinner just trust me. factor that in for everything and it all makes sense. think about it. think the universe like a hologram a human would look out and be blinded by the outer wall and the sun would help light things around us my girl is deaf and if i stand in front of the sun shhe cant see my lips so think the original light source as the darkness of space we need stars to see around us like a hologram we are blinded by the spotlight that created us
@shep312 lol I see what you did there :P
oww man he looks pretty young....i bet when hes 90 he'll look like hes 40, but his hair will be as white as Gandolf's.
@shep312 OLD
Im all for education but how exactly is this so important to loose sleep over?Are people that desperate to find the truth to existance?You will learn or you wont once you die.Thats it.
he’s cute
how i wish im as smart as them haha
-serina chem81EB1
yo chris come and find me
Chika chika slim shady
Isaac Asimov Quote: Today's science fiction is tomorrow's science fact ..aye aye! a Ken a KEN ! Aye! sounds archaic ? x So Space is a Cartoon..? or is a Ball ! Give the children a Ball