# If You Don’t Understand Quantum Physics, Try This!

Quantum physics has a mystique of being complicated
and hard to understand, in fact Richard Feynmann who won the Nobel prize for his work on quantum
electrodynamics said: “If you think you understand quantum physics, you don’t understand
quantum physics”. Which is kind of disheartening for us because if he didn’t understand it,
what chance do the rest of us have? Fortunately this quote is a little misleading.
We do in fact understand quantum physics really well, in fact it is arguably the most successful
scientific theory out there, and has let us invent technologies like computers, digital
cameras, LED screens, lasers and nuclear power plants. And you know, you don’t really want
to build a nuclear power plant if you don’t really understand how it works. So quantum physics is the part of physics
that describes the smallest things in our Universe: molecules, atoms, subatomic particles
thing like that. Things down there don’t quite work the same way that we are used to
up here. This is fascinating because you and everything around you is made from quantum
physics, and so this is really how the whole universe is actually working. I’ve drawn these protons, neutrons and electrons
as particles, but in quantum mechanics we really describe everything as waves. By the
way I’m using quantum physics and quantum mechanics interchangeably, they are the same
thing. So instead of an electron looking like this, it should look something like this.
This is called a wave-function. But this wave-function isn’t a real physical
wave like wave on water or a sounds wave. A quantum wave is an abstract mathematical
description. To get the real world properties like position or momentum of an electron we
have to do mathematical operations on this wave-function, so for the position we take
the amplitude and square it, which for this wave would look something like this. This
gives us a thing called a probability distribution which tells us that you are more likely to
find the electron here than here, and when we actually measure where the electron is,
an electron particle pops up somewhere within this area. So with quantum physics we don’t know anything
with infinite detail, we can only predict probabilities that things will happen, and
it looks like this is a fundamental feature of the Universe which was quite a departure
from the clockwork, deterministic universe in classical physics, the kind of thing Newton
derived. This wave-function model predicts what subatomic
particles will do incredibly well, but weirdly we’ve got no idea if this wave-function is
literally real or not. No one has ever seen a quantum wave because whenever we measure
an electron all we ever see is a point like electron particle. So there is like this hidden
quantum realm where the waves exist, and then the world we can see, which is where all the
waves have turned into particles. And the barrier between these is a measurement. We
say a measurement ‘collapses’ the wave function, but we don’t actually have any
physics to describe how the wave collapses. This is a gap in our knowledge that we have
dubbed the measurement problem, and this is one of the things that Feynmann was referring
to with his quote. Another confusing thing is how exactly to
picture an electron. It seems to be a wave until you measure it, and then it is a particle,
so what actually is it? This is known as particle-wave duality, and here is an example of it in action:
the famous double slit experiment. Imagine spraying a paintball gun at a wall
with two openings in it, you’d expect to see two columns of paint go through and hit
the wall behind. But if you shrink this all down to the size of electrons you see something
quite different. You can fire one electron at a time at the slits and they appear on
the back wall, but as they build up over time you get a whole pattern of stripes, instead
of just two bands, this pattern of stripes is called an interference pattern, something
you only see with waves. The idea is that it is the electron-wave that goes through
both slits at the same time, and then the waves from each slit overlap with each other,
and where the waves add together you have a high probability of the electron popping
up at the wall, but where the waves cancel out the probability is very low. So actually
on the back wall the highest probability of finding the electron is in the middle of the
slits, and then it goes down and up again, and down and up again and this is the interference
pattern. So when you fire one electron after another they follow this probability distribution
and this interference pattern starts building up, and that’s exactly what we see in experiments.
So this shows that electrons behave like waves in this experiment. A question is what actually happens to this
spread-out electron-wave when you do a measurement? It seems like it goes from this spread out
wave to this localised particle, but like I said, there’s nothing in quantum mechanics
that tells us how the wave-function collapses. And this is not only true for electrons, but
for everything in the Universe, so this double slit experiment has huge consequences for
our model of the Universe, and it was very surprising the first time it was done. Physicists
are still grappling with this question today and have come up with many interpretations
of quantum mechanics to try an explain these results, and explain how reality actually
works. Okay lets go back to the wave-function. Now
we can use this picture to explain other features of quantum physics that you may have heard
about. So this is just one possible wave-function
for an electron, but there are many others. Like this one for instance. This says that
the electron has a probability of being over here, and a probability of being over here,
and very little probability of being in the middle. This is perfectly allowable in quantum
physics and this is where the phrase ‘things can be in two places at once’ comes from.
This is known as superposition, which comes from the fact that this wave can be made by
adding, or superimposing these two waves. The word superposition just means the adding
together of waves and we already saw this in the double slit experiment, and is not
really a very special phenomenon. You can even see superposition by dropping two pebbles
into a pond where the ripples overlap. Now for entanglement. Let’s say two electron-waves
meet. Their waves interfere with each other and become mixed up. This means that mathematically
we now have one wave-function that describes everything about both electrons and they are
inextricably linked, even if they move far away from each other. A measurement on one
of the particles, like measuring if it is spin up or down is now correlated with a measurement
on the other, even if they move billions of miles away. Einstein was very uncomfortable
with this idea because if you measure one of the particles here you instantaneously
know what the other will be even if it is billions of miles away, and that’s got a sort
of whiff of faster than light communication, which is not allowed by the theory of relativity.
But it turns out you can’t actually use this to communicate information, because the
measurements give you random results, but the fact that they are correlated means that
somehow there is a link that stretches over that distance. This is called non-locality. Quantum tunnelling. Quantum tunnelling is
where particles have a probability of moving through barriers, essentially allowing things
like electrons to pass through walls. When a wave-function meets a barrier it decays
exponentially in the barrier, but if the barrier is narrow enough the wave-function will exist
on the other side meaning there is a probability of the particle being found there when a measurement
is made. In fact the only reason you are alive is because
of quantum tunnelling in the Sun which make the Sun shine. Protons normally repel each
other, but they have a small probability of quantum tunnelling into each other which is
what turns hydrogen into helium and releases fusion energy. All life on Earth exists because
of energy from the Sun, except for life around hydrothermal vents. Now on to the Heisenberg Uncertainty principle.
I said that the beginning that this wave-function contains all of the information like position
and momentum of the electron, we just have to do some maths on it. The position is given
by the amplitude, or height of the wave, and the momentum is given by the wavelength of
the wave. But for this specific wave the position gives
us a probability distribution, so we don’t know exactly where the electron is. Also there
is an uncertainty in the momentum because this wave is made of many different wavelengths. But we can reduce that uncertainty, let’s
have a wave that only has one wavelength, so a sine wave. Now we know the momentum exactly
because the wavelength has a single value, but look at the position. There is an equal
probability of the electron being found anywhere in the universe. Okay let’s do the opposite
let’s make a wave that has only got one position. Now we know exactly where the electron
is, but what is the wavelength of the wave? Now the wavelength is very uncertain. Basically
only a sine wave gives you a precise momentum, and any wave that isn’t a perfect sine wave,
you have to build out of multiple different sine waves, and each of those multiple different
sine waves has got a different wavelength, and hence you have a range of possible different
values of momentum for the particle. This is Heisenberg’s Uncertainty principle,
you can only know certain things precisely, but not everything. Either you have got a
definite value of momentum, and don’t know anything about position, or you know the position
very well, but don’t know anything about the momentum, or you are in some intermediate
state. And this isn’t a limit of our measuring apparatus, this is a fundamental property
of the Universe! And finally, where does the name ‘quantum’
come from. Well a quanta is a packet of something like a chunk of something, and one of the
first quantum effects people saw were atomic spectra which is where atoms give off light
with specific discrete energies. It works like this. Imagine a string that is tied at
both ends, like a guitar string. If you pluck it, only certain waves can exist because the
ends are tied down, in this situation we say that the wavelengths are quantised to certain
values. The same thing happens if you ties the ends
of the string together because the waves have to match up, they can only vibrate in certain
restricted ways. And this is what is happening to an electron in an atom. The electron-wave
is constrained by the atom and quantised to certain wavelengths, short wavelength have
high energy and long wavelengths have a lower energy. This is why the light emitted by an
atom looks like a barcode because each bar of light corresponds to an electron jumping
from a wave with a high energy to one with a lower energy, and at the same time emitting
a quantised photon of light when it does this. So the light from an atom is quantised to
discrete packets of energy. Okay so that’s all the basics of quantum
physics, here are some technical notes which aren’t essential to know, but pause the
screen now if you are interested in a little more mathematical detail. So to round up. In quantum physics objects
are described with wave-functions, but when we measure them, what we see are particles,
so this leads to particle-wave duality, and also the measurement problem. And the consequence
of these wave-functions are the quantum phenomena of superposition, entanglement, quantum tunnelling,
the Heisenberg uncertainty principle and energy quantisation. So if you understand these things
you have got a good basic understanding of quantum physics. Despite its reputation I think quantum mechanics
isn’t too difficult for most people to get the basics of what is going on. In the past
I have relied upon analogies to try an explain it, but here I have just described what is
actually going on which I think might be more helpful. But if you have more questions I’ll
is that on the one hand it is incredibly accurate and predictive but also it has got giant holes
in it like the measurement problem which we just don’t understand. So we can wonder,
will we ever actually understand quantum physics, or is it just too abstract for our human brains
to comprehend. Well I hope this video has helped you understand a little more about
how quantum physics works. And thanks to the sponsor of this video brillaint.org,
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## 100 thoughts on “If You Don’t Understand Quantum Physics, Try This!”

1. Himanshu Kumar says:

My sleeping pill is over ,doc referred this

Well if I understand QP, it means I don't right so I ain't making an effort 🤣😂.. kidding, thanks for the video ..well I didn't understand anything from the Audio 🤣😂

3. giacomo franzot says:

The religion of bumping particles…

4. Md Zaid says:

Wow wow….. wooooow a very simple explanation understood everything perfectly

5. jethrobodineus says:

I realize how dumb I am! 😵😲😬

6. Shubham Tripathi says:

I apologise but I still don't understand this! 🙁

7. Mutahir Jillani says:

Can we do time travel by quantum physics

8. Pharuj 'Mai' Rajborirug says:

One of the best introduction for quantum mechanics video out there!

9. Lilly H says:

Ehhh…..

10. Heisenberg says:

I knew it

11. Talitha Suya says:

Got more than eight minutes in before I was lost. Not too bad. I understand about two thirds of quantum physics.

12. Robert Galletta says:

IF ETHER IS THERE THEN A PILOT WAVE IS A FACTOR

13. BinaryInf says:

So I’m not 1 or 0, I’m 1 and 0.

14. Margaret Neanover says:

Well, why is the wall in front? The obvious about wave disruption or waves are intermingled with alternate slowing effect. Prime ex. Is sunlight. The actual dispersion is too strong for the Earth. And the bend of the setting of space is a contribute. So, that's it. Lol…

15. vishal ramesh says:

Being a nerd in science myself, can anybody please answer, if this world is real as per quantum physics

16. Coffémon says:

why saying the wavefunction is not physically real
its need to be to interfere with itself
at least a moment

17. shahma says:

Woww…I lost my brains now😊

18. April Merry says:

Dude, when ur stoned this is amazing! 😂

19. Edward Martin says:

So the theoretical waves are energy and matter as one in a higher spatial dimensions without time. In addition, one of the byproducts of these waves is acceleration, angular velocity, and gravity. In physics we experience, the 4th spatial dimension is in the form of time.

20. d. t. says:

For the observer quantum manifest and for the onlooker it does not (theory of relativity).

21. d. t. says:

Question how much scientists know and understand QM. And when did they start applying it to technology and how relevant to technology is it.

22. No More says:

Videos like this one make me feel very ignorant.

23. Tritun says:

That wave looks like string theory

24. Get Sideways says:

So, do I get it right that if one party has measured one of the entangled particles, the other party has no way of telling whether that has happened? Because despite of the result of the measurement being "random", the fact of collapsing itself is enough information already in my book.
Also, where does the certainty of ANY measurement absolutely necessarily collapsing the wave function stems from? Maybe we simply haven't discovered more real time and less intrusive methods of doing that yet?

25. Alexander Malmquist says:

Can you really say that the waves in quantum physics are just mathematical tricks? I mean Planck thought that his constant was just a mathematical trick where as Einstein proposed that light came in quantified packets of at least that size.

26. Oksi Daksi says:

Ofc u cant understand quantium phys… Coz they are made up from a genius only genius will umderstand them an find a way to diss Einstain did that happend already?!

27. Edward Cortez says:

All I know is that changing the past doesn't change the future. Think about it, if you travel to the past, that past becomes your future, and you're former present becomes the past, which can't now be changed by your new future.

28. 양자역학 says:

schrodinger equation has a fatal error. Thus quantum mechanics cannot explain the nature and atomic structure. This is true!!

29. Pouya Ghezel says:

Thanks a lot

30. flymasterA says:

"Probability", so I should take a quantum physicist to Vegas? I could 'wave' bye-bye' with all their sub- microscopic money. 'Beelyons and beelyons' worth.

31. Subho Deep Thakur says:

32. Shahid Mushtaq says:

Now I understand quantum physics problems
Very well explained how it break old theory of physic and trying to understand new era of things faster than speed of light
Thus practically utilise Einstein's theory of relativity
Where things can done in no time .
Physic may use this to study intergalactic communication in no time
Distance dosent bother any more

33. Andres Salinas says:

Do u guys just put the word quantum in front of everything

34. David Watkins says:

Quantum tunnelling also happens in every cell of the human body. The more I learn about quantum theory, the more I think we are part of a quantum computer simulation.

What an excellent video and explanation.

36. LordArioh says:

Thanks for that. A nice dive into quantum mechanics for a person like me, who heard the words, but never knew what they mean. Now I want to learn a little more, so I can annoy people at work with more amazing science.

37. carmichael moritz says:

lol this video is so funny . did the guy in the video come to this conclusion from trial and error or was it from anothers words . i know what quantum physics is . its a word that is used to try and describe living particles that we normally cant see . everything basically is living and holds energy of some sort and moves in cycles of energy .

This video is where physics students come to cry

39. TR1P says:

1:51 is this how a Galton board works?

40. Daksh Miglani says:

Studied most of it in 11th grade…

41. Kiss The Moon says:

i think the fact that our brains, and everything that we interact with on a daily basis is for the most part very linear, that itself sets limitations on what we can understand and perceive. The nature of our brains is the limitation of itself. The fact that there is x amount of memory to understand y amount of knowledge. Whereas things like quantum physics, or inter dimensional knowledge are on an infinite scale, and can't be perceived entirely, but are still super interesting to think about. As edgy or strange as it sounds, I've wanted to die multiple times, to really get a glimpse of reality. Day in and day out we're so caught up in us, us, us. Surviving, maintaining things like emotion and mentality. But in the grand scheme of things what is it for? Our nature is so insignificant yet so valuable at the same time. Lack of ability combined with amazing ability. Everything you live for and 'know' could be completely wrong or if not, completely worthless to know. Yet we continue to live by norms, and what seems safe.

I've thought multiple times before, humans are like animals, but smarter, but still stupid. Clever and innovative ways to survive, but still selfish and naive.

But I mean hey, who's to say anything matters. The Andromeda galaxy, supernova's, black holes. Almost everything eventually comes to an end.

42. _ BurntBoyJoe _ says:

I haven’t learnt physics a school yet but I know a lot more than people that hardly listen in science class.

43. Diamond Stone says:

Feynman's qoute was right!

44. sohib _5050 says:

I love quantum mechanics 😍

45. spi rit says:

I have learned a tiny bit of quantum physics in school, but I never understood black body radiation and why this could only be explained with quantum mechanics. Could you maybe explain that in a video?

46. strictly straightrandom says:

anoyin elevator music in the background thumbs down

47. savanna says:

I’m flexing my brain rn

48. Eric Velasco says:

Ant man is the best teacher

49. Rachel says:

Damn that electron wave is the same as the heart rhythm!

50. I like memes says:

Now I understand and don't understand at the same time. Thnx superposition

51. Gabe says:

This is the wave of my understanding: __________

52. Dirk Knight says:

You got the beginning right, but then you made the same mistake that most people make. Nobody has ever seen a point-like electron, ever. No such thing can even exist, since it would have infinite self-energy. All people have ever seen are three numbers x, y and z that describe a classical position in a detector where something happened. That there was a point-like electron at those particular coordinates is a figment of human imagination. Philosophically, this is where it's important to take the allegory of the cave seriously. In quantum mechanics the shadows (measurements) are real, but we can't, with any certainty, assign classical objects to them that would have made these shadows in the same way that classical objects make classical shadows. That's the really hard step to make when learning quantum mechanics… to suppress this need to see an objective classical reality behind a physical dynamic that is, with exception of the fundamental symmetries and the conservation laws that follow from them, nothing like classical mechanics. Terms like "particle", "collapse of the wave function", "particle-wave duality" etc. are simply failed philosophical attempts to map quantum mechanical shadows to classical objects. Any modern treatment of the subject should call them out for what they are: 80 year old category mistakes that need to be avoided by the modern student of the field.

53. Dazzy says:

Waffler

54. Noodian says:

Never thought Kermit the frog would ever explain quantum physics to me but here I am

55. Pamela Francis says:

I am new to Quantum Mechanics/Physics but am keen to learn. At school years ago there was no possibility in a large class to ask the teacher to Stop, Repeat, Try another example etc. Here the student is Master.

56. John Pargeter says:

One of the best descriptions I've ever seen. Thank you.

57. George Sorrows says:

You can’t understand God’s creations. He is a God of all knowledge.

58. OzzyBear says:

He sounds like kermit 😀

59. Angela Caldwell says:

Watching this like whaaaatt😂

60. DARK Gaming says:

Ant man is the reason

61. Will Saunders says:

Quantum Physics is easy to understand

62. Kevin Liu says:

I’m lost

63. Ozay Osidi says:

Quantum Realm: the mind exist here. Cant be measured but you can see the effect of it when it menifest in the physical realm. Like being happy, sad or in a mood. These are the effect of the mind hense quantum realm. We can only measure the wave form when it manifest in the physical realm or manifest.

64. ted brown says:

why is the electron a wave? could it be a straight line as in DC current action. A wave would suggest an AC current action.

65. ted brown says:

does the electron on an atom move in a wave form or a particular straight line path around the nucleus?

66. Squashi joshi says:

Amazing video. At last I understand so much more about superposition, uncertainty principal and so much more. Thanks.

Can you help here please: I bought a book "How Schrödinger's cat escaped the box" by Peter Rowlands. I feel OK until he starts talking about quaternions. I managed to ask him, over a cup of coffee, to help me understand. As a typical lecturer he gave me more to think about. His friend said I could use coloured counters to understand this. Can you help please? I know quaternions are used in game programming rather than using complex matricies, and you don't get gymbal lock but I don't know much more.

Please, Please, PLEASE do a video based on the chapters in his book. I have seen other youtube videos but your videos make great sense as you put a lot of work into explainig complex concepts in a simple way.

67. Ben Curzon says:

Is it me or is there a relationship between consciousness and quantum physics?

68. Justin H says:

Patrick Mahomes explaining Quantum Mechanics in an English accent, awesome.

69. Science Revolution says:

Let there be lie. Quantum anything is BS. All these fifty years of conscious brooding have brought me no nearer to the answer to the question, “What are light quanta?” Nowadays every Tom, Dick, and Harry thinks he knows it, but he is mistaken. – Einstein

70. O Ator e a Alma says:

In Quantum Physics, does a Mountain exists only when it is observed?

71. Mohammed Ibrahem says:

72. Mohammed Ibrahem says:

73. Paarth Playzzz says:

I’m in 10th grade and I under stood only the following
Electrons
Protons
Neutrons
Molecules
Sub atomic particles
Wave
mathematically
Einstein
theory of relativity
That’s pretty much it
☹️☹️

74. D woodkamp says:

Uuuhhh?

75. The New Vcvrpj says:

I'm Hope I Have Quantum computer

76. Author of Vinnarian Curse R.A. Pierce says:

What you know! you don't know? Like the back of your frenemies hand. If Quantum Physics were used it could have invented computers, digital cameras, LEDs, lasers, and transmute lead into gold. It describes everything we don't know because we don't know if it can. Large physics is of-course not the same as small physics because it's little but big at the same time. 1:46 Take a waveform and square it; changes AC into pulse DC so absolutely it's between 0 and 1 no negativity here. So it explains nothing so we should know everything when we apply what we don't know.

OK! For those looking for what the Hello their talking about! 3:16 An experiment with double slits was used to examine particles when the beam goes through the slits it produces a pattern that is the same as a wave going through the slits. To explain THIS experiment quantum people believe that particles are wave too. They have no answer to why it happens. So they CREATED quantum physics which is a JUNK science. One particle is impossible to emit or see in the experiment. Two particle react to each other – same types repel. The position between particles is uncontrollable; so how can a whole new science be created from stupidity – quantum magic. 9:32 Again the slit experiment. "Spectrum of light" absorption by an atom, is not quantum physics. He states gives off light which is wrong (atoms can only reflect what they are given). Have a great life and keep thinking or not. SCHRODINGER cat is always dead when I look into the box.

77. Johnson Saikhom says:

well explained . Thank you very much

78. Barbara Lonero says:

All this physics stuff is really interesting man I wish I would have been paying more attention in school cuz now I'm interested in it I want to know but I guess I'm too old to learn this stuff is really intriguing but I don't understand a word of what you saying I keep trying though

Loved it

80. BO BON says:

Need a scientific study on the science of the uncertainties of science .. New creative scientific terminologies are welcome . 👍👍

81. Abdul Rahman Dhillon says:

Entanglement to me means one of many methods by which all of Gods creation have a record of their movements etc in another realm
There is an eternal book which has measured all acts of all that exists in a mathematical form
If these particles can be manipulated in another universe then to me this explains why everything has form nd when something dies it's stops collaborating atoms become dispersed which to me means the opposite particle has been deactivated thus both cease?
Nd if their is a day of judgement where it is claimed by many that all the children of Adam will be recreated nd go through judgement for their time on earth etc.. now people ridicule the dead coming back to life nd that life is a grand scheme from a Creator
Could entanglement theory solve this idea?
Or am I way out there?

Give your life to Jesus Christ. Believe and Pray: God, I know that I am a sinner and unless you save me I will be lost forever. I believe that Jesus Christ is the true Son of God, died on the cross for my sins and arose on the 3rd day. I accept Jesus as my Lord and Savior, in the name of Jesus, Amen.

83. loose screws says:

Thanks! I now know less about the subject than before. I made it through about 5 minutes before before deciding I made it this far in life without understanding it and am satisfied that I will continue the rest of my life just fine still not understanding it.

84. sian lewis says:

Consider this: The people now tasked with grappling with the most important and complex theories to steer humanity in the right direction are the same people we would all be spitting chewed up paper at, blowpipe style through snapped pens.

85. Michael Harris says:

Great video at explaining it for the layperson. Thanks.

86. mathetinfo says:

…so this universe is RANDOM ? 🤔

87. Dan Mozartino says:

We are caught in a abstract trap

88. lana M says:

His quote is actually ACCURATE. If you understand it then you don’t understand it. Cuz there’s nothing to understand. Its beyond us.

89. Yordan Todorov says:

How you define "measurement" and how you "measure" a quantum wave?

90. Indi Viduum says:

That was damn good. I don't understand it now, as I understood everything you told me! 👍

Sheldon Cooper left the chat

92. Thibo Van België says:

So if this is easy , wtf is difficult Quantum Physics than?

93. Billder Inbaja says:

Quantum Physics is definitely too abstract for my tiny brain to comprehend… and I'm an engineer!

94. RayRay_ Gaming says:

Pshhhhh

95. Counter Attack says:

Nothing will going to change if you learn or not, we are not going to live more than 100 years max.

96. Bril Watuma says:

Well explained. 12 minutes Definition of Quantum Physics is is Quite Reasonable.

97. La Lil Goat says:

Ive never understood how the double slit experiment works but now i do thanks to you

98. Jackson joseph says:

This is the perfect lullaby

99. Aboo Swaleh Mosafeer says:

Thanks.I cannot honestly say I have understood but something is cooking..
Quantise what another beautiful word.

100. John Newby says:

Uuuuuuuuuuuuuuh…do what now?