What’s the smallest thing in the universe? - Jonathan Butterworth
1,268,820 views ・ 2018-11-15
Please double-click on the English subtitles below to play the video.
Translator:
Reviewer: Daban Q. Jaff
00:06
If you were to take any everyday object,
say a coffee cup, and break it in half,
0
6832
5160
00:11
then in half again, and keep carrying on,
where would you end up?
1
11992
4420
00:16
Could you keep on going forever?
2
16412
1731
00:18
Or would you find a set of
indivisible building blocks
3
18143
3014
00:21
out of which everything is made?
4
21157
2522
00:23
Physicists have found the latter- that
matter is made of fundamental particles,
5
23679
4721
00:28
the smallest things in the universe.
6
28400
2283
00:30
Particles interact with each other according
to a theory called the “Standard Model”.
7
30683
5059
00:35
The Standard Model is a remarkably
elegant encapsulation
8
35742
3298
00:39
of the strange quantum world of
indivisible, infinitely small particles.
9
39040
5357
00:44
It also covers the forces that govern
how particles move,
10
44397
3196
00:47
interact, and bind together to give shape
to the world around us.
11
47593
4623
00:52
So how does it work?
12
52216
1510
00:53
Zooming in on the fragments of the cup,
13
53726
2215
00:55
we see molecules, made of atoms
bound up together.
14
55941
3696
00:59
A molecule is the smallest unit
of any chemical compound.
15
59637
4328
01:03
An atom is the smallest unit of any
element in the periodic table.
16
63965
4454
01:08
But the atom is not the
smallest unit of matter.
17
68419
3454
01:11
Experiments found that each atom
has a tiny, dense nucleus,
18
71873
3969
01:15
surrounded by a cloud
of even tinier electrons.
19
75842
4272
01:20
The electron is, as far as we know,
20
80114
2153
01:22
one of the fundamental, indivisible
building blocks of the universe.
21
82267
3764
01:26
It was the first Standard Model
particle ever discovered.
22
86031
4071
01:30
Electrons are bound to an atom’s
nucleus by electromagnetism.
23
90102
4133
01:34
They attract each other by exchanging
particles called photons,
24
94235
3831
01:38
which are quanta of light that carry
the electromagnetic force,
25
98066
4064
01:42
one of the fundamental
forces of the Standard Model.
26
102130
3271
01:45
The nucleus has more secrets to reveal,
as it contains protons and neutrons.
27
105401
5481
01:50
Though once thought to be fundamental
particles on their own, in 1968
28
110882
4157
01:55
physicists found that protons and neutrons
are actually made of quarks,
29
115039
4330
01:59
which are indivisible.
30
119369
2304
02:01
A proton contains two “up” quarks
and one “down” quark.
31
121673
4059
02:05
A neutron contains two down
quarks and one up.
32
125732
3920
02:09
The nucleus is held together
by the strong force,
33
129652
3151
02:12
another fundamental force
of the Standard Model.
34
132803
3176
02:15
Just as photons carry
the electromagnetic force,
35
135979
2594
02:18
particles called gluons
carry the strong force.
36
138573
3729
02:22
Electrons, together with up
and down quarks,
37
142302
2560
02:24
seem to be all we need to build atoms
and therefore describe normal matter.
38
144862
4892
02:29
However, high energy experiments reveal
that there are actually six quarks–
39
149754
4498
02:34
down & up, strange & charm,
and bottom & top
40
154252
5441
02:39
- and they come in a wide range of masses.
41
159693
2552
02:42
The same was found for electrons,
42
162245
1856
02:44
which have heavier siblings
called the muon and the tau.
43
164101
4086
02:48
Why are there three (and only three)
different versions
44
168187
3272
02:51
of each of these particles?
45
171459
2010
02:53
This remains a mystery.
46
173469
1812
02:55
These heavy particles are only produced,
for very brief moments,
47
175281
4035
02:59
in high energy collisions,
and are not seen in everyday life.
48
179316
4441
03:03
This is because they decay very
quickly into the lighter particles.
49
183757
3666
03:07
Such decays involve the exchange
of force-carrying particles,
50
187423
4416
03:11
called the W and Z, which
– unlike the photon – have mass.
51
191839
4499
03:16
They carry the weak force,
the final force of the Standard Model.
52
196338
4833
03:21
This same force allows protons and
neutrons to transform into each other,
53
201171
4757
03:25
a vital part of the fusion interactions
that drive the Sun.
54
205928
4299
03:30
To observe the W and Z directly,
55
210227
2359
03:32
we needed the high energy collisions
provided by particle accelerators.
56
212586
4386
03:36
There’s another kind of Standard Model
particle, called neutrinos.
57
216972
3495
03:40
These only interact with other particles
through the weak force.
58
220467
4448
03:44
Trillions of neutrinos, many generated
by the sun, fly through us every second.
59
224915
6047
03:50
Measurements of weak interactions found that
there are different kinds of neutrinos
60
230962
3958
03:54
associated with the electron,
muon, and tau.
61
234920
3824
03:58
All these particles also have
antimatter versions,
62
238744
3264
04:02
which have the opposite charge
but are otherwise identical.
63
242008
3539
04:05
Matter and antimatter particles are
produced in pairs in high-energy collisions,
64
245547
4603
04:10
and they annihilate each other
when they meet.
65
250150
2355
04:12
The final particle of the Standard Model
is the Higgs boson
66
252505
3721
04:16
– a quantum ripple in the background
energy field of the universe.
67
256226
3793
04:20
Interacting with this field is how all the
fundamental matter particles acquire mass,
68
260019
5565
04:25
according to the Standard Model.
69
265584
2175
04:27
The ATLAS Experiment on
the Large Hadron Collider
70
267759
3029
04:30
is studying the Standard Model in-depth.
71
270788
2801
04:33
By taking precise measurements of the particles
and forces that make up the universe,
72
273589
4324
04:37
ATLAS physicists can look for
answers to mysteries
73
277913
2998
04:40
not explained by the Standard Model.
74
280911
2510
04:43
For example, how does gravity fit in?
75
283421
2714
04:46
What is the real relationship between
force carriers and matter particles?
76
286135
4321
04:50
How can we describe “Dark Matter”,
77
290456
1933
04:52
which makes up most of the mass in the
universe but remains unaccounted for?
78
292389
4260
04:56
While the Standard Model provides a beautiful
explanation for the world around us,
79
296649
4591
05:01
there is still a universe’s worth of
mysteries left to explore.
80
301240
4199
New videos
Original video on YouTube.com
About this website
This site will introduce you to YouTube videos that are useful for learning English. You will see English lessons taught by top-notch teachers from around the world. Double-click on the English subtitles displayed on each video page to play the video from there. The subtitles scroll in sync with the video playback. If you have any comments or requests, please contact us using this contact form.