How Does Light Actually Work?

00:54:58
https://www.youtube.com/watch?v=bAedYtUredI

概要

TLDRThis video explores the history and nature of light, starting from the early universe when the first atoms formed and photons began their journey through space. It delves into the transition from a cosmic plasma to neutral gas, allowing light to travel across an evolving universe teeming with forming stars and galaxies. The video discusses the dual nature of light – both wave and particle – as understood through scientific milestones, highlighting the works of Newton, Maxwell, and Einstein. This narrative includes the wave-particle duality, the speed of light, the effects of relativity, and quantum mechanics’ take on light interactions, as well as addressing the enigmatic journey of a photon under these universal rules. With Maxell’s electromagnetic wave theory and Einstein’s relativity, our understanding of light deepens, revealing its pivotal role from cosmological events to modern technology. The video concludes with light's extraordinary, almost timeless journey, continuously linking ideas from the early universe to current scientific understandings and philosophical contemplations on existence.

収穫

  • 🌌 The Universe's early light began its journey as the first atoms formed around 400,000 years post-Big Bang.
  • 🔬 Light behaves as both a wave and a particle, a duality explored by scientists over centuries.
  • ⚡ Maxwell unified electricity and magnetism, revealing light as an electromagnetic wave.
  • 🌠 Photons travel vast cosmic distances, unaffected by time due to relativistic principles.
  • 🌀 Quantum mechanics shows particles and waves exist in a dual yet unified form across the cosmos.
  • 🔍 Important breakthroughs by Newton, Maxwell, and Einstein expanded our understanding of light's nature.
  • 💡 The speed of light is pivotal and invariant across the universe, defining a universal constant.
  • 🌟 Light's interaction with matter can energize electrons, as shown in the photoelectric effect.
  • 🛠️ Concepts like Feynman diagrams illustrate the complex interactions of particles in quantum field theory.
  • 🌍 The study of light intertwines with cosmic history, scientific discovery, and technological advancement.

タイムライン

  • 00:00:00 - 00:05:00

    The universe's early moments were filled with overwhelming heat and energy, creating a state of superheated plasma. Around 400,000 years later, this heat decreased enough to allow electrons to bond with protons, forming the first atoms and releasing photons, the first particles of light, allowing light to travel freely in the universe.

  • 00:05:00 - 00:10:00

    Light's journey through the universe began during the cosmic Dark Ages, devoid of stars or galaxies. Over time, stars and galaxies formed, and despite the universe's changing structure, light continued its journey. Finally, after nearly 14 billion years, a photon collided with a human-made telescope, marking the end of its ancient voyage.

  • 00:10:00 - 00:15:00

    While light existed from the universe's inception, it was initially blocked by particles until the universe became transparent. This allowed photons to travel unimpeded. As humans emerged, they explored the nature of light, leading to realizations about its external nature and triggering advancements in optics and the understanding of light's properties.

  • 00:15:00 - 00:20:00

    In the 1600s, Christian Huygens proposed that light is a wave, explaining phenomena such as refraction. This idea contrasted with Isaac Newton's view of light as particles—corpuscles. Huygens highlighted wave patterns through experiments, challenging existing theories and laying groundwork for wave-particle duality in understanding light's nature.

  • 00:20:00 - 00:25:00

    Newton opposed Huygens' wave theory, favoring a particle theory due to light's inability to diffract significantly, unlike sound waves. However, Thomas Young’s double-slit experiment in the 1800s provided strong evidence for the wave theory, showing how light could interfere and produce wave-like patterns, challenging the particle concept.

  • 00:25:00 - 00:30:00

    By Maxwell's time in the 19th century, light was understood as electromagnetic waves, a concept uniting electricity and magnetism. His equations described light as waves of oscillating electric and magnetic fields. This understanding spurred the exploration of radio waves and other wavelengths beyond visible light, transforming communication technologies.

  • 00:30:00 - 00:35:00

    Heinrich Hertz confirmed the existence of radio waves in the late 1800s, leading to wireless communication developments by Marconi. Maxwell's wave theory expanded to make sense of electromagnetic phenomena by showing light as a wave of fields rather than particles, but questions about its particle-like properties remained unsolved till the 20th century.

  • 00:35:00 - 00:40:00

    Einstein revisited the nature of light, proposing in 1905 that light exhibits packet-like properties known as photons, explaining the photoelectric effect where light seems to act as particles when interacting with metal surfaces. This discovery paved new paths for both quantum mechanics and our understanding of light as having dual wave-particle nature.

  • 00:40:00 - 00:45:00

    The early 20th century saw quantum mechanics evolve, complicating our perception of light as either wave or particle. The work of physicists like Louis de Broglie suggested that matter too exhibits wave-particle duality. Quantum field theory later emerged, portraying particles as excitations in fields, fundamentally altering physics' view on matter and light.

  • 00:45:00 - 00:54:58

    Richard Feynman introduced diagrams to represent interactions between particles like electrons and photons, transcending classical fields. His approach highlighted how particles exchange photons in a network of interactions, representing forces more accurately within quantum field theories, but suggesting quantum mechanics' complexity, especially in understanding light.

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よくある質問

  • What happens to photons after they are emitted?

    Photons continue to travel through space potentially forever until they interact with matter, like being absorbed by a detector in a telescope.

  • When did the universe's light become visible?

    Light began streaming freely through the universe as it transitioned from plasma to neutral gas about 400,000 years after the Big Bang.

  • What is the speed of light in a vacuum?

    The speed of light in a vacuum is approximately 300,000 kilometers per second.

  • How does light travel through a vacuum?

    According to Maxwell, light is a self-propagating electromagnetic wave that does not require a medium to travel.

  • What is the wave-particle duality of light?

    Wave-particle duality is the concept that light exhibits properties of both waves and particles, behaving as a wave during travel and as particles during interaction.

  • What is the photoelectric effect?

    The photoelectric effect refers to the emission of electrons from a material when it absorbs light of sufficient frequency.

  • How did Einstein contribute to the understanding of light?

    Einstein contributed through theories like the photoelectric effect and special relativity, explaining light's particle behavior and its constant speed across the universe.

  • What role do photons play in quantum mechanics?

    Photons interact in quantum mechanics as quantized packets of energy, often described through models like Feynman diagrams.

  • Why does a photon not experience the passage of time?

    Due to the principles of relativity, particularly as explained by Einstein, a photon, traveling at light speed, experiences no passage of time from its emission to absorption.

  • What did De Broglie propose about wave-particle duality?

    De Broglie proposed that not only light but all quantum particles exhibit wave-particle duality, being neither pure waves nor particles.

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  • 00:00:01
    the newly born Universe buzzed and
  • 00:00:04
    frothed with Boundless Energy even after
  • 00:00:06
    the Raging furnace of the first few
  • 00:00:08
    minutes had died away temperatures
  • 00:00:10
    Universe wide were more than 100 million
  • 00:00:13
    de for thousands of years this Primal
  • 00:00:17
    heat burned a cosmos of plasma a super
  • 00:00:20
    hot mix of particles and radiation until
  • 00:00:25
    one day it changed
  • 00:00:28
    forever that day arrived when the
  • 00:00:31
    universe was almost 400,000 years old
  • 00:00:34
    and had cooled to about 3,000 Kelvin in
  • 00:00:37
    this now comparatively tepid soup lone
  • 00:00:40
    electrons met lone protons and finally
  • 00:00:43
    could stick together forming the first
  • 00:00:46
    atoms but this was not all for as each
  • 00:00:50
    electron and proton bound together a
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    small amount of energy was released a
  • 00:00:55
    packet of energy that raced away the
  • 00:00:57
    cosmic speed limit the speed of light a
  • 00:01:00
    particle of energy born in the formation
  • 00:01:02
    of a hydrogen atom a particle we call a
  • 00:01:05
    photon a particle of light
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    itself this Photon was far from the
  • 00:01:11
    first but as the universe began
  • 00:01:13
    transitioning from plasma into neutral
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    gas light could then for the first time
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    stream freely through its reaches and so
  • 00:01:22
    our photons long long journey
  • 00:01:27
    began it headed out first into the
  • 00:01:30
    universe's Dark Ages a time before the
  • 00:01:33
    first Stars burned a time before the
  • 00:01:35
    first galaxies formed in the Eerie
  • 00:01:38
    Darkness gravity pulled on mass to mold
  • 00:01:40
    the first seeds of cosmic structure but
  • 00:01:43
    the photon sped on and noticed nothing
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    eventually the first Stars burst into
  • 00:01:49
    life around it massive and Bloated these
  • 00:01:51
    ancient Suns burned themselves out in a
  • 00:01:54
    cosmic blink of an eye as the first
  • 00:01:56
    super giant black holes grew rapidly
  • 00:01:58
    between them as they e devoured Mass but
  • 00:02:02
    the photon sped on and noticed nothing
  • 00:02:07
    the first galaxies began to assemble the
  • 00:02:09
    sky lit up with the fires of uncountable
  • 00:02:12
    young Stars across the cosmos as they
  • 00:02:14
    began to fuse the initial hydrogen and
  • 00:02:16
    helium atoms into heavier
  • 00:02:19
    elements but the photon sped on and
  • 00:02:23
    noticed
  • 00:02:25
    nothing Millions steadily turned into
  • 00:02:28
    billions of years and as galaxies grew
  • 00:02:31
    and matured eventually the intense light
  • 00:02:33
    of young Stars began to settle the
  • 00:02:36
    photon's journey could have potentially
  • 00:02:38
    lasted forever into eternity but after
  • 00:02:41
    almost 14 billion light years of travel
  • 00:02:43
    a large spiral galaxy steadily came into
  • 00:02:46
    view its Destiny was set near a small
  • 00:02:51
    blue dot orbiting a small white star
  • 00:02:54
    after crossing the last few thousand
  • 00:02:57
    light years the photon collided with a
  • 00:03:00
    piece of metal part of a telescope built
  • 00:03:03
    by humans and orbiting near the planet
  • 00:03:06
    Earth the photons energy was completely
  • 00:03:09
    absorbed energizing electrons and
  • 00:03:11
    registering on
  • 00:03:14
    detectors but as the photon vanished
  • 00:03:16
    from existence its billions year-long
  • 00:03:19
    Journey complete it still simply did not
  • 00:03:25
    notice because to the photon itself
  • 00:03:29
    the journey never took place 13.8
  • 00:03:34
    billion years of cosmic time disappeared
  • 00:03:37
    in an
  • 00:03:38
    instant yet how can this be light has
  • 00:03:42
    existed in the universe from its
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    earliest moments and will continue to
  • 00:03:47
    exist long after humanity and the stars
  • 00:03:49
    are shred to dust but just how does it
  • 00:03:53
    work and how can it seemingly last
  • 00:03:56
    forever and perhaps most importantly
  • 00:04:00
    what even is
  • 00:04:12
    it light is fast it only takes 0.13
  • 00:04:16
    seconds for it to circulate the entire
  • 00:04:18
    Globe through fiber optic cables that
  • 00:04:20
    slows down by a third but that still
  • 00:04:22
    means that with surf shark changing your
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    virtual location is almost instantaneous
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    surf shark have been kind enough to
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    best simplest VPN service out there you
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    can change your country quickly and
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    easily to stream whatever you want from
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    wherever you want in the world with more
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    than 100 countries to choose from light
  • 00:04:42
    seems to escape definition as it
  • 00:04:43
    exhibits properties of both a particle
  • 00:04:45
    and a wave and now you too can be
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    similarly inscrutable to Big tech
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    companies and cyber criminals by using
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    surf shark to mask your IP address and
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    encrypting your data on public Wi-Fi
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    it's the best way to secure your
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    personal information when using the
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    internet and even warns you of potential
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    data breaches so check out surf shark by
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    clicking on the link in the description
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    and get 83% off and 3 months for free as
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    well as a 30-day money back guarantee
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    thanks to Surf shark for supporting
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    educational content on
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    [Music]
  • 00:05:20
    YouTube light had played a pivotal role
  • 00:05:23
    since the cosmos's very beginning in
  • 00:05:25
    these earlier times it had only existed
  • 00:05:27
    for the very briefest of moments
  • 00:05:30
    slamming into speeding particles before
  • 00:05:32
    it had a chance to travel anywhere one
  • 00:05:34
    piece of light dying as another was born
  • 00:05:38
    however our parcel of light was born
  • 00:05:40
    into a very different very transparent
  • 00:05:43
    Universe with the cosmic Maelstrom of
  • 00:05:46
    the Big Bang finally abated our Photon
  • 00:05:49
    could begin its immense Journey
  • 00:05:52
    unhindered as it traveled many
  • 00:05:54
    generations of stars led to our sun and
  • 00:05:57
    billions of years after humans began to
  • 00:06:00
    walk on the surface of our small rocky
  • 00:06:03
    planet and So eventually as our Photon
  • 00:06:06
    was a couple of thousand light years
  • 00:06:08
    distant from Earth those humans began to
  • 00:06:15
    wander all men by Nature desire to know
  • 00:06:19
    an indication of this is the Delight we
  • 00:06:20
    take in our senses and above all others
  • 00:06:23
    the sense of sight this most of all the
  • 00:06:26
    senses makes us know and brings to light
  • 00:06:29
    many different between
  • 00:06:33
    things the ancient Greeks wondered if
  • 00:06:35
    light emanated from the eyes touching
  • 00:06:37
    and feeling the world around us but
  • 00:06:39
    clearly there are times when it is dark
  • 00:06:41
    when we can't see anything so they
  • 00:06:44
    concluded light must be something
  • 00:06:46
    external something captured by our eyes
  • 00:06:49
    Islamic scientists went on to unravel
  • 00:06:51
    the properties of light finding rules of
  • 00:06:54
    reflection and the magnification
  • 00:06:55
    properties of glass lenses light was
  • 00:06:58
    clearly a natural part of the universe
  • 00:07:01
    around
  • 00:07:02
    us but it took the coming of the
  • 00:07:04
    Scientific Revolution and a fight
  • 00:07:07
    between two giants of science for
  • 00:07:09
    light's deepest secrets to be finally
  • 00:07:14
    uncovered the year was 1652 and Dutch
  • 00:07:17
    physicist astronomer mathematician and
  • 00:07:19
    allround genius Christian haggens was
  • 00:07:22
    exploring Optical phenomena he had noted
  • 00:07:26
    how light traveled through lenses and
  • 00:07:28
    bounced off mirror surface surfes and
  • 00:07:30
    was particularly interested in the
  • 00:07:31
    phenomenon of refraction where the path
  • 00:07:34
    of light is bent when it passes from one
  • 00:07:36
    medium to another haggens noticed that
  • 00:07:39
    light was often split into the colors of
  • 00:07:41
    the rainbow by his instruments and
  • 00:07:43
    sometimes strange patterns of dark and
  • 00:07:45
    light would be produced clear evidence
  • 00:07:47
    to him that light was some sort of wave
  • 00:07:52
    some sort of traveling oscillating
  • 00:07:54
    phenomenon oscillations can be found
  • 00:07:57
    throughout nature from planetary orbits
  • 00:07:59
    to vibrating electrons but let's start
  • 00:08:02
    with a simple
  • 00:08:03
    picture think of a child on a
  • 00:08:09
    swing as they swing their position
  • 00:08:12
    oscillates from one position to the next
  • 00:08:14
    and then back again just like a pendulum
  • 00:08:16
    that drives the regular ticking and
  • 00:08:17
    talking of a grandfather clock when
  • 00:08:20
    oscillations act in unison but slightly
  • 00:08:22
    out of Step waves are formed a stone
  • 00:08:25
    thrown in a flat Pond pulls the water
  • 00:08:27
    down with it but the water bounces back
  • 00:08:30
    this splash of water pulls on its
  • 00:08:31
    neighbors inducing them to oscillate
  • 00:08:34
    which in turn pulls on their own
  • 00:08:36
    neighbors these oscillations fan out
  • 00:08:38
    across the pond as a steadily Rippling
  • 00:08:41
    pattern of waves waves are everywhere
  • 00:08:45
    from sound waves csing in the air to
  • 00:08:47
    ocean water waves driven by the wind and
  • 00:08:50
    moon seismic shifts can generate violent
  • 00:08:52
    and destructive earthquakes in our
  • 00:08:54
    planetary crust whilst similar waves
  • 00:08:57
    Ripple in the atmosphere of the Sun and
  • 00:08:59
    other
  • 00:09:00
    stars and so light seemed also to be a
  • 00:09:05
    wave but this left an obvious question
  • 00:09:09
    if light is a wave just what was doing
  • 00:09:13
    the
  • 00:09:15
    waving in Britain Robert Hook also
  • 00:09:18
    reached a similar conclusion about the
  • 00:09:20
    nature of light and he realized that
  • 00:09:22
    this picture of wavy light could explain
  • 00:09:24
    a lot of the phenomenon he had seen this
  • 00:09:27
    was cutting edge science at the time but
  • 00:09:29
    hook had a problem and that problem was
  • 00:09:34
    a
  • 00:09:35
    man there are no surviving portraits of
  • 00:09:38
    Robert Hook and over the years a rumor
  • 00:09:40
    passed down the generations that this
  • 00:09:42
    powerful man was to blame having
  • 00:09:44
    conveniently lost the painting when
  • 00:09:46
    taking over his head of the Royal
  • 00:09:48
    Society in London for Robert Hook had a
  • 00:09:51
    powerful enemy and that enemy's name was
  • 00:09:55
    Isaac Newton since cleared of any
  • 00:09:58
    wrongdoing in the absence of
  • 00:10:00
    contemporary images of hook there is
  • 00:10:01
    still little question that the two men
  • 00:10:04
    were not friends for as well as his
  • 00:10:06
    far-reaching discoveries in mathematics
  • 00:10:08
    and gravity Newton also had an interest
  • 00:10:11
    in Optics and the nature of light itself
  • 00:10:15
    and he did not like what hook or haggens
  • 00:10:19
    had to say indeed it was Newton who
  • 00:10:22
    discovered that white light could be
  • 00:10:23
    split into a rainbow by passing it
  • 00:10:25
    through a prism and like hook he had
  • 00:10:27
    kept musing on this but unlike hook
  • 00:10:30
    Newton did not conclude that light was
  • 00:10:32
    some sort of wave to Newton light
  • 00:10:35
    consisted of cor pusles to Newton light
  • 00:10:39
    was made of tiny
  • 00:10:42
    individual
  • 00:10:46
    particles Newton's Focus was the
  • 00:10:48
    phenomenon of defraction the fact that
  • 00:10:50
    waves bend around a sharp edge he knew
  • 00:10:53
    that sound a wave in the air bent as it
  • 00:10:55
    traveled past sharp edges it was clear
  • 00:10:58
    that you could Eaves drop on a ation
  • 00:10:59
    from around a corner without being able
  • 00:11:01
    to see the gossipers you could hear from
  • 00:11:04
    behind an object but you could not see
  • 00:11:08
    so he reasoned light simply could not be
  • 00:11:12
    a wave and he didn't stop there Newton
  • 00:11:16
    went further much much further he
  • 00:11:20
    reasoned that light as a stream of
  • 00:11:22
    particles would even feel the pull of
  • 00:11:25
    gravity in his book Optics published in
  • 00:11:27
    1704 he wrote
  • 00:11:29
    do not bodies act upon light at a
  • 00:11:32
    distance and by their action Bend its
  • 00:11:35
    rays and though on this he was correct
  • 00:11:38
    he was not proved correct for
  • 00:11:40
    centuries so it was Newton's corpuscular
  • 00:11:43
    theory of light that reigned Supreme due
  • 00:11:46
    more to his weight of personality and
  • 00:11:48
    scientific standing as opposed to its
  • 00:11:50
    ability to explain the complex
  • 00:11:52
    observations of light over the years
  • 00:11:55
    however steadily the tide began to turn
  • 00:11:57
    away from Newton
  • 00:11:59
    in 1800 polymath Thomas Young sha light
  • 00:12:02
    through a pair of narrow slits and
  • 00:12:05
    observed a pattern of interference on a
  • 00:12:06
    background screen this wasn't the first
  • 00:12:09
    demonstration of interference but it was
  • 00:12:11
    the clearest how could Newton's picture
  • 00:12:13
    of light as particles explain Young's
  • 00:12:16
    observation of interference how could
  • 00:12:19
    light as Tiny bullets passing through
  • 00:12:21
    either one slit or the other produce The
  • 00:12:23
    observed pattern simply throwing a
  • 00:12:26
    couple of Pebbles into a Still Pond
  • 00:12:27
    reveals that interference is naturally
  • 00:12:29
    produced by waves either in water or in
  • 00:12:34
    light other observations of light
  • 00:12:36
    supported its wav likee nature including
  • 00:12:38
    light's polarization through a material
  • 00:12:40
    called calite but for centuries the big
  • 00:12:44
    secondary question remained
  • 00:12:46
    unanswered if light was a wave just what
  • 00:12:51
    was doing the waving
  • 00:12:59
    [Music]
  • 00:13:01
    our Cosmic parcel of light was born when
  • 00:13:03
    a proton captured an electron It sped
  • 00:13:06
    out into the universe powerful and
  • 00:13:08
    energetic but as it traveled and the
  • 00:13:10
    universe expanded it started to lose
  • 00:13:13
    some of that energy the light originally
  • 00:13:15
    blue to our eyes steadily morphed
  • 00:13:18
    through the colors of the rainbow and
  • 00:13:20
    into the red soon it was joined by other
  • 00:13:23
    energetic light shining from countless
  • 00:13:25
    billions of newly formed stars there
  • 00:13:28
    were different types of light as well
  • 00:13:30
    light of exceptionally high energy and
  • 00:13:33
    light with barely any energy at all the
  • 00:13:36
    universe was a
  • 00:13:38
    wash of course our light did not know
  • 00:13:41
    that these would be invisible to human
  • 00:13:43
    eyes for it would be many billions of
  • 00:13:45
    years until eyes existed and indeed
  • 00:13:48
    these X-rays and radio waves as we call
  • 00:13:51
    them were unknown to us until the very
  • 00:13:54
    end of the 19th century
  • 00:14:00
    in this new era thought itself will be
  • 00:14:04
    transmitted by
  • 00:14:07
    radio gulel Mo Marone was at his
  • 00:14:10
    father's estate near bologna in Italy he
  • 00:14:13
    was still a young man aged only 20 but
  • 00:14:15
    his education had opened his eyes to an
  • 00:14:18
    invisible world in the decades before
  • 00:14:20
    the nature of light had steadily been
  • 00:14:22
    unraveled and Marone was ready to use
  • 00:14:25
    this newfound knowledge to change
  • 00:14:28
    everything staring at his equipment
  • 00:14:30
    Marcone was waiting to see a faint spark
  • 00:14:33
    in the darkness with the bundle of wires
  • 00:14:35
    and coils of his Workshop such a spark
  • 00:14:37
    would not be surprising but the impetus
  • 00:14:40
    for this spark was not in the equipment
  • 00:14:42
    before him it was in similar equipment
  • 00:14:45
    located several miles away of course the
  • 00:14:48
    19th century had seen the arrival of the
  • 00:14:50
    telegraph where electronic pulses were
  • 00:14:52
    sent along wires that crossed entire
  • 00:14:54
    countries and continents but this needed
  • 00:14:57
    wires to be strung through the air air
  • 00:14:59
    and under the oceans Marone had no need
  • 00:15:03
    for such wires he would be sending
  • 00:15:06
    messages not a long bits of copper his
  • 00:15:08
    messages would simply fly completely
  • 00:15:11
    unseen through the
  • 00:15:13
    air but how the answer lies with one of
  • 00:15:18
    science's greatest Geniuses the answer
  • 00:15:21
    lies with James Clark
  • 00:15:26
    Maxwell when a young James Clark Maxwell
  • 00:15:29
    arrived at the University of Cambridge
  • 00:15:30
    in 1850 he was told that attendance at
  • 00:15:33
    the 6 a.m. church service was compulsory
  • 00:15:35
    for all students the Scottish born
  • 00:15:37
    Prodigy had long been a night owl and
  • 00:15:39
    simply responded hi I suppose I could
  • 00:15:42
    stay up that late his name is RIT large
  • 00:15:45
    across the modern world but his crowning
  • 00:15:47
    achievement was uniting two seemingly
  • 00:15:50
    disperate phenomena and creating
  • 00:15:52
    something
  • 00:15:53
    remarkable electricity and magnetism had
  • 00:15:56
    been known about since ancient times
  • 00:15:58
    seen in the strange attraction of rubbed
  • 00:16:00
    materials and mysterious stones that
  • 00:16:02
    knew how to find North but by the 19th
  • 00:16:05
    century it was becoming clear that these
  • 00:16:07
    two were not truly distinct a flow of an
  • 00:16:10
    electric current could generate a
  • 00:16:11
    magnetic field and a changing magnetic
  • 00:16:14
    field could generate a current in a wire
  • 00:16:18
    but as Maxwell stared at these equations
  • 00:16:20
    he began to see a deeper picture instead
  • 00:16:24
    of separate relationships he saw that
  • 00:16:27
    electricity and magnetism M could be
  • 00:16:30
    united into a single whole a United set
  • 00:16:34
    of mathematics that encompassed all
  • 00:16:36
    electric and all magnetic
  • 00:16:40
    phenomena but Maxwell's great Insight
  • 00:16:43
    was not only concerned with
  • 00:16:44
    electromagnetic complexity for he
  • 00:16:47
    wandered about the simplest situation of
  • 00:16:50
    all
  • 00:16:51
    electromagnetism is a nothingness of a
  • 00:16:56
    vacuum how does light travel through the
  • 00:17:00
    emptiness of space Maxwell knew that
  • 00:17:04
    electromagnetic fields filled all of
  • 00:17:06
    space even in vacuums but it was
  • 00:17:08
    imagined that in empty space these
  • 00:17:09
    fields would be null effectively not
  • 00:17:13
    there but what if you plucked one of
  • 00:17:15
    these fields either electric or magnetic
  • 00:17:17
    so that these fields were not at zero at
  • 00:17:19
    some location Maxwell pondered this
  • 00:17:22
    question using his equations to explore
  • 00:17:24
    how the situation would evolve and the
  • 00:17:26
    answer was astounding
  • 00:17:29
    think about pinching the skin on the
  • 00:17:31
    back of your hand what happens when you
  • 00:17:33
    let go of your pinch your skin sinks
  • 00:17:36
    back to its unpinch self quickly if you
  • 00:17:38
    are young and somewhat slower if you are
  • 00:17:40
    older Maxwell's equations told him that
  • 00:17:42
    the electromagnetic pinch would evolve
  • 00:17:45
    away back to zero but that this was not
  • 00:17:48
    the end of the story pinching the
  • 00:17:51
    electric field would generate a similar
  • 00:17:53
    pinch in the magnetic field and the
  • 00:17:55
    pinch in the magnetic field would
  • 00:17:56
    generate a pinch in the electric field
  • 00:17:59
    and these pinches did not simply fade
  • 00:18:01
    back to zero instead they oscillated
  • 00:18:05
    regenerating each other from one moment
  • 00:18:08
    to the next and just like ripples on a
  • 00:18:10
    pond these oscillations traveled away as
  • 00:18:14
    waves and so Maxwell realized these
  • 00:18:17
    oscillations had the property of light
  • 00:18:21
    light he realized is a self-propagating
  • 00:18:26
    electromagnetic wave but what was
  • 00:18:29
    causing the ripples what was the
  • 00:18:31
    electromagnetic equivalent of the stone
  • 00:18:33
    thrown in the pond he saw that it was
  • 00:18:35
    electric charges something we now know
  • 00:18:38
    as electrons as these charges jiggle and
  • 00:18:41
    oscillate they disturb nearby electric
  • 00:18:43
    and magnetic fields and these
  • 00:18:45
    disturbances Ripple away as
  • 00:18:47
    electromagnetic radiation what we call
  • 00:18:51
    light he also realized that the inverse
  • 00:18:53
    must be true as light entered the eye
  • 00:18:55
    and fell on the retina the oscillations
  • 00:18:58
    of the light must cause electrons in
  • 00:19:00
    atoms in the eye to jiggle and it is
  • 00:19:02
    this jiggling of electrons in the eye
  • 00:19:05
    sent us signals to the brain that we
  • 00:19:07
    perceive as
  • 00:19:11
    Vision finally Maxwell understood what
  • 00:19:14
    it was that was waving and what caused
  • 00:19:17
    the waves and one more
  • 00:19:20
    thing he knew that light had waves with
  • 00:19:23
    a length of about a millionth of a meter
  • 00:19:25
    but his equations showed no limitation
  • 00:19:27
    on the wavelength of of his
  • 00:19:29
    electromagnetic waves and so he
  • 00:19:31
    concluded that there must be light with
  • 00:19:34
    both long and short wavelengths that is
  • 00:19:37
    invisible to the eye it would take two
  • 00:19:40
    more decades for the answer to this
  • 00:19:41
    puzzle to present itself decades in
  • 00:19:44
    which Maxwell died of cancer at the age
  • 00:19:46
    of only
  • 00:19:47
    48 in 1886 Heinrich Herz working at the
  • 00:19:50
    University of CaRu was the first to find
  • 00:19:53
    these invisible
  • 00:19:54
    waves named herian waves after their
  • 00:19:57
    discover a new revolution had been born
  • 00:20:00
    we now refer to these herzan waves as
  • 00:20:04
    radio Herz was understandably very
  • 00:20:07
    pleased with his Discovery but when
  • 00:20:08
    asked about the Practical use these
  • 00:20:10
    radio waves have he apparently responded
  • 00:20:14
    nothing I
  • 00:20:16
    guess and yet it was these radio waves
  • 00:20:19
    that only a few years later Marone was
  • 00:20:21
    using to send messages across miles and
  • 00:20:25
    then across counties oceans and all
  • 00:20:28
    across the immensity of the
  • 00:20:31
    [Music]
  • 00:20:34
    globe in 1909 Marone received the Nobel
  • 00:20:38
    Prize for his work on wireless
  • 00:20:40
    telegraphy Herz however died in 1894 at
  • 00:20:43
    the youthful age of 36 never seeing the
  • 00:20:46
    true promise of his
  • 00:20:49
    Discovery the world was set to become
  • 00:20:52
    full of invisible light as the 20th
  • 00:20:54
    century began and the Mystery of light's
  • 00:20:56
    properties seemed settled
  • 00:21:00
    that was until
  • 00:21:02
    1905 and a remarkable year for one
  • 00:21:05
    German patent
  • 00:21:07
    [Music]
  • 00:21:13
    clock the universe continued to change
  • 00:21:16
    and evolve as our particle of light
  • 00:21:18
    traveled the mixture of light joining it
  • 00:21:20
    on its Journey reflected that change
  • 00:21:22
    bursts of radio waves and high energy
  • 00:21:25
    gamma rays becoming more and more
  • 00:21:27
    frequent this energy surged through
  • 00:21:30
    space much of it flowing between the
  • 00:21:33
    stars and into the darkness but some
  • 00:21:36
    encountered lone atoms in The Emptiness
  • 00:21:40
    of the Void the low energy radio waves
  • 00:21:43
    very gently Shook and energized these
  • 00:21:45
    atoms like a calm ocean wave lapping at
  • 00:21:48
    a Sandy Shore just as we would expect
  • 00:21:51
    from Maxwell's picture of
  • 00:21:52
    electromagnetic waves but the behavior
  • 00:21:55
    of the high energy gamma rays was
  • 00:21:58
    different they delivered their energy to
  • 00:22:01
    the atoms with a violent punch that
  • 00:22:03
    ripped electrons clean away not a
  • 00:22:06
    lapping Ripple but an isolated
  • 00:22:09
    smash the gamma rays hit the atoms not
  • 00:22:12
    like waves but like hard little
  • 00:22:16
    energetic
  • 00:22:18
    particles but how could Maxwell be wrong
  • 00:22:23
    could on some occasions light be more
  • 00:22:25
    like Newton's vision and act like a
  • 00:22:27
    particle
  • 00:22:29
    and if so just what would those
  • 00:22:33
    occasions
  • 00:22:34
    [Music]
  • 00:22:39
    be for the present we have to work on
  • 00:22:41
    both theories on Mondays Wednesdays and
  • 00:22:43
    Fridays we use the wave theory on
  • 00:22:46
    Tuesdays Thursdays and Saturdays we
  • 00:22:48
    think in streams of flying energy Quant
  • 00:22:51
    or cor
  • 00:22:53
    [Music]
  • 00:22:56
    pusles Alfred Nobel had made his Fortune
  • 00:22:58
    through his inventions and his
  • 00:23:00
    businesses especially in the field of
  • 00:23:02
    explosives and weapons and so perhaps
  • 00:23:05
    not unfairly in an 1888 obituary in a
  • 00:23:08
    French newspaper he was called The
  • 00:23:11
    Merchant of death this surprised to no
  • 00:23:15
    Bell firstly as he was still very much
  • 00:23:17
    alive but secondly and more
  • 00:23:19
    distressingly because he realized what
  • 00:23:22
    his historical Legacy was to be so in
  • 00:23:26
    his will he decided to leave most of his
  • 00:23:28
    fortune to a series of prizes prizes
  • 00:23:31
    that would honor those that have
  • 00:23:32
    conferred the greatest benefit to
  • 00:23:34
    humankind across science the Nobel
  • 00:23:37
    prizes are perhaps the most prestigious
  • 00:23:39
    the list of winners repak with the
  • 00:23:41
    Giants of science over more than a
  • 00:23:43
    century and in 1901 the inaugural Nobel
  • 00:23:47
    Prize in physics was awarded to the
  • 00:23:49
    German vilhelm runan for his discoveries
  • 00:23:53
    about the nature of light for it was he
  • 00:23:57
    who discovered
  • 00:23:59
    the
  • 00:24:01
    X-ray ronon's experiments with various
  • 00:24:04
    materials found that only the denist
  • 00:24:06
    could halt x-rays he even managed to
  • 00:24:09
    convince his wife Bera to place her hand
  • 00:24:12
    in the beam after realizing his x-rays
  • 00:24:14
    should stream through her flesh but be
  • 00:24:17
    partly blocked by her denser bones thus
  • 00:24:20
    producing the first x-ray photograph
  • 00:24:23
    whilst it was suspected that X-rays were
  • 00:24:25
    electromagnetic radiation with a
  • 00:24:27
    wavelength much smaller than visible
  • 00:24:29
    light as opposed to radar which was much
  • 00:24:31
    longer it took several decades to
  • 00:24:34
    conclusively show that this was the case
  • 00:24:36
    although in the meantime the medical
  • 00:24:38
    application of x-rays to fix bones and
  • 00:24:40
    save lives grew without bounds and so
  • 00:24:43
    this meant that by the early 1900s
  • 00:24:45
    Maxwell's vision of electromagnetic
  • 00:24:47
    waves beyond the visible had been
  • 00:24:49
    undoubtedly confirmed all of light
  • 00:24:52
    Secrets uncovered even the electron
  • 00:24:54
    having been discovered all that remained
  • 00:24:57
    was to find the rest of the light we
  • 00:24:58
    could not see gamma rays microwaves and
  • 00:25:01
    more to fill out the last gaps on the
  • 00:25:03
    electromagnetic spectrum and wrap up the
  • 00:25:10
    story but of course if physics feels
  • 00:25:13
    that the job is done a rude shock is
  • 00:25:16
    usually just around the
  • 00:25:18
    corner in Maxwell's picture of light it
  • 00:25:21
    could be thought of as a continuous wave
  • 00:25:23
    scientists had found that when light
  • 00:25:25
    crashed into most materials it
  • 00:25:27
    continuously the dumped energy that
  • 00:25:29
    energized electrons causing them to be
  • 00:25:32
    emitted this was called the
  • 00:25:33
    photoelectric effect by lowering the
  • 00:25:36
    intensity of light it took longer for
  • 00:25:38
    energy to be deposited and it usually
  • 00:25:40
    took longer for the electrons to begin
  • 00:25:42
    to be spat out usually for that was not
  • 00:25:46
    what was observed when light was shown
  • 00:25:48
    on certain Metals electrons would
  • 00:25:50
    seemingly be ejected instantaneously
  • 00:25:52
    from the metal surface and the really
  • 00:25:55
    confusing observation came from
  • 00:25:56
    adjusting the color of the light being
  • 00:25:59
    Shone blue light would result in very
  • 00:26:01
    energetic electrons being emitted green
  • 00:26:04
    light resulted in less energetic
  • 00:26:06
    electrons and red light produced no
  • 00:26:09
    electrons at all this made no sense if
  • 00:26:14
    all colors of light carry energy why did
  • 00:26:17
    Red Light fail to energize the
  • 00:26:23
    electrons this mystery was solved and
  • 00:26:25
    new Mysteries were born in a very
  • 00:26:28
    special year this was no ordinary year
  • 00:26:32
    it was a miraculous year for it was the
  • 00:26:35
    year that Albert Einstein changed
  • 00:26:39
    physics
  • 00:26:41
    forever most people are familiar with
  • 00:26:43
    Einstein's Anis marabis 1905 the year he
  • 00:26:47
    wrote down the special theory of
  • 00:26:49
    relativity but that was just the
  • 00:26:51
    beginning Einstein was awarded the Nobel
  • 00:26:54
    Prize in physics in
  • 00:26:56
    1921 the citation noted the the award
  • 00:26:58
    was for his services to theoretical
  • 00:27:00
    physics yet one Topic in particular was
  • 00:27:03
    singled out for recognition and it was
  • 00:27:06
    not his work on relativity it was
  • 00:27:11
    especially for his discovery of the law
  • 00:27:14
    of the photoelectric effect when
  • 00:27:17
    Einstein explored the photoelectric
  • 00:27:19
    effect he had to radically revise
  • 00:27:21
    Maxwell's vision of light he realized
  • 00:27:24
    that when light interacted with
  • 00:27:25
    electrons it could not do so as a
  • 00:27:28
    continuous wave of energy instead the
  • 00:27:31
    energy must be concentrated and dumped
  • 00:27:34
    into an electron as an instantaneous
  • 00:27:36
    packet light Einstein declared must be
  • 00:27:41
    quantized it must be chunks of energy it
  • 00:27:44
    must
  • 00:27:46
    interact like a particle Einstein went
  • 00:27:49
    on to explain that each packet of energy
  • 00:27:51
    was proportional to the frequency of the
  • 00:27:53
    light a packet of red light carries less
  • 00:27:55
    energy than a packet of green light a
  • 00:27:57
    packet of green light carries less
  • 00:27:59
    energy than a packet of blue and so in
  • 00:28:01
    experiments the red light simply didn't
  • 00:28:04
    deliver enough energy for an electron to
  • 00:28:09
    [Music]
  • 00:28:11
    escape this enigmatic packet of energy
  • 00:28:13
    didn't get its current name until 1926
  • 00:28:16
    when in an article in the journal Nature
  • 00:28:19
    Gilbert Lewis coined the name Photon
  • 00:28:22
    evidence for the particle nature of
  • 00:28:24
    light swiftly grew and it was in 1923
  • 00:28:27
    Arthur Compton put together an important
  • 00:28:30
    experiment but one that relied on a
  • 00:28:32
    bizarre fact light can
  • 00:28:39
    push this might seem like a strange
  • 00:28:41
    thing to say how can light which has no
  • 00:28:44
    Mass push but Maxwell's equations showed
  • 00:28:47
    that in carrying energy light also
  • 00:28:50
    carries momentum you can easily buy a
  • 00:28:52
    Crooks radiometer today is an executive
  • 00:28:54
    toy for your desk consisting of four
  • 00:28:57
    veins and an evacuated glass tube one
  • 00:29:00
    side black and the other side white when
  • 00:29:02
    placed in bright sunlight the veins
  • 00:29:04
    begin to spin pushed supposedly by the
  • 00:29:08
    momentum of nothing more than sunlight
  • 00:29:11
    as however the physics of the crooks
  • 00:29:13
    radiometer is more complex than this
  • 00:29:15
    simple explanation but the force of
  • 00:29:17
    sunlight pushing on the veins is real
  • 00:29:19
    with some Visionaries imagining future
  • 00:29:22
    Humanity coursing amongst the planets
  • 00:29:25
    solar sailing on sunlight
  • 00:29:28
    in 1923 Arthur Compton's experiment
  • 00:29:31
    however was a little different in his
  • 00:29:34
    experiment Compton aimed a beam of high
  • 00:29:36
    energy X-rays at an atomic Target thus
  • 00:29:39
    ripping electrons from the outer part of
  • 00:29:41
    the atoms but when examining the
  • 00:29:43
    rebounding X-rays and recoiling
  • 00:29:45
    electrons Compton found that Maxwell's
  • 00:29:48
    picture of a wave of energy and momentum
  • 00:29:50
    simply did not work instead Compton had
  • 00:29:54
    to treat the x-rays and electrons like
  • 00:29:56
    colliding billiard balls for when an
  • 00:29:58
    x-ray hit an electron it delivered its
  • 00:30:01
    energy and its momentum as a discrete
  • 00:30:03
    packet when an x-ray hit an electron
  • 00:30:07
    they definitively interacted like hard
  • 00:30:13
    particles Newton's vision of particles
  • 00:30:16
    of light was reborn but was this
  • 00:30:20
    definitive proof that light was a
  • 00:30:22
    particle not quite there was of course
  • 00:30:25
    still a mountain of evidence for its wav
  • 00:30:27
    like nature if anything scientists were
  • 00:30:30
    more confused than ever before despite
  • 00:30:33
    Maxwell's picture of electromagnetic
  • 00:30:35
    waves proving extremely powerful and
  • 00:30:37
    successful these experiments in the
  • 00:30:39
    early 1900s demanded that light must be
  • 00:30:43
    a
  • 00:30:43
    particle and so people began to wonder
  • 00:30:47
    was there even an answer to be
  • 00:30:55
    found we began this story following a
  • 00:30:58
    photon of light as it traveled across
  • 00:31:00
    the universe Maxwell tells us that this
  • 00:31:03
    Photon was formed by the changing energy
  • 00:31:05
    of an electron and that it vanishes when
  • 00:31:07
    finally absorbed by electrons at its
  • 00:31:09
    Journey's End but what happens in
  • 00:31:13
    between is this Epic Journey simply
  • 00:31:16
    governed by Fate does the photon really
  • 00:31:19
    fly off in a random Direction coring
  • 00:31:21
    into an electron at some arbitrary point
  • 00:31:23
    in its future this question is the next
  • 00:31:26
    part of our story for in the early 20th
  • 00:31:29
    century it was realized that this simply
  • 00:31:33
    could not be the case in the language of
  • 00:31:36
    quantum mechanics the photon's journey
  • 00:31:39
    has nothing to do with
  • 00:31:45
    chance not only is the universe Stranger
  • 00:31:48
    than we think it is stranger than we can
  • 00:31:53
    think we begin on a chilly morning in
  • 00:31:55
    France in January 17
  • 00:31:59
    1993 with the swish of a guillotine
  • 00:32:01
    Blade the King Louis the 16th was no
  • 00:32:04
    more throughout this upheaval chaos
  • 00:32:06
    reigned across France Victor franois the
  • 00:32:09
    second Duke de Bry battled for his King
  • 00:32:12
    but eventually like many others of the
  • 00:32:13
    aristocracy he fled France for safety
  • 00:32:16
    abroad the dees eventually returned to
  • 00:32:19
    their native France to shape the country
  • 00:32:21
    after the upheaval of Revolution and
  • 00:32:23
    after a series of Statesmen diplomats
  • 00:32:25
    and writers in 1892 who into the de Bry
  • 00:32:29
    family was born the man who would change
  • 00:32:32
    our understanding of everything his name
  • 00:32:36
    was Louie Victor Pierre Ron 7eventh Duke
  • 00:32:39
    de BR but in the annals of physics
  • 00:32:42
    history he is simply known as de
  • 00:32:47
    BR in the early 20th century he bore
  • 00:32:50
    witness to the birth of quantum
  • 00:32:51
    mechanics and the growing confusion
  • 00:32:53
    about whether light was a particle or a
  • 00:32:56
    wave to De Bry however there was one
  • 00:32:59
    obvious solution though a
  • 00:33:01
    counterintuitive one light was neither
  • 00:33:04
    and both at the same time it was clear
  • 00:33:08
    that light when it traveled traveled as
  • 00:33:10
    a wave producing the effects of
  • 00:33:12
    interference and defraction but when it
  • 00:33:14
    interacted it interacted like a particle
  • 00:33:18
    it seemed to exhibit properties of being
  • 00:33:20
    both a particle and a wave but was never
  • 00:33:22
    really either de br's remarkable Insight
  • 00:33:26
    was to realize that this was true not
  • 00:33:29
    only for light but for the entire
  • 00:33:32
    Quantum World here he claimed there were
  • 00:33:35
    no true particles and no true waves
  • 00:33:39
    everything de BR told us was some sort
  • 00:33:43
    of
  • 00:33:44
    quantum
  • 00:33:47
    thing and so in his PhD in 1924 he
  • 00:33:51
    claimed that electrons which were
  • 00:33:53
    clearly particles should also exhibit
  • 00:33:56
    wavelike properties and in 1929 he
  • 00:33:59
    received the Nobel Prize when
  • 00:34:01
    experiments bore out his predictions
  • 00:34:04
    there has been significant philosophical
  • 00:34:06
    discussion about this wave particle
  • 00:34:08
    duality in quantum mechanics but its
  • 00:34:11
    observational consequences are
  • 00:34:13
    incontrovertible a series of single
  • 00:34:15
    photons or electrons sent through
  • 00:34:17
    multiple slits still result in
  • 00:34:19
    interference patterns and even large
  • 00:34:22
    complex molecules have also been shown
  • 00:34:24
    to have properties of both waves and
  • 00:34:26
    particles the largest yet tested being
  • 00:34:29
    2,000 atoms in size and so with quantum
  • 00:34:34
    mechanics in hand the quest was on to
  • 00:34:37
    understand just how light and electrons
  • 00:34:42
    interacted with classical physics the
  • 00:34:45
    physics of Maxwell electrons jiggled as
  • 00:34:47
    electromagnetic waves passed by just
  • 00:34:50
    like seagulls bobbing on a choppy ocean
  • 00:34:52
    and by their jiggling the electrons
  • 00:34:54
    emitted their own electromagnetic waves
  • 00:34:56
    adding to the mix but the quantum
  • 00:34:59
    picture had to be different for the
  • 00:35:01
    quantum world was one of Quant and
  • 00:35:05
    particle
  • 00:35:06
    reactions despite these opposing
  • 00:35:08
    situations it didn't take long for a
  • 00:35:10
    solution to be found and it was another
  • 00:35:13
    scientific Titan Paul Adrian Maurice
  • 00:35:15
    durak that began to crack the code in
  • 00:35:19
    the late 1920s he was working to unite
  • 00:35:22
    two of the greatest breakthroughs in
  • 00:35:23
    modern physics The Strange World of
  • 00:35:26
    quantum mechanics and Einstein's special
  • 00:35:29
    theory of relativity D's story has been
  • 00:35:32
    told many times about his famous
  • 00:35:34
    absent-mindedness and lack of
  • 00:35:36
    communication skills Quantum Pioneer
  • 00:35:38
    Neil bore went as far as to call him the
  • 00:35:41
    strangest man but there was absolutely
  • 00:35:44
    no doubt that durak was a revolutionary
  • 00:35:46
    genius and it was through his work on
  • 00:35:49
    quantum mechanics that dur made his mark
  • 00:35:52
    on scientific history
  • 00:35:58
    to understand the modern view he helped
  • 00:36:00
    to bring about we have to accept that
  • 00:36:03
    everything is
  • 00:36:05
    actually
  • 00:36:07
    Fields these fields are different to
  • 00:36:10
    things like classical electric and
  • 00:36:12
    magnetic fields in Quantum field Theory
  • 00:36:15
    there are electron Fields Photon Fields
  • 00:36:18
    fields for the various quarks and more
  • 00:36:20
    Ripple for example in the electron field
  • 00:36:23
    is an electron and a ripple in the
  • 00:36:25
    photon field a photon
  • 00:36:28
    think of an atom what do you see in our
  • 00:36:31
    minds we often have the picture given to
  • 00:36:33
    us by Neil's bore of electrons orbiting
  • 00:36:36
    a nucleus like a planet orbiting a star
  • 00:36:39
    and when an electron jumps from a higher
  • 00:36:41
    orbit to a lower orbit a photon of light
  • 00:36:43
    is emitted but when considering the
  • 00:36:45
    quantum world this is not quite correct
  • 00:36:49
    in Quantum field Theory we think of an
  • 00:36:51
    orbiting electron as a vibrational
  • 00:36:54
    pattern in the electron field the higher
  • 00:36:56
    energy orbited is one particular pattern
  • 00:36:59
    and the lower energy orbit is another in
  • 00:37:02
    the language of physics the electron
  • 00:37:04
    field and the photon field are coupled
  • 00:37:08
    together and jumping between the higher
  • 00:37:10
    and lower orbits the electron field
  • 00:37:12
    generates a vibration in the photon
  • 00:37:18
    field Quantum field theory has grown to
  • 00:37:21
    become arguably the most successful
  • 00:37:23
    theory of our world to date describing
  • 00:37:26
    almost everything in our un Universe
  • 00:37:27
    across 24 Quantum Fields corresponding
  • 00:37:31
    to the various possible interactions of
  • 00:37:33
    the standard model and so simple
  • 00:37:37
    everything is fields and the fields
  • 00:37:40
    interact but of course as they often do
  • 00:37:43
    in the quantum World things are about to
  • 00:37:46
    get a lot
  • 00:37:48
    stranger many of the greatest minds of
  • 00:37:51
    quantum mechanics were involved in this
  • 00:37:53
    move towards strangeness but perhaps the
  • 00:37:56
    most well-known is a man from Far
  • 00:37:58
    Rockway with a broad Brooklyn accent a
  • 00:38:02
    man named Richard feineman
  • 00:38:06
    born in 1918 he started his career as
  • 00:38:10
    part of the Manhattan Project and was
  • 00:38:12
    recommended by Oppenheimer himself for
  • 00:38:15
    Berkeley in a now famous letter sent in
  • 00:38:18
    1942 he is by All Odds the most
  • 00:38:21
    brilliant young physicist here and
  • 00:38:23
    everyone knows this I may give you two
  • 00:38:25
    quotations from men with whom he has
  • 00:38:27
    worked beta has said that he would
  • 00:38:29
    rather lose any two other men than
  • 00:38:31
    Fineman from this present job and vigner
  • 00:38:34
    said he is a second duraq only this time
  • 00:38:38
    human though his 1985 autobiography
  • 00:38:41
    surely you're joking Mr finan was an eye
  • 00:38:44
    opener for many not only regarding his
  • 00:38:46
    numerous contributions to science but
  • 00:38:48
    also his extroverted personality and
  • 00:38:51
    complex private life including a ponchon
  • 00:38:53
    for strip clubs these aspects did not
  • 00:38:56
    fit the stereo typical vision of a
  • 00:38:58
    professor indeed Mari galman another
  • 00:39:01
    giant of quantum mechanics once even
  • 00:39:04
    equipped of Fineman fean was a great
  • 00:39:06
    scientist but he spent a great deal of
  • 00:39:08
    his effort generating anecdotes about
  • 00:39:11
    himself and yet when it came to thinking
  • 00:39:14
    about the quantum world for many
  • 00:39:16
    physicists Fineman changed
  • 00:39:19
    [Music]
  • 00:39:21
    everything whilst Fan's famous quip that
  • 00:39:24
    no one truly understands quantum
  • 00:39:25
    mechanics may have been true Fineman
  • 00:39:27
    himself certainly understood the depth
  • 00:39:30
    of the mathematics that underlies it and
  • 00:39:33
    this gave him the insights to think
  • 00:39:35
    about the true nature of light and how
  • 00:39:38
    it
  • 00:39:39
    interacts it all starts with a solitary
  • 00:39:42
    electron in the electromagnetics of
  • 00:39:44
    Maxwell the charge of the electron
  • 00:39:46
    results in an electric field surrounding
  • 00:39:49
    it and a charge in an electric field
  • 00:39:51
    feels the presence of the electric field
  • 00:39:55
    in this situation there must be energy
  • 00:39:57
    in the interaction but the question was
  • 00:40:00
    how much the problem was every time
  • 00:40:02
    Fineman tried to calculate the amount of
  • 00:40:04
    energy the answer came out to be the
  • 00:40:06
    same Infinity so Fineman did something
  • 00:40:11
    quite radical he threw away the
  • 00:40:13
    classical notion of the electric field
  • 00:40:16
    as defined by Maxwell in the acceptance
  • 00:40:19
    speech for the award of his Nobel Prize
  • 00:40:21
    in 1965 Fineman said I suggested to
  • 00:40:25
    myself that electrons canot not act on
  • 00:40:28
    themselves they can only act on other
  • 00:40:32
    electrons and a new bizar picture of the
  • 00:40:36
    interaction of light and electrons
  • 00:40:41
    emerged the best visual representation
  • 00:40:43
    of this interaction is the diagram named
  • 00:40:46
    after feineman
  • 00:40:47
    himself the feineman
  • 00:40:50
    diagram they are often a complicated
  • 00:40:52
    mixture of lines Wiggles and Loops but
  • 00:40:55
    at their heart find diagrams describe
  • 00:40:58
    all of the possible interactions in
  • 00:41:01
    quantum mechanics to pick apart a
  • 00:41:03
    Fineman diagram it is best to start with
  • 00:41:05
    the simplest of interactions the
  • 00:41:08
    interaction between electrons and light
  • 00:41:12
    findan diagrams represent an interaction
  • 00:41:14
    over space and time lone electrons Trace
  • 00:41:17
    out straight line paths through
  • 00:41:19
    SpaceTime a path known as its World line
  • 00:41:23
    the electron is really just a vibration
  • 00:41:25
    in the quantum electron fi field and
  • 00:41:28
    with no interactions it happily traces a
  • 00:41:30
    simple straight line path we also know
  • 00:41:33
    however that the electron field can
  • 00:41:36
    couple with the photon field and when
  • 00:41:38
    this happens the vibrations in the
  • 00:41:40
    electron field change in an atom the
  • 00:41:43
    electron jumps from a high energy orbit
  • 00:41:45
    to a low energy orbit but for a free
  • 00:41:48
    electron conservation of momentum means
  • 00:41:51
    that the electron changes direction if
  • 00:41:54
    we imagine this over SpaceTime the world
  • 00:41:57
    line line of the electron possesses a
  • 00:41:58
    distinct Kink and this occurs where and
  • 00:42:01
    when the photon usually depicted as a
  • 00:42:03
    wavy line is emitted this structure this
  • 00:42:07
    Junction is known as a vertex and it is
  • 00:42:10
    the basic Lego piece for building all
  • 00:42:13
    Fineman diagrams of course full Fineman
  • 00:42:16
    diagrams are more complex than a single
  • 00:42:18
    vertex they usually combine several
  • 00:42:20
    distinct pieces the emitted Photon from
  • 00:42:23
    one electron is eventually received by
  • 00:42:25
    another electron two vert C are joined
  • 00:42:27
    together to give the complete
  • 00:42:29
    interaction two kinked electron paths
  • 00:42:31
    joined with the wiggly line representing
  • 00:42:34
    the photon but what governs the coupling
  • 00:42:37
    between the electron field and the
  • 00:42:39
    photon field this is related to the
  • 00:42:41
    charge on the electron and one of
  • 00:42:43
    Nature's constants the fine structure
  • 00:42:46
    constant this is electromagnetism and
  • 00:42:49
    the exchange of the photon between two
  • 00:42:51
    electrons is the electromagnetic force
  • 00:42:54
    in
  • 00:42:55
    action and so in fineman's view we wave
  • 00:42:59
    goodbye to the electromagnetic field in
  • 00:43:03
    its place we simply have two electrons
  • 00:43:05
    interacting through the exchange of a
  • 00:43:08
    photon and when huge numbers of these
  • 00:43:10
    photons are exchanged it approximates
  • 00:43:12
    the classical Force even though at its
  • 00:43:15
    heart this electromagnetic force is a
  • 00:43:18
    Quantum
  • 00:43:22
    phenomenon and it's not just
  • 00:43:24
    electromagnetism for it is also true for
  • 00:43:27
    the fundamental weak and strong nuclear
  • 00:43:30
    forces for the strong force it is gluons
  • 00:43:33
    instead of photons that are exchanged
  • 00:43:35
    between quarks and for the weak force it
  • 00:43:38
    is via the exchange of massive particles
  • 00:43:40
    known as the w and z and again all of
  • 00:43:44
    these forces can be presented by a
  • 00:43:46
    combination of Fineman
  • 00:43:49
    vertices but this was not the end
  • 00:43:52
    Fineman had one even stranger card yet
  • 00:43:55
    to play when it came to light he had
  • 00:44:00
    said that one electron acts upon another
  • 00:44:03
    and this happens through the exchange of
  • 00:44:04
    a photon producing the complete Fineman
  • 00:44:07
    diagram of the interaction but did this
  • 00:44:09
    mean that an electron fired out a photon
  • 00:44:12
    at random did this Photon stream out
  • 00:44:14
    into the universe with only a remote
  • 00:44:16
    chance of being absorbed by another
  • 00:44:18
    electron counterintuitively the answer
  • 00:44:21
    fan said was no he told us that the
  • 00:44:25
    photon is only past between two
  • 00:44:27
    electrons that have agreed on the
  • 00:44:31
    exchange but there is something odd
  • 00:44:33
    happening here if we are in the middle
  • 00:44:35
    of the photon's journey its emission
  • 00:44:37
    from one electron occurred in the past
  • 00:44:39
    while the absorption of the photon by
  • 00:44:41
    the other electron is going to occur in
  • 00:44:43
    the future so when did the electrons
  • 00:44:45
    communicate and agree to exchange the
  • 00:44:48
    photon how did they even know of each
  • 00:44:50
    other's presence it clearly cannot be
  • 00:44:52
    via the electromagnetic force as this is
  • 00:44:55
    precisely what the exchange of the
  • 00:44:56
    photon actually is so what is the
  • 00:45:01
    solution as with a lot of quantum
  • 00:45:04
    mechanics was the mathematics just works
  • 00:45:07
    the interpretation the question of what
  • 00:45:09
    is really happening is the biggest
  • 00:45:11
    challenge and so Fineman with his
  • 00:45:14
    supervisor John Wheeler put a
  • 00:45:16
    mindbending possibility on the
  • 00:45:19
    [Music]
  • 00:45:21
    table the suggestion is something we now
  • 00:45:24
    call the transactional interpretation
  • 00:45:27
    they said that the two electrons
  • 00:45:29
    handshake their acceptance of exchanging
  • 00:45:31
    the photon but that this handshake is
  • 00:45:35
    taken through time one electron messages
  • 00:45:39
    from the past and the other from the
  • 00:45:42
    future this might sound ridiculous but
  • 00:45:45
    it completely fits with the mathematics
  • 00:45:48
    of quantum mechanics and so on a dark
  • 00:45:52
    night when you gaze at a distant star an
  • 00:45:54
    electron in your eye and an electron in
  • 00:45:57
    the atmosphere of that star spoke to
  • 00:46:00
    each other through time and agreed to
  • 00:46:02
    exchange the photon you see and going
  • 00:46:06
    even further for the lonely Photon we
  • 00:46:09
    met at the beginning of our story two
  • 00:46:11
    distant electrons shook hands over
  • 00:46:13
    billions of years of time billions of
  • 00:46:16
    light years of space and agreed that the
  • 00:46:19
    photon should undertake its Cosmic
  • 00:46:22
    Journey the bizarre world of quantum
  • 00:46:25
    mechanics never never
  • 00:46:28
    disappoints and yet there is one final
  • 00:46:33
    even stranger mystery to unfold about
  • 00:46:35
    light and our lonely Photon in the
  • 00:46:37
    Blackness of space as it travels over
  • 00:46:41
    many billions of light years just what
  • 00:46:45
    does the
  • 00:46:46
    photon
  • 00:46:54
    experience we've followed our Photon
  • 00:46:56
    over many billions of years eventually
  • 00:46:59
    at Journey's End the universe it
  • 00:47:01
    inhabits is very different to the one of
  • 00:47:03
    its birth yet there is a disconnect for
  • 00:47:07
    whilst this Photon was almost as old as
  • 00:47:09
    the universe itself it remained
  • 00:47:13
    eternally
  • 00:47:17
    youthful galaxies formed in the void
  • 00:47:20
    stars were born lived and died whole
  • 00:47:22
    superclusters splintered and collapsed
  • 00:47:26
    and the photon
  • 00:47:27
    missed it all because to the photon time
  • 00:47:32
    itself meant
  • 00:47:34
    nothing this might seem like a strange
  • 00:47:36
    thing to say the photon clearly had an
  • 00:47:38
    existence in time but with the coming of
  • 00:47:41
    Einstein and his special theory of
  • 00:47:42
    relativity it was realized that time was
  • 00:47:45
    actually flexible it was relative
  • 00:47:49
    dependent upon who or what was actually
  • 00:47:51
    measuring it and light light takes this
  • 00:47:55
    idea to the
  • 00:48:01
    extreme what would the universe look
  • 00:48:03
    like if I were riding on the end of a
  • 00:48:05
    light beam at the speed of
  • 00:48:08
    light in the middle of the 17th century
  • 00:48:11
    only Roma was baffled working at the
  • 00:48:15
    Paris Observatory Roma was peering at IO
  • 00:48:18
    one of the bright moons of Jupiter like
  • 00:48:20
    clockwork the moon orbited the giant
  • 00:48:22
    planet in just over 42 hours Vanishing
  • 00:48:25
    from view as it ducked in and out of
  • 00:48:27
    Jupiter's Shadow except there seemed to
  • 00:48:29
    be something odd about this Cosmic clock
  • 00:48:32
    Roma noticed that the timing of io's
  • 00:48:35
    eclipses drifted he realized that the
  • 00:48:38
    timing of the eclipse of IO was somehow
  • 00:48:41
    tied to the Earth's orbit changing from
  • 00:48:43
    earlier to later and back again when the
  • 00:48:46
    Earth was either closest to or further
  • 00:48:48
    from Jupiter and it was then Roma
  • 00:48:50
    realized the culprit was light and in
  • 00:48:54
    particular its speed he reasoned that
  • 00:48:57
    the drift in io's eclipses must be due
  • 00:48:59
    to a finite speed of light as the Earth
  • 00:49:02
    moved in its orbit the distance to
  • 00:49:04
    Jupiter changed and the change in time
  • 00:49:07
    was because light had to Traverse these
  • 00:49:09
    differing distances his initial estimate
  • 00:49:11
    for the speed was fast very fast
  • 00:49:16
    220,000 km every second and eventually
  • 00:49:20
    more accurate measurements tied the
  • 00:49:22
    speed of light to almost 300,000
  • 00:49:25
    km/s but just what was this speed
  • 00:49:29
    relative
  • 00:49:31
    to it had been the belief for centuries
  • 00:49:34
    that there existed a medium The Ether
  • 00:49:36
    that carried light waves surely
  • 00:49:38
    therefore light speed was relative to
  • 00:49:41
    this medium from Plato to Newton this
  • 00:49:44
    ether had long been suggested as a
  • 00:49:45
    solution to various questions in physics
  • 00:49:48
    but never firmly detected experiments in
  • 00:49:51
    search of evidence having failed time
  • 00:49:53
    and time again and so it was that in 19
  • 00:49:57
    5 during his miracle year Einstein rang
  • 00:50:00
    the final death nail for this invisible
  • 00:50:02
    medium special relativity the truth was
  • 00:50:07
    that it was the speed of light that was
  • 00:50:09
    the universal absolute and invariant
  • 00:50:12
    measured to be the same value for all
  • 00:50:15
    observers across the cosmos A lot has
  • 00:50:18
    been written about special relativity
  • 00:50:20
    and although much of it seems confused
  • 00:50:21
    and paradoxical there is a simple
  • 00:50:24
    Central message at its heart
  • 00:50:27
    particles with mass such as electrons
  • 00:50:30
    chart out their own time as they travel
  • 00:50:34
    through space
  • 00:50:36
    Time Imagine two clocks sitting at the
  • 00:50:39
    same location synced to show exactly the
  • 00:50:42
    same
  • 00:50:44
    time now take these clocks on two
  • 00:50:46
    separate Journeys speeding them up and
  • 00:50:48
    slowing them down in neon's view of the
  • 00:50:51
    universe of absolute time if you were to
  • 00:50:53
    bring these clocks together again and
  • 00:50:55
    compare their faces they would have
  • 00:50:57
    remained synchronized but this is not
  • 00:51:00
    the case in Einstein's the relative
  • 00:51:03
    motion of the two clocks would have
  • 00:51:05
    influenced their relative passage of
  • 00:51:07
    time and as they trace out their
  • 00:51:09
    different paths through SpaceTime when
  • 00:51:11
    they reunite their times will now be out
  • 00:51:15
    of
  • 00:51:17
    sync this mind-bending aspect of
  • 00:51:20
    Relativity seems too strange to be true
  • 00:51:22
    but numerous experiments have shown this
  • 00:51:24
    to be the way the universe works for
  • 00:51:26
    Globe trotting atomic clocks to
  • 00:51:28
    high-speed particles and accelerators
  • 00:51:31
    time is definitively
  • 00:51:34
    relative but what does this mean for
  • 00:51:38
    light light had taken a central place in
  • 00:51:41
    Einstein's New Vision of the cosmos
  • 00:51:43
    everyone in SpaceTime should measure the
  • 00:51:45
    speed of light to be precisely the same
  • 00:51:48
    value but in demanding this something
  • 00:51:51
    else had to give and so space and time
  • 00:51:56
    themselves VES had to bend become
  • 00:51:58
    flexible and rubbery to accommodate the
  • 00:52:00
    consistency of the speed of light indeed
  • 00:52:03
    one immediate consequence of Einstein's
  • 00:52:06
    insights was that light would feel the
  • 00:52:08
    existence of gravity and as it traveled
  • 00:52:10
    through the universe light's path would
  • 00:52:12
    be deflected by the presence of mass
  • 00:52:15
    Newton's claim of two centuries prior
  • 00:52:18
    reborn indeed experiments have worn this
  • 00:52:21
    out again and again with the results
  • 00:52:23
    becoming more and more accurate massive
  • 00:52:25
    objects such as stars and galaxies can
  • 00:52:28
    even behave as gravitational lenses
  • 00:52:31
    magnifying distant galaxies from the
  • 00:52:33
    very early universe and revealing the
  • 00:52:36
    presence of dark matter the beauty of
  • 00:52:39
    these natural telescopes is clearest in
  • 00:52:41
    deep space images such as the first
  • 00:52:45
    revealed by the James web Space
  • 00:52:49
    Telescope and so the flexible nature of
  • 00:52:52
    space and time had truly seen the end of
  • 00:52:55
    Newton's view of a rigid
  • 00:52:57
    universe but again what about
  • 00:53:03
    light what did this mean for light's
  • 00:53:06
    experience of space and time traveling
  • 00:53:10
    at the fastest speed possible in the
  • 00:53:12
    universe the effects of Relativity
  • 00:53:14
    become
  • 00:53:15
    extreme very
  • 00:53:17
    extreme all distances shrink to zero as
  • 00:53:22
    does the time taken to cover these zero
  • 00:53:25
    distances and so for photons no matter
  • 00:53:28
    how far they travel across the universe
  • 00:53:31
    not a single instant of time will tick
  • 00:53:34
    by even though this light may have
  • 00:53:37
    existed in time and space for many years
  • 00:53:39
    or light years even though it would have
  • 00:53:41
    been clearly formed by one electron in
  • 00:53:44
    one location and vanished when absorbed
  • 00:53:46
    by another electron in another location
  • 00:53:49
    the space-time distance between these
  • 00:53:51
    two events would be
  • 00:53:53
    exactly zero to the photon it is born
  • 00:53:57
    and dies at precisely the same moment we
  • 00:54:02
    began this story by following a lone
  • 00:54:05
    Photon from its creation just after the
  • 00:54:07
    beginning of time to its ultimate
  • 00:54:09
    destruction in the detector of a
  • 00:54:10
    telescope orbiting our planet today and
  • 00:54:14
    yet the photon itself saw nothing of
  • 00:54:17
    this not the intense light of Stellar
  • 00:54:20
    birth the catastrophic explosions that
  • 00:54:22
    come with Stellar death or the formation
  • 00:54:25
    of planets and events ual Rise Of Life
  • 00:54:27
    on our own pale blue
  • 00:54:31
    dot the photon
  • 00:54:34
    notic
  • 00:54:37
    [Music]
  • 00:54:42
    nothing you've been watching the entire
  • 00:54:45
    history of the universe don't forget to
  • 00:54:47
    like And subscribe and leave a comment
  • 00:54:48
    to tell us what you think thanks for
  • 00:54:51
    watching and we'll see you next time
  • 00:54:56
    [Music]
タグ
  • light
  • photon
  • universe
  • quantum mechanics
  • Einstein
  • Big Bang
  • relativity
  • Maxwell
  • wave-particle duality
  • cosmic history