Feynman: Mathematicians versus Physicists

00:09:46
https://www.youtube.com/watch?v=obCjODeoLVw

Resumen

TLDRThe video explores the intricate relationship between mathematics and physics, highlighting how mathematicians focus on abstract reasoning without needing real-world context, while physicists translate these abstractions into meaningful real-world applications. The speaker stresses the non-identical nature of mathematics and physics, noting that while mathematics aids in powerful abstraction and prediction, physics emphasizes understanding and applying these concepts in the real world. There is a discussion on the role of models and philosophical principles in physics, mentioning that significant discoveries were often made by moving beyond simplistic models. The speaker shares a hypothesis about future physics potentially moving away from mathematical expressions towards simpler natural laws. It is emphasized that understanding mathematics is crucial to truly grasp the beauty of nature, akin to needing the correct language to truly understand and appreciate it. The video concludes by reflecting on the intellectual challenge of conveying the essence of mathematical beauty and physics to those unversed in these fields, drawing a parallel to understanding music.

Para llevar

  • 🔍 Mathematics focuses on abstract reasoning without real-world context.
  • 🔗 Physics requires translating mathematical abstractions to real-world applications.
  • 📐 Physicists are interested in specific laws like gravity rather than abstract generalities.
  • 🧠 Understanding mathematics is crucial to appreciating nature's beauty.
  • 💡 Significant discoveries often happen beyond simple models.
  • 🌀 Mathematics provides a language for expressing nature's complexity.
  • 🌌 There is a hypothesis that future physics may not require mathematical expression.
  • 🎼 Conveying the essence of mathematical and physical beauty is challenging.
  • 📝 There is a distinction between mathematicians' and physicists' approaches to reasoning.
  • 🔑 Translation of conclusions into real-world terms is critical in physics.

Cronología

  • 00:00:00 - 00:09:46

    The speaker emphasizes the potential limitations of a purely mathematical or model-based approach in discovering new laws of physics. Historical examples indicate that significant breakthroughs often require stepping away from specific models and focusing on finding the correct equations or laws directly. Mathematics provides a robust way of expressing nature, yet philosophical principles or intuitive reasoning may not be efficient. There's speculation about the simplicity underlying the complexity of physical laws, which might be understood through mathematics. But the simplicity sought may also reflect one's biases rather than factual reality. Mathematics is integral to understanding nature's beauty, and despite the difficulty, it's essential for a true appreciation of physical laws, as emphasized by C.P. Snow's two cultures - those who understand mathematics and those who don't.

Mapa mental

Mind Map

Preguntas frecuentes

  • How do mathematicians approach reasoning?

    Mathematicians focus on the structure of reasoning and can proceed without understanding the real-world meaning of the terms used.

  • What is the key difference between physics and mathematics as highlighted in the video?

    Physics requires translating mathematical conclusions into real-world terms to verify their validity, whereas mathematics deals with abstract reasoning independent of real-world applications.

  • Why is the special case important in physics?

    Physicists are interested in specific real-world cases and laws, like gravity, instead of abstract generalities.

  • Can mathematics be useful in developing new laws in physics?

    Yes, mathematics provides a powerful language for expressing nature and can facilitate the guesswork effectively in discovering new laws.

  • What criticism does the speaker express about philosophical principles in physics?

    The speaker argues that using philosophical principles or mechanical intuition is not efficient compared to using mathematical approaches.

  • What is an interesting hypothesis discussed regarding the future of physics and mathematics?

    The hypothesis is that physics might eventually not require mathematical statements and that laws could be simple, akin to patterns like a checkerboard.

  • Why is understanding mathematics important according to the speaker?

    Understanding mathematics is essential to truly appreciate and understand the deeper beauty of nature.

  • What dilemma does the speaker express about the complexity of physical laws?

    The speaker is puzzled by why such complex logical operations are needed to predict the behavior of tiny regions of space and time.

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Desplazamiento automático:
  • 00:00:05
    now I would like to make a number of
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    remarks on the relation of mathematics
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    and physics which are a little more
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    General the first is that the
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    mathematicians only are dealing with the
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    structure of the reasoning and they do
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    not really care about what they're
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    talking they don't even need to know
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    what they're talking about or as they
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    themselves say or whether what they say
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    is true now explain that if you state
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    the axioms you say such and such a so
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    and such and such a so and such and such
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    a so what then then the logic can be
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    carried out without knowing what the
  • 00:00:43
    such and such words
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    mean that is if they if the statements
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    about the axim are true I mean are
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    carefully formulated and complete enough
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    it is not necessary for the man who's
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    doing the reasoning to have any
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    knowledge of the meaning of these words
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    and to be able to deduce in the same
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    language new con con new conclusions if
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    I use the word triangle in one of the
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    axioms there'd be some statement about
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    triangles in the conclusion whereas the
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    man who's doing the reasoning might not
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    know what the triangle is but then I can
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    read his thing back and say oh a
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    triangle that's just a three side of
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    what have you this so and so and so I
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    know this new fact in other words
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    mathematicians prepare abstract
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    reasoning that's ready to be used if you
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    will only have a set of axioms about the
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    real world but the physicist has meaning
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    to all the phrases and there's a very
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    important thing that the people who a
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    lot of people who study Physics that
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    come from mathematics don't appreciate
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    the physics is not mathematics and
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    Mathematics is not physics one helps the
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    other but you have to have some
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    understanding of the connection of the
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    words with the real world it's necessary
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    to at the end to translate what you
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    figured out into English into the world
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    into the blocks of copper and glass that
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    you're going to do the experiments with
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    to find out whether the consequences are
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    true
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    and this is a problem which is not a
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    problem of mathematics at
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    all I've already mentioned one other
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    relationship that of course it's obvious
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    how the mathematical reasonings which
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    have been developed are of great power
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    and use in for
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    physicist that the on the other hand
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    sometimes the physicist reasoning is
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    useful for
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    mathematicians mathematicians also like
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    to make their reasoning as general as
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    possible if you say I have a three
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    dimens space the ordinary space I want
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    to talk about ordinary space you know
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    you're in it that you measure distances
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    and there are three numbers you need to
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    tell where something is you go breadth
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    width and
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    height threedimensional space and you
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    begin to ask them about theorems then
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    they say now look if you had a space of
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    n dimensions then here are the theorems
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    well I yeah but I only want the case
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    three well substitute n equals 3 and
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    then it turns
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    out then it turns out
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    that very many of the complicated
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    theorems they have are much simpler
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    because it happens to be a special case
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    now the physicist is always interested
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    in a special case he's never interested
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    in the general case he does he's talking
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    about
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    something he's not talking abstractly
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    about any he knows what he's talking
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    about he wants to discuss the gravity
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    law he doesn't want the arbitrary Force
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    case he wants the gravity and so there
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    is a certain amount of reducing the
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    mathematicians have prepared these
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    things for a wide range of problems
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    which is very useful and later on it
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    always turns out that the poor physicist
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    has to come back and say excuse me when
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    you wanted to tell me about the four
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    dimensions
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    now another item that's interesting in
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    this
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    relationship is the question of how to
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    do new
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    physics is it important to have a
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    feeling a kind of in oh I must mentioned
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    one other item when you know what it is
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    you're talking about that these things
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    are forces and these are masses and this
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    is inertia and this is so on then you
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    can use an awful lot of common sense
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    seat of the pants feeling about the
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    world you've seen various things you
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    know more or less how the phenomenon is
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    going to behave well a poor
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    mathematician he translates it into
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    equations and the symbols don't mean
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    mean anything to him and he has no guide
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    but precise mathematical rigor and Care
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    in the argument whereas a physicist who
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    knows more or less how the answer can go
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    is going to come out can sort of guess
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    part way and go right along rather
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    rapidly the ma the mathematical rigor of
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    great Precision is not very useful in
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    the physics nor is the modern attitude
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    in mathematics to look at axians now
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    mathematicians can do what they want to
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    do one should not criticize them because
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    they are not slaves to physics it is not
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    necessary that just of course this would
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    be useful to you they have to do it that
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    way they can do what they will it's
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    their own job and if you want something
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    else then you work it out
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    yourself the next point is the question
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    of whether we should guess when we try
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    to get a new law whether we should use
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    the seat of the pants feeling and
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    philosophical principles I don't like a
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    minimum principle or I do like a minimum
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    principle or I don't like action of the
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    distance or I do like action the
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    question is to what extent models help
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    and it's a very interesting thing very
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    often models help and most physics
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    teachers try to teach how to use these
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    models and get a good physical feel for
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    how things are going to work
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    out but the greatest discoveries it
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    always turns out abstract away from the
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    model it never did any good Maxwell's
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    discovery of electrodynamics was first
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    made with a lot of imaginary wheels and
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    idlers and everything else in space if
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    you got rid of all the idlers and
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    everything else in Space the thing was
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    okay dur discovered the correct laws of
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    of quantum mechanics for relativity
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    quantum mechanics simply by guessing the
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    equation and the method of guessing the
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    equation seems to be a pretty effective
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    way of guessing new laws this shows
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    again that mathematics is a deep way of
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    expressing nature and attempts to
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    express nature in philosophical
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    principles or in seed of the pants
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    mechanical feeling is not an efficient
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    way
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    I must say that there is possible and I
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    know I've often made the hypothesis that
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    physics ultimately will not require a
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    mathematical statement that the
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    Machinery ultimately will be revealed
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    it's just a Prejudice like one of these
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    other prejudices it always bothers me
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    that in spite of all this local business
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    what goes on in a tiny no even no matter
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    how tiny a region of space and no matter
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    how tiny a region of time according to
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    the laws as we understand them today
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    takes a Computing machine an infinite
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    number of logical operations to figure
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    out now how can all that be going on in
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    that tiny
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    space that why should it take an
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    infinite amount of logic to figure out
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    what one stinky tiny bit of SpaceTime is
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    going to
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    do and so I made the hypothesis often
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    that the laws are going to turn out to
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    be in the end simple like the
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    checkerboard and that all the
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    complexities is from size but that is of
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    the same nature as the other
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    speculations that other people make it
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    say I like it you don't like it it's not
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    good to be too prejudiced just about the
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    thing to
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    summarize I would use the words of genes
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    which says that who said that uh the
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    great architect seems to be a
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    mathematician and for you who don't know
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    mathematics it's really quite difficult
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    to get a real feeling across of to the
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    beauty of the deepest beauty of
  • 00:07:56
    nature CP snow talked about two cultures
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    I really think that those two cultures
  • 00:08:01
    are people who do and people who will do
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    not have had the Su who people who have
  • 00:08:06
    had and people who have not had this
  • 00:08:07
    experience of understanding mathematics
  • 00:08:09
    well enough to appreciate nature
  • 00:08:12
    once it's too bad that it has to be
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    mathematics and that mathematics for
  • 00:08:16
    some people is hard when one of the it's
  • 00:08:18
    reputed I don't know if it's true that
  • 00:08:20
    when one of the Kings was trying to
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    learn geometry from ukl he complained
  • 00:08:24
    that it was difficult and ukl said that
  • 00:08:26
    there's no Royal Road to geometry and
  • 00:08:29
    there's no Royal Road it's not the JW we
  • 00:08:33
    cannot as people who look at this things
  • 00:08:35
    as a physicist cannot convert this s to
  • 00:08:37
    any other language you have if you want
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    to discuss nature to learn about nature
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    and to appreciate nature it's necessary
  • 00:08:45
    to find out the language that she speaks
  • 00:08:47
    in she offers her information only in
  • 00:08:50
    one form we are not so unhumble as to
  • 00:08:53
    say theand that she changed before we
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    pay any
  • 00:08:57
    attention it seems to me
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    that uh that it's like
  • 00:09:03
    the all the intellectual arguments that
  • 00:09:06
    you can make would not in one in any way
  • 00:09:09
    or very very little will communicate to
  • 00:09:11
    deaf ears what music the experience of
  • 00:09:14
    Music really is and all the intellectual
  • 00:09:17
    arguments in the world will not convince
  • 00:09:19
    those of the other culture the
  • 00:09:22
    philosophers who tried to teach you by
  • 00:09:24
    telling you qualitatively about this
  • 00:09:26
    thing me who's trying to describe it to
  • 00:09:28
    you is it's not getting across it's
  • 00:09:30
    impossible I'm talk we talking to deaf
  • 00:09:33
    ears and it's when they it's perhaps
  • 00:09:38
    that the horizons are limited which
  • 00:09:40
    permit such people to imagine that the
  • 00:09:42
    center of the universe of interest is
  • 00:09:44
    man
Etiquetas
  • mathematics
  • physics
  • reasoning
  • abstraction
  • real-world application
  • models
  • philosophical principles
  • natural laws
  • understanding
  • mathematical beauty