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The strange world of contemporary physics

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Title: The strange world of contemporary physics


1
The strange world of contemporary physics
2
PHIL 160 Lecture 2
  • Two of Ledermans analogies and what they
    suggest.
  • What can the evidence be for objects, events, and
    processes that are unobservable?
  • Preview of Gould reading.

3
Ledermans analogies
  • The pyramid of science
  • Dependent upon
  • .
  • .
  • .
  • Biology
  • Chemistry
  • Physics
  • Causal
  • Mathematics

4
The library of matter
  • What are the most basic elements of a library?
  • Books? No they are complex objects (cut-able)
    that are made up of other (simpler, smaller)
    things
  • Words? They are also complex (cut-able) and can
    be broken down into 26 letters
  • Which can in turn be broken down into just 0 and
    1
  • If it makes no sense to take apart the 0 and the
    1, weve found the atomic components of the
    library
  • The universe as the library
  • What are its most basic elements?
  • The forces of nature are the grammar, spelling,
    and algorithm
  • Analogous to 0 and 1, the subatomic particles,
    quarks and leptons, are currently believed to be
    the atomic (un-cut-able) elements of the
    universe

5
Ledermans analogies
  • What do these analogies reveal about some quite
    basic assumptions that currently underlie or
    motivate researchers in particle physics?
  • That the entities and laws studied by particle
    physicists are, respectively, what make up and
    govern all other entities and processes and
    regularities.
  • A commitment to simplicity (that just a few
    particles make up everything there is and that
    nature operates on the basis of simple laws)
  • That invisible (not able to be directly
    observed) objects are respectable, indeed
    necessary, for (some) theories of physics
  • What warrants these assumptions lets start with
    the last..

6
Invisible soccer balls and evidence for objects
or processes that cannot be directly observed
  • Evidence is at times indirect and involves
    drawing inferences
  • Positing the existence of a ball that they could
    not observe, the Twiloins were able to make sense
    of what they could observe.
  • Scientists often posit an object (or force or
    process) that cannot be directly observed when
    its existence makes sense of/explains what can be
    observed.

7
Invisible soccer balls and evidence for objects
or processes that cannot be directly observed
  • Previously unobservable entities posited by
    science
  • Molecules
  • Genes
  • Atoms
  • DNA as a double helix

8
Drawing inferences
  • Deductively valid argument are such that it is
    not possible for their premises to be true and
    their conclusion false.
  • Examples
  • All men are mortal.
  • Socrates is a man.
  • Therefore, Socrates is mortal.
  • AND
  • All men are green.
  • Socrates is a man.
  • Therefore, Socrates is green.

9
Inference to the best explanation
  • Unlike deductively valid arguments, the premises
    of arguments of the form inference to the best
    explanation do not guarantee their conclusions .
  • They are ampliative they go beyond what is
    contained in the premises.
  • So, their conclusions are, at best, probable.
  • One way to understand Ledermans arguments for
    the reasonableness of assuming there are
    subatomic particles, such as quarks, is to see it
    as partly involving an inference to the best
    explanation.

10
Inference to the best explanation
  • The form of an inference to the best explanation
  • Accept that hypothesis among the alternatives
    (e.g.,H1, H2, H3 if there are any viable
    alternatives) that best accounts for the evidence
    available (which can take the form of instrument
    readings, observable objects and processes, etc.)
    and is not inconsistent with any known evidence.
  • So how is this at work in particle physics

11
Fermilab
  • Welcome to Fermilab!
  • Our mission is to discover what the universe is
    made of and how it works.
  • We're asking three simple, challenging questions
    here at the frontier of particle physicsWhat
    is the nature of the universe?What are matter,
    energy, space and time?How did we get here and
    where are we going?
  • Fermilab Director Michael S. Witherell

12
The Standard Model
13
Fermilab
  • The Tevatron
  • Was the worlds highest-energy particle collider
  • 4 miles in circumference and housed in a tunnel
    30 feet below the ring
  • Accelerators send particles racing around the
    Tevatron at 99.9999 of the speed of light so
    that the particles complete the four mile course
    nearly 50,000 times a second

14
Smashing particles
  • Method
  • Take speeding subatomic particles and smash them
    together at high energies.
  • Send two kinds of particles, protons and
    antiprotons, around the ring in opposite
    directions.
  • At two points in the ring, streams of these
    particles (called "beams") flow right into each
    other.
  • What follows are millions and millions of
    collisions, at the rate of almost two million
    each second.
  • Many kinds of devices record details of the
    debris to identify, based on theory, what kinds
    of particle are being produced in the collisions.

15
Smashing particles
  • Using the Tevatron, Fermilab scientists have
    confirmed
  • The bottom quark (1977)
  • The top quark (1995)
  • The tau neutrino (2000)
  • We collide particles in the hope of seeing
    something never seen before.
  • But predicted by theory!

16
The detectors
  • The CDF Collider Detector.
  • Each detector has about one million individual
    pathways for recording electronic data generated
    by the particle collisions. The signals are
    carried over nearly a thousand miles of wires and
    cables--each one connected by hand and tested
    individually.

17
So what is Ledermans evidence?
  • My evidence for atoms and quarks is as good as
    the evidence the TV provides that the Pope
    exists.
  • What is that evidence? Tracks of particles in a
    bubble" chamber. In the Fermilab accelerator, the
    debris from a collision between a proton and an
    antiproton is captured by a 3 story, 60 million
    dollar detector.
  • Here, the evidence the seeing is tens of
    thousands of sensors that develop an electrical
    impulse when a particle passes

18
So what is Ledermans evidence?
  • All of these impulses are fed by through
    hundreds of thousands of wires to electronic data
    processors.
  • Ultimately, a record is made on spools of
    magnetic tape, encoded by zeroes and ones.
  • This tape records the hot collisions of proton
    against antiproton, which can generate as many as
    70 particles that fly apart into the various
    sections of the detector.
  • Science, especially particle physics, gains
    confidence in its conclusions by duplication

19
New slide now added
  • Lederman on what he and other particle physicists
    are up to
  • No subatomic particle is observed directly.
  • 2 particles collide and spew debris and new
    matter inside the accelerator.
  • Physicists infer the existence of new particles
    from the fact that they collide with other
    particles in a 65 million dollar collision
    detector.
  • Think of a bus that drives by your house every
    day

20
New slide now added
  • One afternoon while youre at work, the bus
    collides with a Subaru.
  • The bumper flies off the Subaru and hits your
    mailbox, which is hurled through your window.
  • When you come home, you look at the pattern of
    shattered glass and say Hmmm A Subaru!
  • Thats not unlike what particle physicists do
    for a living.

21
What commitments does Lederman embrace?
  • Ontological concerning what there is
  • A library of matter, that constitutes a
    hierarchy, and includes some one or more
    fundamental kinds of stuff.
  • A simple and elegant universe
  • Epistemological concerning the possibility,
    limits, and strengths of our abilities to know
  • Fallibilism, but the strength of inference to the
    best explanation and that physicists have some
    significant knowledge and are closing in on
    answers to others of their most fundamental
    questions.
  • Aesthetic concerning what we find beautiful or
    pleasing
  • Simplicity! Elegance!

22
Sheldon Glashows credo
  • We scientists believe that the world is
    knowable, that there are simple rules governing
    the behavior of matter and the evolution of the
    universe. We affirm that there are eternal,
    objective, extra-historical, socially neutral,
    external, and universal truths, and that the
    assemblage of these truths is what we call
    physical science. . . .
  • Any intelligent alien anywhere would have come
    upon the same logical structure as we have for
    supernovae
  • This statement I cannot prove. This statement I
    cannot justify. This is my faith.

23
Evolutionary theorizing
  • The late great Stephen Jay Gould
  • (1941-2002)
  • Harvard paleontologist and evolutionary theorist
  • One of the strongest defenders of Darwin and
    evolutionary theory
  • One of the strongest critics of some aspects of
    evolutionary theory.

24
Natural selection
  • Darwins great discovery
  • A mechanism by which evolution could occur.
  • What it is
  • 1. There is intra-species variation.
  • 2. There is a struggle for existence.
  • 3. If some variation provides an advantage
    (however small) in terms of survival and/or
    reproductive success, those organisms with it
    will tend to survive better and reproduce more
    successfully and tend to pass on the trait to
    their offspring.
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