Physics and scientific realism
Abstract
In this thesis I argue for a realist interpretation of physics. I respond to
claims to the contrary by submitting rebuttals of some of the more
serious objections, and by formulating and defending counter-claims.
It would be too ambitious to try to argue here for realism throughout
physics, so I restrict my constructive efforts to the classical domain.
Attempted rebuttals of the anti-realist case, however, involve intrusions
into the quantum arena.
I take issue in Part 1 with Nancy Cartwright. She argues in How the
Laws o f Physics Lie that: (i) the fundamental laws of physics are
false; (ii) causal explanation can ensure truth, in which case the
theoretical entities invoked are real; and (iii) current theories of
explanation are misconceived. To support (i) she analyses cases drawn
from both classical and modern physics, and my response is to show in
detail how, in these examples, I believe she is mistaken. Whilst I agree
with (ii), I argue that there is incoherence in simultaneously holding (ii)
with (i). As for (iii), I defend the D-N model of explanation and point to
the inadequacies of Cartwright s simulacrum model.
In Representing and Intervening Ian Hacking argues for the
reality of (theoretical) entities that can be manipulated in interactions
with other things. However, he is agnostic on realism about theories,
because he believes that incompatible theories can equally well cover a
given range of phenomena. The case to which he points to instantiate the
view is Hertz s treatment of mechanics in which Hacking claims to find
three equally good theories, with the overt threat of inconsistency
among them. In Part 2 I argue that there is but one theory of mechanics
and that Hertz s project was to investigate three different ways of
axiomatising it. Only one of the three ways (as conceived by Hertz)
survives. To support their position, anti-realists commonly seize on the
doctrine, supposedly due to Pierre Duhem, that a given range of
phenomena can be accommodated by different, mutually incompatible,
theories. Part 3 examines the basis for Duhem's view and establishes that
he had a quasi-realist attitude to theories. The originator of the doctrine, it transpires, was not Duhem, but Henri Poincare. I explain how the
subsequent course of physics invalidated the grounds which misled these
two philosophers into adopting it.
Part 4 examines Bas van Fraassen's claim to reduce to absurdity the
demand for explanation that he thinks is exemplified in J.J.C. Smart's
classic cosmic coincidence' argument for realism. I show that Smart s
argument comprehends two different sorts of cosmic coincidence, and
that van Fraassen addresses only the less formidable of these. In so
doing, van Fraassen's strategy is to assert that Smart's argument relies on
Reichenbach s principle of the common cause, and to offer an abstract
schema (deriving from the EPR correlation experiments) which, he claims,
refutes Reichenbach's principle. I set all of this in context and argue that
the schema fails to bear the load that van Fraassen places on it, and that
Smart s argument stands.
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