Kuhn turns attention from the “product” of science to the “process”
of science.
He seems to denythat
(1) Rationality is the drivingforce behind scientific change.
(2) New theories represent “the world” more accurately than old theories do.
Normal vs. revolutionaryscience
Kuhn says there are two kinds of science:
Normalscience is “researchfirmlybasedupon one or more
scientific achievements, achievements that
some particular scientific community
acknowledges for a time as supplying
the foundation for its future practice” (10).
Revolutionaryscience occurs when normal science breaks down,
because the exemplaryachievements of the
past no longer give enoughguidance
about what should happen next.
Normal science andparadigms
A paradigm that is successful (for a time) has “attract[ed] an
enduringgroupof adherents awayfrom competingmodes of
scientific activity” and is “sufficientlyopenended to leave all sorts
of problems for the . . . groupofpractitioners to solve” (10).
Anomalies
Anomalies are ways that “nature has somehow violated the
paradigminducedexpectations that govern normal science” (53).
Phlogiston theorysays burning“liberates” phlogiston that had
been bonded with“ash.” But then whydo some things gain
weight when burned?
Roentgen’s discoveryof Xrays: “Though Xrays were not
prohibited byestablishedtheory, they violated deeply
entrenched expectations. . . Perhaps those rays . . . were
implicatedin behavior previouslyexplained without reference
to them” (59).
Crisis
“[E]arlyattacks upon the resistant problem willhave followedthe
paradigm rules quite closely. But withcontinuingresistance, more
andmore of the attacks upon it will have involved some minor or
not so minor articulations ofthe paradigm, no two ofthem quite
alike, each partiallysuccessful, but none sufficientlyso to be
acceptedas paradigm bythe group” (83).
Example: competingsystems of epicycles.
The breakdown ofa paradigm
“Through this proliferation of divergent articulations (more and
more they willcome to be described as adhoc adjustments), the
rules of normal science become increasinglyblurred. Thoughthere
is still a paradigm, few practitioners prove to be entirelyagreed
about what it is. Even formerlystandardsolutions of solved
problems are calledin question” (83).
Revolution
“The resultingtransition to a new paradigm is scientific revolution”
(90), suchas the transition to special relativityin the earlypart of
the twentiethcentury.
The crisis is “terminated, not bydeliberation and interpretation, but
bya relativelysudden and unstructured event like the gestalt switch
[e.g., the change from seeingan illustration as a rabbit to seeingit as
a duck]. Scientists then often speak ofthe ‘scales fallingfrom the
eyes’ or ofthe ‘lightningflash’ that ‘inundates’ a previouslyobscure
puzzle, enablingits components to be seen in a new waythat for the
first time permits its solution” (122).
Kuhn’s descriptive picture, in a nutshell
Normal science consists of solvingpuzzles that the dominant
paradigm guarantees have answers, until an anomalyis discovered.
Certain anomalies cause a crisis. Generally, crises bringabout the
development and adoption ofa new paradigm.
Note: this is all technical vocabulary—and the interpretation of
much ofit is controversial!
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