The Dictionary of Human Geography

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to bear on the spaces of exclusion. Foucault

suggested that the society that emerged in this

period can be better understood as one of gen-

eralizedpanopticism, where the ideal of surveil-

lance and ordered behaviour is spread through

cities as a whole. Foucault’s analysis has not

been without its critics, but his account,

together with his re-edition of the French text

with an introductory interview (1980d), helped

to bring Bentham’s work back into discussion.

Inhuman geography, Foucault’s arguments

have influenced historico-geographical studies

of poverty, welfare and workhouses (Driver,

1993) and contemporary critiques of security,

surveillance and incarceration (Hannah, 1997;

Dobson and Fisher, 2007). se

Suggested reading

Bentham (1995); Foucault (1978); Wood (2007).

paradigm An old English word meaning

pattern, exemplar or model, but rescued from

obscurity by the American philosopher and

historian of science Thomas Kuhn (1922–96)

in his short monographThe structure of scientific

revolutions(1970 [1962]), reportedly the most

cited book of the twentieth century. The pre-

cise definition of ‘paradigm’ is contentious,

with one critic counting 21 different meanings

in the first edition of Kuhn’s book (although

the second edition offered clarification:

Masterman, 1970). Roughly, a paradigm is

the constellation of values, assumptions,

methods and exemplars shared by a given

scientific community, making it what it is. A

paradigm shapes what scientists think about

something before they think it.

Kuhn’s use of ‘paradigm’ was part of his

larger project to provide an alternative to the

traditional history ofscience that stressed

science’s progressive and heroic character.

For Kuhn, most science was puzzle-solving,

with practitioners working within a common

frame of reference, shared assumptions, tech-

niques and standards; that is, a paradigm.

Consequently, the activities of scientists were

run of the mill, not heroic. Within this frame-

work of normal science, however, anomalies

occurred that could not be explained within

the prevailing paradigm. Given enough of

them, a crisis eventuated, precipitatingextra-

ordinary research(not mere puzzle-solving). If

successful, in the sense that the new research

accommodated the anomalies, revolutionary

change occurred in the form of aparadigm

shift, setting the blueprint for the next period

of normal science. Paradigms, however, by

their very constitution, were incommensurable.

Scientific knowledge, therefore, moved not

as linear progress, but as incomparable,

discontinuous transformations (‘scientific

revolutions’).

Kuhn’s work garnered an enormous amount

of critical attention. There were the defin-

itional ambiguities already mentioned.

Kuhn’s response was to clarify ‘paradigm’ by

separating out the global characteristics of a

scientific community, labelled the ‘disciplinary

matrix’ (Kuhn, 1970 [1962], p. 182), from

‘concrete problem solutions’ (Kuhn, 1970

[1962], p. 186) such as the use of a particular

book or mathematical technique, termed

‘exemplars’ (Kuhn, 1970 [1962], pp. 186–7).

Other criticisms went to his substantive

claims. Toulmin (1970) argued historically

that paradigm change was not revolutionary,

but occurred all the time. The rarity was nor-

mal science. For this reason, Popper (1970,

p. 53) thought that ‘one ought to be sorry for’

Kuhn’s ‘normal scientist’. Likewise, Kuhn’s

thesis of incommensurability drew fire with

its implication that science does not progress.

Lakatos (1978), while accepting incommen-

surability between ‘hard cores’ of rival theor-

ies, claimed that one could still meaningfully

speak of progress using empirical prediction

and corroboration to construct research

programmes.

These are important points, but they do not

help us to understand why Kuhn’s book was

such a runaway success. There are many

reasons, but the most important was its anti-

rationalism, and its resonance with a similar

sentiment washing over a number ofhuman-

ities and social sciences from the 1960s

(where the book was read much more than in

science), and culminating inpostmodernism

andpost-structuralism. Whether he meant

to or not (and the evidence is that he did not),

Kuhn represented scientific knowledge not as

an unsullied, abstract form of rationality (the

progressive, heroic view), but relativistically as

mired in context-specific cultural beliefs and

ordinary practices, in paradigms. Not that this

was the interpretation of paradigm by geog-

raphers who first made use of Kuhn during

their own ‘scientific revolution’, the self-styled

quantitative revolutionthat was to usher in

spatial science through ‘extraordinary

research’. Perversely Kuhn’s ‘paradigm’ was

interpreted as a justification for that move-

ment’s rationalist scientific approach

(Haggett and Chorley, 1967) and paradigms

were treated as scientific models (cf. Billinge,

Gregory and Martin, 1984a; Mair, 1986).

Some later exponents, however, tried to

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PARADIGM