The Structure of Scientific Revolutions

by

Thomas S. Kuhn

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Chapter 1 Quotes

History, if viewed as a repository for more than anecdote or chronology, could produce a decisive transformation in the image of science by which we are now possessed.

Related Characters: Thomas Kuhn (speaker)
Page Number: 1
Explanation and Analysis:

If these out-of-date beliefs are to be called myths, then myths can be produced by the same sorts of methods and held for the same sorts of reasons that now lead to scientific knowledge. If, on the other hand, they are to be called science, then science has included bodies of belief quite incompatible with the ones we hold today.

Related Characters: Thomas Kuhn (speaker)
Page Number: 3
Explanation and Analysis:
Chapter 2 Quotes

No natural history can be interpreted in the absence of at least some implicit body of intertwined theoretical and methodological belief that permits selection, evaluation, and criticism. If that body of belief is not already implicit in the collection of facts—in which case more than “mere facts” are at hand—it must be externally supplied, perhaps by a current metaphysic, by another science, or by personal and historical accident. No wonder, then, that in the early stages of the development of any science different men confronting the same range of phenomena, but not usually all the same particular phenomena, describe and interpret them in different ways.

Related Characters: Thomas Kuhn (speaker)
Page Number: 17
Explanation and Analysis:
Chapter 3 Quotes

Mopping-up operations are what engage most scientists throughout their careers. They constitute what I am here calling normal science. Closely examined, whether historically or in the contemporary laboratory, that enterprise seems an attempt to force nature into the preformed and relatively inflexible box that the paradigm supplies. No part of the aim of normal science is to call forth new sorts of phenomena; indeed those that will not fit the box are often not seen at all.

Related Characters: Thomas Kuhn (speaker)
Page Number: 24
Explanation and Analysis:
Chapter 4 Quotes

Once engaged, his motivation is of a rather different sort. What then challenges him is the conviction that, if only he is skillful enough, he will succeed in solving a puzzle that no one before has solved or solved so well. Many of the greatest scientific minds have devoted all of their professional attention to demanding puzzles of this sort. On most occasions any particular field of specialization offers nothing else to do, a fact that makes it no less fascinating to the proper sort of addict.

Related Characters: Thomas Kuhn (speaker)
Page Number: 38
Explanation and Analysis:

There must also be rules that limit both the nature of acceptable solutions and the steps by which they are to be obtained. To solve a jigsaw puzzle is not, for example, merely “to make a picture.” Either a child or a contemporary artist could do that by scattering selected pieces, as abstract shapes, upon some neutral ground. The picture thus produced might be far better, and would certainly be more original, than the one from which the puzzle had been made. Nevertheless, such a picture would not be a solution. To achieve that all the pieces must be used, their plain sides must be turned down, and they must be interlocked without forcing until no holes remain.

Related Characters: Thomas Kuhn (speaker)
Related Symbols: Jigsaw Puzzles
Page Number: 38
Explanation and Analysis:
Chapter 5 Quotes

That process of learning by finger exercise or by doing continues throughout the process of professional initiation […] One is at liberty to suppose that somewhere along the way the scientist has intuitively abstracted rules of the game for himself, but there is little reason to believe it. Though many scientists talk easily and well about the particular individual hypotheses that underlie a concrete piece of current research, they are little better than laymen at characterizing the established bases of their field, its legitimate problems and methods.

Related Characters: Thomas Kuhn (speaker)
Page Number: 47
Explanation and Analysis:

An investigator who hoped to learn something about what scientists took the atomic theory to be asked a distinguished physicist and an eminent chemist whether a single atom of helium was or was not a molecule. Both answered without hesitation, but their answers were not the same. For the chemist the atom of helium was a molecule because it behaved like one with respect to the kinetic theory of gases. For the physicist, on the other hand, the helium atom was not a molecule because it displayed no molecular spectrum. Presumably both men were talking of the same particle, but they were viewing it through their own research training and practice. Their experience in problem-solving told them what a molecule must be.

Related Characters: Thomas Kuhn (speaker)
Page Number: 51
Explanation and Analysis:
Chapter 6 Quotes

New and unsuspected phenomena are, however, repeatedly uncovered by scientific research, and radical new theories have again and again been invented by scientists. […] If this characteristic of science is to be reconciled with what has already been said, then research under a paradigm must be a particularly effective way of inducing paradigm change. That is what fundamental novelties of fact and theory do. Produced inadvertently by a game played under one set of rules, their assimilation requires the elaboration of another set.

Related Characters: Thomas Kuhn (speaker)
Page Number: 53
Explanation and Analysis:

Anomaly appears only against the background provided by the paradigm. The more precise and far-reaching that paradigm is, the more sensitive an indicator it provides of anomaly and hence of an occasion for paradigm change.

Related Characters: Thomas Kuhn (speaker)
Page Number: 65
Explanation and Analysis:
Chapter 7 Quotes

Philosophers of science have repeatedly demonstrated that more than one theoretical construction can always be placed upon a given collection of data. History of science indicates that, particularly in the early developmental stages of a new paradigm, it is not even very difficult to invent such alternates. But that invention of alternates is just what scientists seldom undertake […] The reason is clear. As in manufacture so in science—retooling is an extravagance to be reserved for the occasion that demands it. The significance of crises is the indication they provide that an occasion for retooling has arrived.

Related Characters: Thomas Kuhn (speaker)
Page Number: 76
Explanation and Analysis:
Chapter 8 Quotes

When acute, this situation is sometimes recognized by the scientists involved. Copernicus complained that in his day astronomers were so “inconsistent in these [astronomical] investigations . . . that they cannot even explain or observe the constant length of the seasonal year.” “With them,” he continued, “it is as though an artist were to gather the hands, feet, head and other members for his images from diverse models, each part excellently drawn, but not related to a single body, and since they in no way match each other, the result would be monster rather than man.” Einstein, restricted by current usage to less florid language, wrote only, “It was as if the ground had been pulled out from under one, with no firm foundation to be seen anywhere, upon which one could have built.”

Related Characters: Thomas Kuhn (speaker), Nicolaus Copernicus, Albert Einstein
Related Symbols: Jigsaw Puzzles
Page Number: 83
Explanation and Analysis:

The marks on paper that were first seen as a bird are now seen as an antelope, or vice versa. That parallel can be misleading. […] the scientist does not preserve the gestalt subject’s freedom to switch back and forth between ways of seeing. Nevertheless, the switch of gestalt, particularly because it is today so familiar, is a useful elementary prototype for what occurs in full-scale paradigm shift.

Related Characters: Thomas Kuhn (speaker), Aristotle, Galileo Galilei
Related Symbols: Bird/Antelope
Page Number: 85
Explanation and Analysis:

Instead, the new paradigm, or a sufficient hint to permit later articulation, emerges all at once, sometimes in the middle of the night, in the mind of a man deeply immersed in crisis. […] Almost always the men who achieve these fundamental inventions of a new paradigm have been either very young or very new to the field whose paradigm they change. And perhaps that point need not have been made explicit, for obviously these are the men who, being little committed by prior practice to the traditional rules of normal science, are particularly likely to see that those rules no longer define a playable game and to conceive another set that can replace them.

Related Characters: Thomas Kuhn (speaker)
Page Number: 90
Explanation and Analysis:
Chapter 9 Quotes

As in political revolutions, so in paradigm choice—there is no standard higher than the assent of the relevant community.

Related Characters: Thomas Kuhn (speaker)
Page Number: 94
Explanation and Analysis:

What occurred was neither a decline nor a raising of standards, but simply a change demanded by the adoption of a new paradigm. Furthermore, that change has since been reversed and could be again. In the twentieth century Einstein succeeded in explaining gravitational attractions, and that explanation has returned science to a set of canons and problems that are, in this particular respect, more like those of Newton’s predecessors than of his successors.

Related Characters: Thomas Kuhn (speaker), Aristotle, Nicolaus Copernicus, Isaac Newton, Albert Einstein
Page Number: 108
Explanation and Analysis:
Chapter 10 Quotes

Examining the record of past research from the vantage of contemporary historiography, the historian of science may be tempted to exclaim that when paradigms change, the world itself changes with them. Led by a new paradigm, scientists adopt new instruments and look in new places. Even more important, during revolutions scientists see new and different things when looking with familiar instruments in places they have looked before. […] In so far as their only recourse to that world is through what they see and do, we may want to say that after a revolution scientists are responding to a different world.

Related Characters: Thomas Kuhn (speaker)
Page Number: 111
Explanation and Analysis:

Looking at the moon, the convert to Copernicanism does not say, “I used to see a planet, but now I see a satellite.” That locution would imply a sense in which the Ptolemaic system had once been correct. Instead, a convert to the new astronomy says, “I once took the moon to be (or saw the moon as) a planet, but I was mistaken.”

Related Characters: Thomas Kuhn (speaker), Nicolaus Copernicus
Page Number: 115
Explanation and Analysis:

But is sensory experience fixed and neutral? Are theories simply manmade interpretations of given data? The epistemological viewpoint that has most often guided Western philosophy for three centuries dictates an immediate and unequivocal, Yes! In the absence of a developed alternative, I find it impossible to relinquish entirely that viewpoint. Yet it no longer functions effectively, and the attempts to make it do so through the introduction of a neutral language of observations now seem to me hopeless. The operations and measurements that a scientist undertakes in the laboratory are not “the given” of experience but rather “the collected with difficulty.”

Related Characters: Thomas Kuhn (speaker)
Page Number: 126
Explanation and Analysis:

Chemists could not, therefore, simply accept Dalton’s theory on the evidence, for much of that was still negative. Instead, even after accepting the theory, they had still to beat nature into line, a process which, in the event, took almost another generation. When it was done, even the percentage composition of well-known compounds was different. The data themselves had changed. That is the last of the senses in which we may want to say that after a revolution scientists work in a different world.

Related Characters: Thomas Kuhn (speaker), John Dalton
Page Number: 134
Explanation and Analysis:
Chapter 11 Quotes

But scientists are more affected by the temptation to rewrite history, partly because the results of scientific research show no obvious dependence upon the historical context of the inquiry, and partly because, except during crisis and revolution, the scientist’s contemporary position seems so secure. More historical detail, whether of science’s present or of its past, or more responsibility to the historical details that are presented, could only give artificial status to human idiosyncrasy, error, and confusion. Why dignify what science’s best and most persistent efforts have made it possible to discard?

Related Characters: Thomas Kuhn (speaker)
Page Number: 138
Explanation and Analysis:
Chapter 12 Quotes

These examples point to the third and most fundamental aspect of the incommensurability of competing paradigms. In a sense that I am unable to explicate further, the proponents of competing paradigms practice their trades in different worlds. One contains constrained bodies that fall slowly, the other pendulums that repeat their motions again and again. In one, solutions are compounds, in the other mixtures. One is embedded in a flat, the other in a curved, matrix of space.

Related Characters: Thomas Kuhn (speaker), Aristotle, Galileo Galilei, Isaac Newton, John Dalton, Albert Einstein
Page Number: 150
Explanation and Analysis:

Though a generation is sometimes required to effect the change, scientific communities have again and again been converted to new paradigms. Furthermore, these conversions occur not despite the fact that scientists are human but because they are.

Related Characters: Thomas Kuhn (speaker)
Page Number: 152
Explanation and Analysis:
Chapter 13 Quotes

We may, to be more precise, have to relinquish the notion, explicit or implicit, that changes of paradigm carry scientists and those who learn from them closer and closer to the truth.

Related Characters: Thomas Kuhn (speaker)
Page Number: 170
Explanation and Analysis:
Postscript Quotes

The law-sketch, say f = ma, has functioned as a tool, informing the student what similarities to look for, signaling the gestalt in which the situation is to be seen […] After he has completed a certain number, which may vary widely from one individual to the next, he views the situations that confront him as a scientist in the same gestalt as other members of his specialists’ group. For him they are no longer the same situations he had encountered when his training began. He has meanwhile assimilated a time-tested and group-licensed way of seeing.

Related Characters: Thomas Kuhn (speaker)
Page Number: 189
Explanation and Analysis:
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