"We have here no esoteric theory of the ultimate
nature of concepts, nor a philosophical championing of the primacy of the
'operation'. We have merely a pragmatic matter, namely that we have observed
after much experience that if we want to do certain kinds of things with our
concepts, our concepts had better be constructed in certain ways. In fact one
can see that the situation here is no different from what we always find when
we push our analysis to the limit; operations are not ultimately sharp or
irreducible any more than any other sort of creature. We always run into a haze
eventually, and all our concepts are describable only in spiralling
approximation." (Percy W Bridgman, "Reflections of a Physicist",
1950)
"Men of science have made abundant mistakes of every kind; their knowledge has improved only because of their gradual abandonment of ancient errors, poor approximations, and premature conclusions." (George Sarton, "A History of Science" Vol 2, 1952)
"The result of the struggle between the thought and
the ability to express it, between dream and reality, is seldom more than a
compromise or an approximation. Thus there is little chance that we will
succeed in getting through to a large audience, and on the whole we are quite
satisfied if we are understood and appreciated by a small number of sensitive,
receptive people." (Maurits C Escher, "On Being a Graphic
Artist", 1953)
"By the laws of statistics we could probably approximate just how unlikely it is that it would happen. But people forget - especially those who ought to know better, such as yourself - that while the laws of statistics tell you how unlikely a particular coincidence is, they state just as firmly that coincidences do happen." (Robert A Heinlein, "The Door Into Summer", 1957)
"The first consequence of the principle of bounded
rationality is that the intended rationality of an actor requires him to
construct a simplified model of the real situation in order to deal with it. He
behaves rationally with respect to this model, and such behavior is not even
approximately optimal with respect to the real world. To predict his behavior
we must understand the way in which this simplified model is constructed, and
its construction will certainly be related to his psychological properties as a
perceiving, thinking, and learning animal." (Herbert A Simon, "Models
of Man", 1957)
"Mathematics is neither a description of nature nor an explanation of its operation; it is not concerned with physical motion or with the metaphysical generation of quantities. It is merely the symbolic logic of possible relations, and as such is concerned with neither approximate nor absolute truth, but only with hypothetical truth. That is, mathematics determines what conclusions will follow logically from given premises. The conjunction of mathematics and philosophy, or of mathematics and science is frequently of great service in suggesting new problems and points of view." (Carl B Boyer, "The History of the Calculus and Its Conceptual Development", 1959)
"A scientific theory is usually felt to be better
than its predecessors not only in the sense that it is a better instrument for
discovering and solving puzzles but also because it is somehow a better
representation of what nature is really like. One often hears that successive
theories grow ever closer to, or approximate more and more closely to, the
truth. Apparently generalizations like that refer not to the puzzle-solutions
and the concrete predictions derived from a theory but rather to its ontology,
to the match, that is, between the entities with which the theory populates
nature and what is 'really there'." (Thomas Kuhn, "The Structure of
Scientific Revolutions", 1962)
"Probabilities must be regarded as analogous to the measurement of physical magnitudes; that is to say, they can never be known exactly, but only within certain approximation." (Félix E Borel, "Probabilities and Life", 1962)
"The most important maxim for data analysis to heed, and one which many statisticians seem to have shunned is this: ‘Far better an approximate answer to the right question, which is often vague, than an exact answer to the wrong question, which can always be made precise.’ Data analysis must progress by approximate answers, at best, since its knowledge of what the problem really is will at best be approximate." (John W Tukey, "The Future of Data Analysis", Annals of Mathematical Statistics, Vol. 33, No. 1, 1962)
"Far better an approximate answer to the right question, which is often vague, than the exact answer to the wrong question, which can always be made precise." (John Tukey, "The Future of Data Analysis", Annals of Mathematical Statistics, Vol. 33, No. 1, 1962)
"Because engineering is science in action - the
practice of decision making at the earliest moment - it has been defined as the
art of skillful approximation. No situation in engineering is simple enough to
be solved precisely, and none worth evaluating is solved exactly. Never are
there sufficient facts, sufficient time, or sufficient money for an exact
solution, for if by chance there were, the answer would be of academic and not
economic interest to society. These are the circumstances that make engineering
so vital and so creative." (Ronald B Smith, "Engineering Is…",
Mechanical Engineering Vol. 86 (5), 1964)
"Each piece, or part, of the whole of nature is
always merely an approximation to the complete truth, or the complete truth so
far as we know it. In fact, everything we know is only some kind of approximation,
because we know that we do not know all the laws as yet. Therefore, things must
be learned only to be unlearned again or, more likely, to be corrected."
(Richard Feynman, "The Feynman Lectures on Physics" Vol. 1,1964)
"Engineering is the art of skillful approximation; the practice of gamesmanship in the highest form. In the end it is a method broad enough to tame the unknown, a means of combing disciplined judgment with intuition, courage with responsibility, and scientific competence within the practical aspects of time, of cost, and of talent." (Ronald B Smith, "Professional Responsibility of Engineering", Mechanical Engineering Vol. 86 (1), 1964)
"Measurement, we have seen, always has an element of error in it. The most exact description or prediction that a scientist can make is still only approximate." (Abraham Kaplan, "The Conduct of Inquiry: Methodology for Behavioral Science", 1964)
"A model is a qualitative or quantitative representation of a process or endeavor that shows the effects of those factors which are significant for the purposes being considered. A model may be pictorial, descriptive, qualitative, or generally approximate in nature; or it may be mathematical and quantitative in nature and reasonably precise. It is important that effective means for modeling be understood such as analog, stochastic, procedural, scheduling, flow chart, schematic, and block diagrams." (Harold Chestnut, "Systems Engineering Tools", 1965)
"One often hears that successive theories grow ever closer to, or approximate more and more closely to, the truth. Apparently, generalizations like that refer not to the puzzle-solutions and the concrete predictions derived from a theory but rather to its ontology, to the match, that is, between the entities with which the theory populates nature and what is ‘really there’." (Thomas S Kuhn, "The Structure of Scientific Revolutions", 1970)
"One grievous error in interpreting approximations
is to allow only good approximations." (Preston C Hammer, "Mind
Pollution", Cybernetics, Vol. 14, 1971)
"A conceptual model is neither idle nor faithful: it is, or rather it is supposed to be and so taken until further notice, an approximate representation of a real thing." (Mario Bunge, "Philosophy of Physics", 1972)
Previous Post <<||>> Next Post
No comments:
Post a Comment