Frases de Morris Kline

Morris Kline fue profesor de matemáticas, escritor de historia, filosofía y enseñanza de las matemáticas, y un gran divulgador de temas matemáticos. Wikipedia  

✵ 1. mayo 1908 – 10. junio 1992
Morris Kline: 42   frases 0   Me gusta

Morris Kline: Frases en inglés

“The Greeks failed to comprehend the infinitely large, the infinitely small, and infinite processes.”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 57
Contexto: The Greeks failed to comprehend the infinitely large, the infinitely small, and infinite processes. They "shrank before the silence of the infinite spaces."

“The method has the form of the now-standard method of differential calculus, though it begs entirely the difficult theory of limits.”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 346
Contexto: Fermat applied his method of tangents to many difficult problems. The method has the form of the now-standard method of differential calculus, though it begs entirely the difficult theory of limits.

“For these proofs Heron gave new proofs that avoided extending the lines, in order to meet the objection of anyone who would deny that the space was available for the extension.”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 177
Contexto: Closely related to the problem of the parallel postulate is the problem of whether physical space is infinite. Euclid assumes in Postulate 2 that a straight-line segment can be extended as far as necessary; he uses this fact, but only to find a larger finite length—for example in Book I, Propositions 11, 16, and 20. For these proofs Heron gave new proofs that avoided extending the lines, in order to meet the objection of anyone who would deny that the space was available for the extension.

“The attempt to avoid a direct affirmation about infinite parallel straight lines caused Euclid to phrase the parallel axiom in a rather complicated way. He realized that, so worded, this axiom lacked the self-sufficiency of the other nine axioms, and there is good reason to believe that he avoided using it until he had to. Many Greeks tried to find substitute axioms for the parallel axiom or to prove it on the basis of the other nine. …Simplicius”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 177
Contexto: The attempt to avoid a direct affirmation about infinite parallel straight lines caused Euclid to phrase the parallel axiom in a rather complicated way. He realized that, so worded, this axiom lacked the self-sufficiency of the other nine axioms, and there is good reason to believe that he avoided using it until he had to. Many Greeks tried to find substitute axioms for the parallel axiom or to prove it on the basis of the other nine.... Simplicius cites others who worked on the problem and says further that people "in ancient times" objected to the use of the parallel postulate.

“The relationship of point to line”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 176
Contexto: The relationship of point to line bothered the Greeks and led Aristotle to separate the two. Though he admits points are on lines, he says that a line is not made up of points and that the continuous cannot be made up of the discrete. This distinction contributed also to the presumed need for separating number from geometry, since to the Greeks numbers were discrete and geometry dealt with continuous magnitudes.

“To avoid any assertion about the infinitude of the straight line, Euclid says a line segment”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 175
Contexto: To avoid any assertion about the infinitude of the straight line, Euclid says a line segment (he uses the word "line" in this sense) can be extended as far as necessary. Unwillingness to involve the infinitely large is seen also in Euclid's statement of the parallel axiom. Instead of considering two lines that extend to infinity and giving a direct condition or assumption under which parallel lines might exist, his parallel axiom gives a condition under which two lines will meet at some finite point.

“Closely related to the problem of the parallel postulate is the problem of whether physical space is infinite. Euclid assumes”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 177
Contexto: Closely related to the problem of the parallel postulate is the problem of whether physical space is infinite. Euclid assumes in Postulate 2 that a straight-line segment can be extended as far as necessary; he uses this fact, but only to find a larger finite length—for example in Book I, Propositions 11, 16, and 20. For these proofs Heron gave new proofs that avoided extending the lines, in order to meet the objection of anyone who would deny that the space was available for the extension.

“He had doubted the correctness of the law of refraction of light but when he found in 1661 that he could deduce it from his Principle, he not only resolved his doubts about the law but felt all the more certain that his Principle was correct.”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 580
Contexto: Fermat knew that under reflection light takes the path requiring least time and, convinced that nature does indeed act simply and economically, affirmed in letters of 1657 and 1662 his Principle of Least Time, which states that light always takes the path requiring least time. He had doubted the correctness of the law of refraction of light but when he found in 1661 that he could deduce it from his Principle, he not only resolved his doubts about the law but felt all the more certain that his Principle was correct.... Huygens, who had at first objected to Fermat's Principle, showed that it does hold for the propagation of light in media with variable indices of refraction. Even Newton's first law of motion, which states that the straight line or shortest distance is the natural motion of a body, showed nature's desire to economize. These examples suggested that there might be a more general principle. The search for such a principle was undertaken by Maupertuis.

“The Pythagoreans associated good and evil with the limited and unlimited, respectively.”

Fuente: Mathematical Thought from Ancient to Modern Times (1972), p. 175

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