973 resultados para Galilei, Galileo (1564-1642)
Resumo:
El pie de imp. consta en colofón
Resumo:
El pie de imp. consta en colofón
Resumo:
El texto esta firmado por el doctor Mayoral, que fué Arzobispo de Valencia entre 1738 y 1769
Resumo:
The height at which an unloaded column will fail under its own weight was calculated for first time by Galileo for cylindrical columns. Galileo questioned himself if there exists a shape function for the cross-section of the column with which the latter can attains a greater height than the cylindrical column. The problem is not solved since then, although the definition of the so named “constant maximum strength” solids seems to give an affirmative answer to Galileo’s question, in the form of shapes than can attains infinite height, even when loaded with a useful load at the top. The main contribution of this work is to show that Galileo’s problem is (i) an important problem for structural design theory of buildings and other structures, (ii) not solved by the time being in any sense and (iii) a interesting problem for mathematicians involved in related but very different problems (as Euler’s tallest column). A contemporary formulation of the problem is included as a result of a research on the subject.
Resumo:
Inarco Celenio es seud. de Leandro Fernández de Moratin
Resumo:
Il. xil
Resumo:
Copia digital: Biblioteca Valenciana, 2011
Resumo:
Copia digital: Biblioteca Valenciana, 2011
Resumo:
Copia digital: Biblioteca Valenciana, 2011
Resumo:
Galileo postulated the existence of an insurmountable size for stone columns bearing a useful load as the size for which the structure is only able to resist its self-weight. Herein a method for the determination of the unsurmountable size for truss-like structures is shown, given the form of these structures and the ratio between the allowable stress and the specific weight of the material (the material structural scope). Three types of bars are considered: straight bars, with solid and hollow rectangular cross-section, and catenary bars with circular cross-section —a limit and theoretical case for estimating a meaningful upper bound of the structural scope—. An approximate rule to estimate the structural efficiency —here named GA rule— is shown, and is compared with numerical solutions using the proposed method.
Resumo:
Índice
Resumo:
En v. de h. 5 consta la fecha de 1609
Resumo:
Port. con esc. real xil
Resumo:
Sign.: A-F2
Resumo:
Sign.: []2, B-D2