Ludwig von Bertalanffy Quotes

Karl Ludwig von Bertalanffy was an Austrian biologist known as one of the founders of general systems theory . This is an interdisciplinary practice that describes systems with interacting components, applicable to biology, cybernetics and other fields. Bertalanffy proposed that the classical laws of thermodynamics might be applied to closed systems, but not necessarily to "open systems" such as living things. His mathematical model of an organism's growth over time, published in 1934, is still in use today.Bertalanffy grew up in Austria and subsequently worked in Vienna, London, Canada, and the United States. Wikipedia  

✵ 19. September 1901 – 12. June 1972
Ludwig von Bertalanffy: 65 quotes1 like

Famous Ludwig von Bertalanffy Quotes

“It is an empirical rule that living, evolutionary, psychological, social, etc., systems tend toward increasing differentiation and organization.”

Ludwig von Bertalanffy

Attributed to Bertalanffy (1929) in: Julia Kristeva et al. (1971) Essays in Semiotics. p. 200
1920s

Ludwig von Bertalanffy: Trending quotes

“(a) There is a general tendency towards integration in the various sciences, natural and social. (b) Such integration seems to be centered in a general theory of systems. (c) Such theory may be an important means of aiming at exact theory in the nonphysical fields of science. (d) Developing unifying principles running "vertically" through the universe of the individual sciences, this theory brings us nearer to the goal of the unity of sciences. (e) This can lead to a much needed integration in scientific education.”

Ludwig von Bertalanffy

Variant: Mayor aims of general theory: <br>(1) There is a general tendency toward integration in the various sciences, natural and social. <br>(2) Such integration seems to be centered in a general theory of systems. <br>(3) Such theory may be an important means for aiming at exact theory in the nonphysical fields of science. <br> (4) Developing unifying principles running &quot;vertically&quot; through the universe of the individual sciences, this theory brings us nearer the goal of the unity of science. <br> (5) This can lead to a much-needed integration in scientific education. <br class="br">Source: 1950s, &quot;General systems theory,&quot; 1956, p. 38, cited in: Alexander Laszlo and Stanley Krippner (1992) &quot; Systems Theories: Their Origins, Foundations, and Development http://archive.syntonyquest.org/elcTree/resourcesPDFs/SystemsTheory.pdf&quot; In: J.S. Jordan (Ed.), Systems Theories and A Priori Aspects of Perception. Amsterdam: Elsevier Science, 1998. Ch. 3, pp. 47-74.

Ludwig von Bertalanffy Quotes

“Wholeness [Ganzheit], Gestalt, is the primary attribute of life.”

Ludwig von Bertalanffy

Source: 1920s, Kritische Theorie der Formbildung (1928, 1933), p. 225; as cited in: Manfred Drack (2008). &quot; Ludwig von Bertalanffy&#x27;s Early System Approach http://journals.isss.org/index.php/proceedings52nd/article/viewFile/1032/322&quot;

“If the variables are continuous, this definition [Ashby’s fundamental concept of machine] corresponds to the description of a dynamic system by a set of ordinary differential equations with time as the independent variable. However, such representation by differential equations is too restricted for a theory to include biological systems and calculating machines where discontinuities are ubiquitous.”

Ludwig von Bertalanffy

Source: General System Theory (1968), 4. Advances in General Systems Theory, p. 96, as cited in: Vincent Vesterby (2013) From Bertalanffy to Discipline-Independent-Transdisciplinarity http://journals.isss.org/index.php/proceedings56th/article/viewFile/1886/672

“The stream of life is maintained only in continuous flow of matter through all groups of organisms.”

Ludwig von Bertalanffy

Source: 1950s, Problems of Life (1952, 1960), p. 52)

“A general proof is difficult because of the lack of general criteria for the existence of steady states, but it can be given for special cases.”

Ludwig von Bertalanffy

Source: General System Theory (1968), 5. The Organism Considered as Physical System, p. 132

“Biological communities are systems of interacting components and thus display characteristic properties of systems, such as mutual interdependence, self-regulation, adaptation to disturbances, approach to states of equilibrium, etc.”

Ludwig von Bertalanffy

As cited in: Debora Hammond (2005). "Philosophical and Ethical Foundations of Systems Thinking", in: tripleC 3(2): pp. 20–27.
1950s, Problems of Life (1952, 1960)

“The characteristic of the organism is first that it is more than the sum of its parts and second that the single processes are ordered for the maintenance of the whole.”

Ludwig von Bertalanffy

Source: 1920s, Kritische Theorie der Formbildung (1928, 1933), p. 305; as cited in: Cliff Hooker ed. (2011) Philosophy of Complex Systems. p. 189

“Topology or relational mathematics, including non-metrical fields such as network and graph theory.”

Ludwig von Bertalanffy

General System Theory (1968), 4. Advances in General Systems Theory

“While we can conceive of a sum [or aggregate] as being composed gradually, a system as a total of parts with its [multiplicative] interrelations has to be conceived of as being composed instantly.”

Ludwig von Bertalanffy

Source: General System Theory (1968), 3. Some System Concepts in Elementary Mathematical Consideration, p. 55 as cited in: Anthony Wilden (2003) System and Structure: Essays in Communication and Exchange. p. 245

“You cannot sum up the behavior of the whole from the isolated parts, and you have to take into account the relations between the various subordinate systems which are super-ordinated to them in order to understand the behavior of the parts.”

Ludwig von Bertalanffy

Source: General System Theory (1968), 3. Some System Concepts in Elementary Mathematical Consideration, p. 68 cited in: T.E. Weckowicz (1989). Ludwig von Bertalanffy (1901-1972): A Pioneer of General Systems Theory. Working paper Feb 1989. p. 2

“We are confronted with problems of organized complexity… organization runs through all levels of reality and science.”

Ludwig von Bertalanffy

Source: 1960s, Robots, Men and Minds (1967), p. 58. as cited in: Doede Keuning (1973) Algemene systeemtheorie. p. 185

“Apparently, the isomorphisms of laws rest in our cognition on the one hand, and in reality on the other.”

Ludwig von Bertalanffy

Source: General System Theory (1968), 4. Advances in General Systems Theory, p. 82

“What in the whole denotes a causal equilibrium process, appears for the part as a teleological event.”

Ludwig von Bertalanffy

Bertalanffy (1929, p. 306) cited in: Cliff Hooker ed. (2011) Philosophy of Complex Systems. p. 190
1920s

“The characteristic of life does not lie in a distinctiveness of single life processes. [Lebensvorgänge], but rather in a certain order among all the processes.”

Ludwig von Bertalanffy

Source: 1930s, L. von Bertalanffy (1934). &quot;Wandlungen des biologischen Denkens&quot;, Neue Jahrbücher für Wissenschaft und Jugendbildung, 10:339-366; as cited in Manfred Drack (2008). &quot; Ludwig von Bertalanffy&#x27;s Early System Approach http://journals.isss.org/index.php/proceedings52nd/article/viewFile/1032/322&quot;

“What we call growth of even a simple organism is a tremendously complex phenomenon from the biochemical, physiological, cytological, and morphological viewpoints.”

Ludwig von Bertalanffy

Von Bertalanffy (1957) "Quantitative laws in metabolism and growth" in: Quarterly Review of Biology 32(1957), p. 217
1950s

“Science in the past (and partly in the present), was dominated by one-sided empiricism. Only a collection of data and experiments were considered as being ‘scientific’ in biology (and psychology); forgetting that a mere accumulation of data, although steadily piling up, does not make a science.”

Ludwig von Bertalanffy

Source: General System Theory (1968), 4. Advances in General Systems Theory, p. 100 cited in: Edward Goldsmith (1970-73/2013) Towards a Unified Science http://www.edwardgoldsmith.org/598/

“From the physical point of view the characteristic state of the living organism is that of an open system. A system is closed if no material enters or leaves it; it is open if there is import and export and, therefore, change of the components. Living systems are open systems, maintaining themselves in exchange of materials with environment, and in continuous building up and breaking down of their components.”

Ludwig von Bertalanffy

Von Bertalanffy (1950) &quot; The Theory of Open Systems in Physics and Biology http://vhpark.hyperbody.nl/images/a/aa/Bertalanffy-The_Theory_of_Open_Systems_in_Physics_and_Biology.pdf&quot; In: Science, January 13, 1950, Vol. 111. p. 23 <br class="br">1950s

“Progress is only possible by passing from a state of undifferentiated wholeness to differentiation of parts.”

Ludwig von Bertalanffy

Source: General System Theory (1968), 3. Some System Concepts in Elementary Mathematical Consideration, p. 69

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