Normal view MARC view
  • Nonlinear Dynamics

Entry Topical Term

Number of records used in: 2

001 - CONTROL NUMBER

  • control field: 101122

003 - CONTROL NUMBER IDENTIFIER

  • control field: TR-AnTOB

005 - DATE AND TIME OF LATEST TRANSACTION

  • control field: 20200520111024.0

008 - FIXED-LENGTH DATA ELEMENTS

  • fixed length control field: 161231n|eazcnnaab| |a aaa

035 ## - SYSTEM CONTROL NUMBER

  • System control number: (DNLM)D017711

035 ## - SYSTEM CONTROL NUMBER

  • System control number: (TR-AnTOB)290286

035 ## - SYSTEM CONTROL NUMBER

  • System control number: 101122

040 ## - CATALOGING SOURCE

  • Original cataloging agency: DNLM
  • Transcribing agency: DNLM
  • Modifying agency: TR-AnTOB
  • Subject heading/thesaurus conventions: mesh

072 ## - SUBJECT CATEGORY CODE

  • Subject category code: E5.
  • Subject category code subdivision: 599.
  • Subject category code subdivision: 850

072 ## - SUBJECT CATEGORY CODE

  • Subject category code: H1.
  • Subject category code subdivision: 548.
  • Subject category code subdivision: 675

150 ## - HEADING--TOPICAL TERM

  • Topical term or geographic name entry element: Nonlinear Dynamics

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Non-linear Dynamics
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Non-linear Models
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Chaos Theory

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Models, Nonlinear

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Chaos Theories
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Dynamics, Non-linear
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Dynamics, Nonlinear
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Model, Non-linear
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Model, Nonlinear
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Models, Non-linear
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Non linear Dynamics
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Non linear Models
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Non-linear Dynamic
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Non-linear Model
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Nonlinear Dynamic
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Nonlinear Model
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Nonlinear Models
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Theories, Chaos
  • Control subfield: nnna

450 ## - SEE FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Theory, Chaos
  • Control subfield: nnna

550 ## - SEE ALSO FROM TRACING--TOPICAL TERM

  • Topical term or geographic name entry element: Fractals

680 ## - PUBLIC GENERAL NOTE

  • Explanatory text: The study of systems which respond disproportionately (nonlinearly) to initial conditions or perturbing stimuli. Nonlinear systems may exhibit "chaos" which is classically characterized as sensitive dependence on initial conditions. Chaotic systems, while distinguished from more ordered periodic systems, are not random. When their behavior over time is appropriately displayed (in "phase space"), constraints are evident which are described by "strange attractors". Phase space representations of chaotic systems, or strange attractors, usually reveal fractal (FRACTALS) self-similarity across time scales. Natural, including biological, systems often display nonlinear dynamics and chaos.

688 ## - APPLICATION HISTORY NOTE

  • Institution to which field applies: TR-AnTOB
  • Application history note: Op 20.05.2020

750 ## - ESTABLISHED HEADING LINKING ENTRY--TOPICAL TERM

  • Authority record control number or standard number: https://id.nlm.nih.gov/mesh/D017711
  • Source of heading or term: mesh
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