Detalles MARC
| 000 -ENCABEZADO |
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| Número de control [NR] |
05095cam a2200349Ii 4500 |
| 001 - NÚMERO DE CONTROL |
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| control field |
ocn939404932 |
| 003 - IDENTIFICADOR DE CONTROL NÚMERO |
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| control field |
OCoLC |
| 005 - FECHA Y HORA DE LA ÚLTIMA TRANSACCIÓN |
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| control field |
20200311124333.0 |
| 008 - DE LONGITUD FIJA DE DATOS DE ELEMENTOS - INFORMACIÓN GENERAL |
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| Elementos de longitud fija [NR] |
170816s2016 xxu r 001 0 eng d |
| 020 ## - NUMERO INTERNACIONAL NORMALIZADO PARA LIBROS [R] |
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| Número Internacional Normalizado del libro [NR] |
9789812878786 |
| 035 ## - NUMERO DE CONTROL DEL SISTEMA [R] |
|---|
| Número de control del sistema [NR] |
(OCoLC)939404932 |
| Numero Cancelado/no válido [R] |
(OCoLC)940438523 |
| -- |
(OCoLC)985038394 |
| 040 ## - FUENTE DE CATALOGACION [NR] |
|---|
| Agencia de catalogación original [NR] |
Co-BoUCM |
| Idioma de catalogación [NR] |
spa |
| Quien Cataloga |
Deissy Garcia (modificó) |
| Quien Clasifica |
Sandra Palacio |
| 041 0# - CODIGO DE IDIOMA [R] |
|---|
| Código de idioma para texto/pista de sonido o título separado [R] |
Inglés |
| 100 1# - ASIENTO PRINCIPAL--NOMBRE PERSONAL [NR] |
|---|
| Nombre personal [NR] |
Peterson, James K. |
| Forma más completa del nombre [NR] |
(James Kent) |
| ID Autoridad |
86869 |
| 245 10 - MENCION DE TITULO [NR] |
|---|
| Título [NR] |
Calculus for cognitive scientists |
| Parte restante del título [NR] |
partial differential equation models |
| Mención de responsabilidad, etc. [NR] |
James K. Peterson |
| 260 ## - PUBLICACION, DISTRIBUCION, ETC. (PIE DE IMPRENTA) [R] |
|---|
| Lugar de publicación, distribución, etc. [R] |
Clamson (Carolina del Sur, Estados Unidos) |
| Nombre del editor, distribuidor, etc. [R] |
Springer |
| Fecha de publicación, distribución, etc. [R] |
2016 |
| 300 ## - DESCRIPCION FISICA [R] |
|---|
| Extensión [R] |
xxxi, 534 páginas |
| 490 0# - MENCION DE SERIE [R] |
|---|
| Mención de serie [R] |
Cognitive science and technology |
| ISBN [NR] |
2195-3996 |
| 505 0# - NOTA DE CONTENIDO CON FORMATO PREESTABLECIDO [R] |
|---|
| Nota de contenido con formato preestablecido [NR] |
Acknowledgments; Contents; List of Figures; List of Tables; List of Code Examples; Abstract; History; Part I Introductory Matter; 1 Introduction; 1.1 Chapter Guide; 1.2 Code; References; Part II Quantitative Tools; 2 Graham -- Schmidt Orthogonalization; 2.1 Numerical Integration; 2.1.1 Evaluating Smk; 2.1.2 Homework; 2.1.3 Matlab Implementation; 2.1.4 Run Time Output; 2.2 Linearly Independent Functions; 2.2.1 Functions; 2.2.2 Homework; 2.3 Vector Spaces and Basis; 2.4 Inner Products; 2.5 Graham -- Schmidt Orthogonalization; 2.5.1 Making It Formal; 2.5.2 General MatLab GSO; Reference. |
| 505 8# - NOTA DE CONTENIDO CON FORMATO PREESTABLECIDO [R] |
|---|
| Nota de contenido con formato preestablecido [NR] |
3 Numerical Differential Equations3.1 Approximating Solutions Numerically; 3.1.1 Expansions of F; 3.1.2 Minimizing Error; 3.1.3 The Matlab Implementation; 3.2 Runge -- Kutta Fehlberg Methods; 3.2.1 The RKF5 Flowchart; 3.2.2 Runge -- Kutta Fehlberg MatLab Implementation; References; Part III Deriving the Cable Model; 4 Biological Molecules; 4.1 Molecular Bonds; 4.1.1 Bond Comparisons; 4.2 Energy Considerations; 4.3 Hydrocarbons; 4.4 Amino Acids; 4.5 Peptide Bonds; 4.6 Chains of Amino Acids; 4.7 Nucleic Acids; 4.7.1 Sugars; 4.7.2 Nucleotides; 4.7.3 Complementary Base Pairing; 4.8 Making Proteins. |
| 505 8# - NOTA DE CONTENIDO CON FORMATO PREESTABLECIDO [R] |
|---|
| Nota de contenido con formato preestablecido [NR] |
5 Ion Movement5.1 Membranes in Cells; 5.2 The Physical Laws of Ion Movement; 5.2.1 Ficke's Law of Diffusion; 5.2.2 Ohm's Law of Drift; 5.2.3 Einstein's Relation; 5.2.4 Space Charge Neutrality; 5.2.5 Ions, Volts and a Simple Cell; 5.3 The Nernst -- Planck Equation; 5.4 Equilibrium Conditions: The Nernst Equation; 5.4.1 An Example; 5.5 One Ion Nernst Computations in MatLab; 5.5.1 Homework; 5.6 Electrical Signaling; 5.6.1 The Cell Prior to K Gates; 5.6.2 The Cell with K+ Gates; 5.6.3 The Cell with NaCl Inside and Outside Changes; 5.6.4 The Cell with Na+ Gates. |
| 505 8# - NOTA DE CONTENIDO CON FORMATO PREESTABLECIDO [R] |
|---|
| Nota de contenido con formato preestablecido [NR] |
5.6.5 The Nernst Equation for Two Ions5.6.6 The Nernst Equation for More Than Two Ions; 5.6.7 Multiple Ion Nernst Computations in MatLab; 5.7 Ion Flow; 5.7.1 Transport Mechanisms; 5.7.2 Ion Channels; 5.7.3 Active Transport Using Pumps; 5.7.4 A Simple Compartment Model; 5.8 Movement of Ions Across Biological Membranes; 5.8.1 Membrane Permeability; 5.8.2 The Goldman -- Hodgkin -- Katz (GHK) Model; 5.8.3 The GHK Voltage Equation; 5.8.4 Examples; 5.8.5 The Effects of an Electrogenic Pump; 5.9 Excitable Cells; References; 6 Lumped and Distributed Cell Models; 6.1 Modeling Radial Current. |
| 505 8# - NOTA DE CONTENIDO CON FORMATO PREESTABLECIDO [R] |
|---|
| Nota de contenido con formato preestablecido [NR] |
6.2 Modeling Resistance6.3 Longitudinal Properties; 6.4 Current in a Cable with a Thin Wall; 6.5 The Cable Model; 6.5.1 The Core Conductor Model Assumptions; 6.5.2 Building the Core Conductor Model; 6.6 The Transient Cable Equations; 6.6.1 Deriving the Transient Cable Equation; 6.6.2 The Space and Time Constant of a Cable; 7 Time Independent Solutions to Infinite Cables; 7.1 The Infinite Cable; 7.2 Solving the Time Independent Infinite Cable Equation; 7.2.1 Variation of Parameters; 7.3 Modeling Current Injections; 7.3.1 Continuity in the Solution; 7.3.2 Continuity in the Derivative. |
| 520 ## - NOTA DE RESUMEN, ETC. [R] |
|---|
| Nota de sumario, etc. [NR] |
This book shows cognitive scientists in training how mathematics, computer science and science can be usefully and seamlessly intertwined. It is a follow-up to the first two volumes on mathematics for cognitive scientists, and includes the mathematics and computational tools needed to understand how to compute the terms in the Fourier series expansions that solve the cable equation. The latter is derived from first principles by going back to cellular biology and the relevant biophysics. A detailed discussion of ion movement through cellular membranes, and an explanation of how the equations that govern such ion movement leading to the standard transient cable equation are included. There are also solutions for the cable model using separation of variables, as well an explanation of why Fourier series converge and a description of the implementation of MatLab tools to compute the solutions. Finally, the standard Hodgkin - Huxley model is developed for an excitable neuron and is solved using MatLab. |
| 650 17 - ASIENTO SECUNDARIO DE MATERIA - TERMINO TEMATICO [R] |
|---|
| Término temático o nombre geográfico como elemento de entrada [NR] |
Cálculo |
| 9 (RLIN) |
10288 |
| 650 27 - ASIENTO SECUNDARIO DE MATERIA - TERMINO TEMATICO [R] |
|---|
| Término temático o nombre geográfico como elemento de entrada [NR] |
Ecuaciones diferenciales parciales |
| 9 (RLIN) |
13740 |
| 650 27 - ASIENTO SECUNDARIO DE MATERIA - TERMINO TEMATICO [R] |
|---|
| Término temático o nombre geográfico como elemento de entrada [NR] |
Matemáticas |
| Subdivisión general [R] |
Cálculo |
| 9 (RLIN) |
19031 |
| 650 27 - ASIENTO SECUNDARIO DE MATERIA - TERMINO TEMATICO [R] |
|---|
| Término temático o nombre geográfico como elemento de entrada [NR] |
Redes neurales (Computadores) |
| 9 (RLIN) |
23249 |
| 650 27 - ASIENTO SECUNDARIO DE MATERIA - TERMINO TEMATICO [R] |
|---|
| Término temático o nombre geográfico como elemento de entrada [NR] |
Inteligencia artificial |
| 9 (RLIN) |
17844 |
| 942 ## - ELEMENTOS DE ENTRADA AGREGADOS (KOHA) |
|---|
| Sistema de clasificación |
DEWEY |
| Tipo de ítem principal el descrito en 300a |
Libro |
| Tema principal |
Ciencias puras |
| Edición |
1 |
| Clasificación |
515.3 |
| Parte restante de la signatura top. |
P485cc |
| Título oculto en OPAC |
No |