Mathematical Modelling with Case Studies

Name: Mathematical Modelling with Case Studies
Brand: Taylor & Francis Ltd
SKU: 9781032920719
Price: 69.99 EUR
Availability: InStock

★★★★★

€69.99

Product variants

A01=B. Barnes

A01=G..R. Fulford

Age Group_Uncategorized

Arbitrary Constant

Author_B. Barnes

Author_G..R. Fulford

automatic-update

Blue Army

Category1=Non-Fiction

Category=PBKJ

Category=PBWH

Compartmental Diagram

compartmental models

Competition Model

COP=United Kingdom

Delivery_Pre-order

Density Dependent Growth

Density Dependent Transmission

development and interpretation of mathematical models

Differential Equations

differential equations problems

eq_isMigrated=2

Equilibrium Points

Equilibrium Solutions

Equilibrium Temperature

flow diagrams and word equations

growth and decay processes

Heat Fin

Heat Flux

heat transfer problems

heating and cooling problems

Input Output Diagram

interacting populations

Language_English

Lotka Volterra Equations

Maple and MATLAB for Mathematical Modeling

Maple Code

mathematical model building

MATLAB Code

Newton Cooling

PA=Not yet available

Per-capita Death Rate

Per-capita Growth Rate

Phase Plane Diagram

population models

Predator Prey Model

Price_€50 to €100

PS=Forthcoming

Rate Heat

Si Unit

softlaunch

Stray Dogs

Water Heater

Product details

ISBN 9781032920719
Weight: 720g
Dimensions: 178 x 254mm
Publication Date: 14 Oct 2024
Publisher: Taylor & Francis Ltd
Publication City/Country: GB
Product Form: Paperback
Language: English

Delivery/Collection within 10-20 working days

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Mathematical Modelling with Case Studies: Using Maple™ and MATLAB®, Third Edition provides students with hands-on modelling skills for a wide variety of problems involving differential equations that describe rates of change. While the book focuses on growth and decay processes, interacting populations, and heating/cooling problems, the mathematical techniques presented can be applied to many other areas.

The text carefully details the process of constructing a model, including the conversion of a seemingly complex problem into a much simpler one. It uses flow diagrams and word equations to aid in the model-building process and to develop the mathematical equations. Employing theoretical, graphical, and computational tools, the authors analyze the behavior of the models under changing conditions. The authors often examine a model numerically before solving it analytically. They also discuss the validation of the models and suggest extensions to the models with an emphasis on recognizing the strengths and limitations of each model.

The highly recommended second edition was praised for its lucid writing style and numerous real-world examples. With updated Maple™ and MATLAB® code as well as new case studies and exercises, this third edition continues to give students a clear, practical understanding of the development and interpretation of mathematical models.

B. Barnes is a director in the Australian Government Research Bureau and a visiting fellow at the National Centre for Epidemiology and Population Health at the Australian National University, Canberra. She has published work in a number of applied areas, such as bifurcation theory, population dynamics, carbon sequestration, biological processes, and disease transmission.

G.R. Fulford was recently a research associate and senior lecturer in applicable mathematics at the Queensland University of Technology. He has published several textbooks on mathematical modeling and industrial mathematics as well as other work in areas, such as mucus transport, spermatozoa propulsion, infectious disease modeling, tuberculosis in possums, tear-flow dynamics in the eye, and population genetics.