Data Fitting in the Chemical Sciences: By the Method of Least Squares / Edition 1

Data Fitting in the Chemical Sciences: By the Method of Least Squares / Edition 1

by Peter Gans, P. Gans, Gans
     
 

ISBN-10: 0471934127

ISBN-13: 9780471934127

Pub. Date: 11/11/1992

Publisher: Wiley

Data Fitting in the Chemical Sciences Peter Gans, School of Chemistry, The University of Leeds, Leeds, UK Data fitting is a technique of central importance in modern experimental science. It is the means by which data is tested against a model of the experimental system, be it a theoretical or empirical model. In this book an all-round approach is adopted in which

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Overview

Data Fitting in the Chemical Sciences Peter Gans, School of Chemistry, The University of Leeds, Leeds, UK Data fitting is a technique of central importance in modern experimental science. It is the means by which data is tested against a model of the experimental system, be it a theoretical or empirical model. In this book an all-round approach is adopted in which the first stage of data-fitting is seen as data collection, the second is numerical processing and the third a critical evaluation of the 'goodness' of fit in both statistical and common sense terms. Each stage is considered in detail: the sources and nature of experimental errors; the theory of least-squares fitting; probability theory; hypothesis testing, and the application of scientific criteria. The theory is complemented by three chapters on a wide range of applications. The emphasis of this book is on methodology: why certain procedures are preferred rather than how any one procedure is implemented. The author aims to assist people in extracting from their data its full information content, i.e. to use their data, not abuse it.

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Product Details

ISBN-13:
9780471934127
Publisher:
Wiley
Publication date:
11/11/1992
Pages:
270
Product dimensions:
6.14(w) x 9.29(h) x 0.87(d)

Table of Contents

Observational Errors.

Linear Least Squares.

Non-Linear Least Squares.

Formulation and Selection of Models.

Criteria for Model Selection.

Polynomials.

Fitting Functions.

Fourier Transform Techniques.

Potentiometric Titrations.

Appendices.

References and Additional Reading.

Index.

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