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APPLICATION OF NUMERICAL METHODS IN CIVIL ENGINEERING

Original price was: ₹550.00.Current price is: ₹500.00.

Authors: Prof H Sudarsana Rao , Prof Vaishali G Ghorpade

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ISBN: 978-93-6096-639-3 Category:
Description
Additional information

Numerical methods have become indispensable tools in the fields of science, engineering, and data analysis. They provide
powerful techniques for solving complex mathematical problems that are often intractable by analytical means. This book, titled Application of Numerical Methods in Civil Engineering is designed to offer a comprehensive exploration of these techniques, from fundamental concepts to advanced applications, making it a valuable resource for students, researchers, and professionals. The first chapter, “Fundamentals of Numerical Methods,” introduces the significance of numerical methods in solving mathematical problems. It provides a brief history and development of these methods and underscores their importance in various fields. The chapter also delves into numerical errors and their impact on computations, covering types of errors, error analysis, and practical applications through case studies with Python implementations.

In the second chapter, “Algebraic Methods in Numerical Analysis,” readers will find detailed explanations of key algebraic techniques such as Gaussian elimination, the Gauss-Jordan method, and the Gauss-Seidel method. The chapter further explores LU decomposition and sparse matrix techniques for large-scale problems, complemented by practical case studies implemented in Python.

The third chapter, “Computational Techniques for Roots and Optimization,” covers methods for finding roots and optimizing functions. Techniques such as the bisection method, Newton- Raphson method, secant method, Muller’s method, inverse quadratic interpolation, and Brent’s method are discussed in depth, providing a solid foundation for tackling these types of problems. Chapter four, “Interpolation and Approximation,” focuses on various interpolation techniques and approximation methods. It includes Lagrange interpolation, Newton’s divided difference interpolation, Newton’s forward and backward interpolations, spline interpolation, least square approximation, and Chebyshev
approximation. These methods are crucial for constructing new data points within the range of known data points.
The final chapter, “Structural Analysis and Design,” addresses critical aspects of structural engineering using numerical methods. It introduces the Finite Element Method (FEM), covering its basics and the role of partial differential equations (PDEs) in FEM. The chapter explores the classification of PDEs, beam and frame analysis, and plate and shell structures, including their behavior and analysis. It also delves into numerical methods in plate and shell analysis, highlighting the Galerkin method and its applications.

Additionally, nonlinear structural analysis is discussed with a focus on the Newton-Raphson method in this context.
This book aims to provide a thorough understanding of numerical methods and their practical applications, equipping readers with the knowledge and skills to apply these techniques to real-world problems. The inclusion of Python implementations ensures that readers can translate theoretical concepts into practical solutions, making this book a valuable guide for anyone looking to master  numerical methods and their applications.

Format

Paperback

Language

English

No. of Pages

237