Adobe Animate CC Classroom in a Book by Russell Chun is a comprehensive guide to creating interactive animations and multimedia content using Adobe Animate CC. With step-by-step instructions and hands-on projects, this book teaches you how to design and publish animations for the web, mobile devices, and more. Whether you're a beginner or an experienced animator, you'll find valuable tips and techniques to enhance your skills in Adobe Animate CC.
Aspiring animators who want to learn how to use Adobe Animate CC
Graphic designers looking to expand their skill set with animation
Web developers who want to create interactive and engaging content for their websites
Computational Fourier Optics by David G. Voelz provides a comprehensive introduction to the principles and applications of Fourier optics. It covers topics such as diffraction, Fourier transforms, optical imaging systems, and digital holography, and explores how computational methods can be used to analyze and design optical systems. With clear explanations and practical examples, this book is a valuable resource for students and researchers in the field of optics and photonics.
Students and professionals in the field of optics and photonics
Researchers and engineers working on wave optics and imaging systems
Individuals interested in computational methods for simulating optical phenomena
Digital Dice by Paul J. Nahin explores the fascinating world of probability and randomness through the lens of computer simulation. Using examples ranging from gambling to nuclear weapons testing, the book delves into the power of Monte Carlo methods in solving complex problems. It offers an engaging and accessible read for anyone interested in the intersection of mathematics and technology.
Readers with an interest in probability and statistics
Math enthusiasts looking to apply computational methods to solve complex problems
Students or professionals in fields such as engineering, finance, or data science
Engineering Computation with MATLAB by David M. Smith provides a comprehensive introduction to using MATLAB for engineering problem-solving. It covers a wide range of topics including numerical methods, plotting and data visualization, and symbolic math. The book also includes numerous examples and exercises to help readers apply MATLAB to real-world engineering problems.
Students and professionals in engineering and related fields who want to learn how to use MATLAB for computational problem-solving
Individuals seeking a practical and hands-on approach to learning MATLAB programming
Readers interested in applying computational techniques to solve real-world engineering problems
Essentials of MATLAB Programming by Stephen J. Chapman provides a comprehensive introduction to MATLAB programming. It covers essential concepts such as data types, control structures, functions, and file input/output. The book also delves into more advanced topics like object-oriented programming and graphical user interfaces. With clear explanations and practical examples, it is a valuable resource for both beginners and experienced MATLAB users.
Students or professionals looking to learn or improve their MATLAB programming skills
Engineers, scientists, or researchers who need to use MATLAB for data analysis, simulation, or modeling
Individuals interested in gaining a strong foundation in programming and problem-solving using MATLAB
Fundamental Finite Element Analysis and Applications by M. Asghar Bhatti provides a comprehensive introduction to the theory and practical applications of finite element analysis (FEA). It covers the fundamental concepts, mathematical formulations, and implementation techniques of FEA, and also includes real-world examples and case studies to demonstrate its use in engineering and scientific problems. This book is a valuable resource for students, researchers, and professionals in the field of numerical analysis and computational engineering.
Engineering students or professionals seeking a comprehensive understanding of finite element analysis
Individuals looking to enhance their skills in structural and mechanical engineering
Readers interested in practical applications of mathematical and computational methods in engineering
Introduction to Numerical and Analytical Methods with MATLAB by William Bober provides a comprehensive introduction to the fundamental numerical and analytical techniques used in engineering and science. The book covers topics such as root finding, interpolation, numerical integration, differential equations, and more, all using MATLAB as the programming tool. It is a valuable resource for students and professionals looking to develop their computational skills.
Engineering students and professionals seeking a comprehensive understanding of numerical and analytical methods
Individuals looking to enhance their problem-solving skills using MATLAB
Readers interested in practical applications of mathematical concepts in engineering and scientific fields
MATLAB for Control Engineers by Katsuhiko Ogata provides a comprehensive introduction to using MATLAB for analyzing and designing control systems. With clear explanations and practical examples, the book guides control engineers through the process of applying MATLAB to solve control engineering problems. It covers topics such as system modeling, feedback control, frequency response analysis, and state-space techniques, making it an essential resource for anyone working in the field of control engineering.
Control engineers looking to enhance their MATLAB skills for system analysis and design
Students and educators in the fields of electrical, mechanical, or aerospace engineering
Professionals seeking practical guidance on using MATLAB for control system applications
Modern Control Design by Ashish Tewari provides a comprehensive overview of the principles and techniques used in modern control system design. The book covers topics such as state-space analysis, optimal control, and robust control, offering practical insights and examples to help engineers and students understand and apply these concepts in real-world scenarios.
Engineers and researchers seeking to understand and apply modern control design techniques
Students studying control systems, robotics, or aerospace engineering
Professionals looking to enhance their knowledge and skills in the field of control system design
Numerical Computing with MATLAB by Cleve B. Moler is a comprehensive guide that teaches readers how to use MATLAB for numerical analysis. It covers a wide range of topics including linear algebra, interpolation, differential equations, and more. With clear explanations and practical examples, this book is perfect for anyone looking to enhance their numerical computing skills using MATLAB.
Students studying numerical computing, computational mathematics, or scientific computing
Professionals in engineering, physics, or other technical fields who want to enhance their computational skills
Anyone looking to learn MATLAB for numerical analysis and problem-solving
Numerical Methods in Engineering with MATLAB by Jaan Kiusalaas provides a comprehensive introduction to numerical methods for engineering applications. The book covers a wide range of topics including root finding, interpolation, curve fitting, numerical integration, and differential equations. With MATLAB examples and exercises, it offers a practical approach to understanding and implementing numerical techniques in engineering problems.
Engineering students and professionals seeking to learn and apply numerical methods in their work
Individuals looking to gain a deeper understanding of how MATLAB can be used for engineering computations
Readers interested in practical examples and applications of numerical analysis in the field of engineering
Spectral Methods in MATLAB by Lloyd N. Trefethen provides a comprehensive introduction to spectral methods and their application in solving various mathematical problems. The book includes practical examples and MATLAB codes to demonstrate the implementation of spectral methods, making it a valuable resource for students and researchers in the field of numerical analysis and scientific computing.
Students and researchers in applied mathematics, engineering, and physics
Professionals in computational science and numerical analysis
Anyone interested in learning about spectral methods and their practical implementation in MATLAB
Undocumented Secrets of Matlab-Java Programming by Yair M. Altman delves into the hidden capabilities of Matlab and Java integration. It uncovers the undocumented features and techniques that can enhance your programming skills and empower you to create more efficient and powerful applications. Whether you are a beginner or an experienced programmer, this book will broaden your understanding of Matlab and Java integration.
Programmers and engineers who want to enhance their MATLAB applications with Java
Professionals looking to improve the user interface and functionality of their MATLAB programs
Individuals who are curious about the potential of integrating MATLAB and Java for advanced programming tasks
Getting Started with MATLAB 7 by Rudra Pratap is a comprehensive guide designed to help beginners learn MATLAB quickly and efficiently. It covers the basic concepts, syntax, and features of MATLAB 7, making it an ideal resource for students, engineers, and scientists who want to harness the power of this popular programming language for technical computing and data analysis.
Students or professionals in engineering, science, or mathematics looking to learn MATLAB for the first time
Those who want to understand the basics of programming and data analysis using MATLAB
Individuals who prefer a hands-on, practical approach to learning new software