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Description
Multi-variable calculus expands the study of change into higher-dimensional spaces, providing the essential language for modeling systems where multiple variables interact simultaneously. It evolves its core tools into the partial derivative and gradient, which map the direction and magnitude of change across surfaces, and the multiple integral, which calculates accumulation over volumes and vector fields. This framework is the vital bridge for students in physics, advanced engineering, and data science who must navigate the interconnected complexities of the real world.
To truly master the concepts and techniques of single-variable calculus, practice is paramount. "A Problem-Solving Approach to Multi-Variable Calculus" is your essential guide, offering a comprehensive, three-volume set filled with plenty of meticulously solved, step-by-step problems designed to build your skills and deepen your understanding. This book empowers you to confidently tackle any single-variable calculus challenge, transforming them into triumphs.Vectors and the Geometry of Space.- Vector-Valued Functions.- Functions of Several Variables.- Applications of Partial Derivatives.- Double Integrals.- Triple Integrals.- Vector Fields and Line Integrals.- Surface Integrals and the Major Theorems.
Farzin Asadi received his B.Sc. in Electronics Engineering, his M.Sc. in Control Engineering, and his Ph.D. in Mechatronics Engineering. Currently, he is with the Department of Computer Engineering at the OSTIM Technical University in Ankara, Turkey. Dr. Asadi has published more than 40 international papers and 40 books. His research interests include switching converters, control theory, robust control of power electronics converters, and robotics.
