Single-variable calculus is a fundamental mathematical framework essential for students across diverse fieldsincluding the basic sciences, engineering, and economicsbecause it enables the precise modeling and understanding of dynamic systems. It introduces two indispensable tools: the derivative, which quantifies instantaneous rates of change, and the integral, which measures accumulation over time or space. These concepts form the foundation of nearly all quantitative disciplines.
To truly master the concepts and techniques of single-variable calculus, practice is paramount. "A Problem-Solving Approach to Single-Variable Calculus" is your essential guide, offering a comprehensive, two-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.
Mathematical Prerequisites.- Fundamentals of Trigonometry.- A Concise
Review of Matrices and Linear Algebra.- Techniques for Solving Equations.-
Complex Numbers.- Limits.- Derivative.- Applications of the Differentiation.-
Partial Fraction Decomposition.- Indefinite Integrals.- Essentials of
MATLAB®.- Curve Fitting in MATLAB.- Calculator Skills and Formula Writing in
Microsoft® Word®.
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.
