
This textbook provides a simple introduction to mechanics for students coming to the subject for the first time. The text is based on courses given to first and second year undergraduates and has been written with this audience very much in mind. Prerequisites are only a basic familiarity with vectors, matrices, and elementary calculus. The author's aim is to provide an understanding of Newtonian mechanics using the tools of modern algebra. The first chapters of the book introduce the fundamentals of the motion of rigid Newton's laws, forces, linear and angular momentum, and the conservation of energy. In the later chapters the theory of Lagrangian mechanics is developed and extended to cover applications to impulsive forces. Throughout the theory is illustrated with many worked examples and numerous exercises (some with solutions) are provided.
This text investigates the foundational principles of Newtonian mechanics by integrating them with the formal tools of modern algebra. Mary Lunn, drawing on her experience teaching undergraduate physics, constructs a bridge between basic calculus and advanced theoretical frameworks. The book argues that a rigorous understanding of motion, forces, and conservation laws is best achieved through the application of algebraic structures, specifically preparing students for the transition to Lagrangian mechanics.
What You Will Find
Experts identify this work as a clear, accessible entry point for undergraduates transitioning from introductory physics to more formal theoretical mechanics. Readers frequently note the balance between mathematical rigor and conceptual clarity, making it a reliable resource for students seeking to master the algebraic underpinnings of the field.
Page Count:
208
Publication Date:
1991-05-09
Publisher:
Oxford University Press
ISBN-10:
0198534302
ISBN-13:
9780198534303
No comments yet. Be the first to share your thoughts!