4 New Magnetism Books Reshaping Science in 2025

When James W. Rohlf developed this guide, he focused on bridging the gap between complex physics concepts and computational clarity using Mathematica. You learn to approach electricity and magnetism not just through theory but by mastering visualization and numerical problem-solving, with over 300 worked examples that demystify the math behind the physics. The book’s tutorial sections equip you to get rapid results, making it especially useful if you want to strengthen your grasp of intermediate to advanced electromagnetism without getting bogged down by complicated calculations. If you’re studying this field or need a reliable reference for computational physics, this book offers a practical, hands-on pathway.

After analyzing extensive biochemical data, A L Buchachenko developed a detailed exploration of how magnetic fields influence molecular and biochemical processes. You’ll learn about the underlying mechanisms of magnetic effects on genes, DNA synthesis, and repair, as well as their potential role in treating diseases like cancer and neurological disorders. The book’s focus on a radical pair mechanism that may stimulate ATP synthesis offers a fresh perspective on magneto-biology’s medical applications. If you’re engaged in biochemistry, molecular biology, or seeking to understand magnetism’s biological impact, this book provides a scientific foundation without overpromising outcomes.

This tailored book explores the latest breakthroughs in magnetism as they unfold in 2025, focusing on the most powerful insights shaping this dynamic field. It examines cutting-edge discoveries and emerging knowledge, offering a deep dive into contemporary magnetic phenomena and their applications. By tailoring content specifically to your background and interests, it ensures you engage with material that matches your expertise and curiosity perfectly. The approach reveals nuanced developments in physics, technology, and interdisciplinary research, helping you stay ahead of new magnetic trends and innovations. This personalized guide provides a focused learning experience that aligns with your specific goals and areas of fascination.

Unlike most physics books that narrowly focus on theoretical models, Humphrey Lloyd's "A Treatise On Magnetism: General and Terrestrial" delves deeply into the Earth's magnetic field alongside the foundational principles of electromagnetism. This book takes you through the historical evolution of magnetism and explains its practical applications in modern engineering and geophysics, making complex concepts accessible. You'll find detailed discussions on magnetic materials and devices, which are particularly useful if you engage with applied physics or geophysical phenomena. The thorough approach benefits scientists and engineers aiming to ground their work in both theory and real-world context.

This collection translates and thoroughly comments on Charles-Augustin de Coulomb's seminal works, offering a detailed look at his experimental approaches to torsion, electricity, and magnetism. You'll explore foundational laws like the inverse square relationship of electric and magnetic forces alongside nuanced discussions on charge distribution and magnetization techniques. The book serves those fascinated by the historical and technical evolution of electromagnetic theory, especially advanced students and researchers aiming to grasp the original experiments behind concepts you might only know from textbooks. For example, it includes Coulomb's 1777 prize-winning methods for crafting magnetic needles and his detailed studies on charge leakage, illuminating the roots of modern electromagnetism.