Rotational motion is of fundamental importance in physics and engineering, and an essential topic for undergraduates to master. This Student's Guide focuses on the basic principles of rotational dynamics, providing the reader with an intuitive understanding of the physical concepts and a firm grasp of the mathematics.
Rotational motion is of fundamental importance in physics and engineering, and an essential topic for undergraduates to master. This Student's Guide focuses on the basic principles of rotational dynamics, providing the reader with an intuitive understanding of the physical concepts and a firm grasp of the mathematics.
Effrosyni Seitaridou is Professor of Physics at Oxford College of Emory University and received her Ph.D. in applied physics from Caltech in 2008. Her research is focused on biological physics and she has co-authored a book, 'Simple Brownian Diffusion' (Oxford University Press, 2012). She has received numerous awards for excellence in teaching.
Inhaltsangabe
Preface 1. Rotational kinematics 2. Torque and static equilibrium 3. Rotational dynamics 4. Moment of inertia 5. Angular momentum 6. Work and energy 7. Combining translation and rotation: a first look 8. Garden of delights References Index.
Preface 1. Rotational kinematics 2. Torque and static equilibrium 3. Rotational dynamics 4. Moment of inertia 5. Angular momentum 6. Work and energy 7. Combining translation and rotation: a first look 8. Garden of delights References Index.
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