This authoritative volume, first published in 2000, provides the definitive reference on stellar rotation, combining theory and observation.Like the Earth and planets, stars rotate. This authoritative volume provides a lucid introduction to stellar rotation and the definitive reference to the subject. It combines theory and observation in a comprehensive survey of how the rotation of stars affects the structure and evolution of the Sun, single stars, and close binaries. This timely book will be of primary interest to graduate students and researchers studying solar and stellar rotation and close binary systems. It will also appeal to those with a more general interest in solar and stellar physics, star formation, binary stars, and the hydrodynamics of rotating fluids -- including geophysicists, planetary scientists, and plasma physicists.Like the Earth and planets, stars rotate. This authoritative volume provides a lucid introduction to stellar rotation and the definitive reference to the subject. It combines theory and observation in a comprehensive survey of how the rotation of stars affects the structure and evolution of the Sun, single stars, and close binaries. This timely book will be of primary interest to graduate students and researchers studying solar and stellar rotation and close binary systems. It will also appeal to those with a more general interest in solar and stellar physics, star formation, binary stars, and the hydrodynamics of rotating fluids -- including geophysicists, planetary scientists, and plasma physicists.Understanding how stars rotate is central to modeling their structure, formation and evolution, as well as understanding how they interact with their environment and companion stars. This lucid introduction to stellar rotation combines theory and observation, and includes all the latest developments in the field. Jean-Louis Tassoul, a leading authority on the subject, comprehensively surveys how the rotation of stars affects the struclC%