Since the key concept of the space elevator first appeared, tethered space systems have generated much curiosity and interest. Modern-day developments in engineering technology and changes in the space environment have made these technologies a not-so distant reality, although not without the need for further research to be carried out. Dynamics of Tethered Satellites and Space Elevators aims to provide a comprehensive overview of the current state of knowledge on the subject. Written by two widely recognized experts in the field, the book starts with a brief history of tethered space systems, their potential applications, and a description of past and current space tether missions. This is followed by an in-depth investigation into various aspects of the dynamics and control of rigid and flexible single-tether space systems, tether propulsion, and multi-tether satellite systems. The use of tethers to remove space debris is discussed next alongside other sustainability-related considerations, which make the content all the more relevant in view of the present global pressures that stakeholders in the space sector face. A whole section of chapters on the dynamics of partial and full space elevators concludes the volume.

Builds on from basic fundamentals to advanced, in-depth coverage of tethered space systems.

Includes mathematical modeling in each chapter.

Considers several applications – from attitude stabilization, momentum exchange, to in-orbit maintenance (such as fueling service, orbit maneuvering, and space debris removal), and many more.

Discusses past missions in detail and broaches future ones, including zero-emission lift of cargo to space.

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