Spaceflight Mechanics and Control introduces readers to both the classical theories and cutting edge techniques used to simulate orbital and attitude motion. The theories discussed are connected to real world applications such as space debris removal, asteroid deflection and redirection, spacecraft solar sailing, and control of spacecraft manipulator systems. The book covers orbital trajectory specification and design, orbital maneuvers including both impulsive and low thrust approaches, and spacecraft formation flying. Also included is access to a companion website hosting Python scripts, STK simulations, and more. Introduces readers to the theories, techniques, and applications used to design successful space missions Discusses theories related to spacecraft orbital motion and how these theories are practically applied Outlines multiple key attitude stabilization techniques such as spin stabilized, dual spin stabilized, and B dot detumbling control Includes access to a companion website featuring Python scripts, STK simulations, and more