gravityassisted

Gravity-assisted guidance, often referred to as gravity assist or gravitational slingshot, is a spaceflight technique that uses the gravity of a planet or moon to alter a spacecraft’s trajectory and speed. By carefully planning encounters, a spacecraft can gain or lose heliocentric speed and change direction without expending onboard propellant. The maneuver relies on momentum exchange: in the planet’s frame, the spacecraft follows a hyperbolic approach and departure, while in the Sun’s frame the spacecraft emerges faster or slower depending on the encounter geometry. The planet’s motion provides the energy transfer, and the planet itself experiences an imperceptible change in velocity due to its vastly greater mass.

Mechanics and applications: During a gravity-assisted flyby, mission planners choose approach and departure directions to achieve

History and examples: Gravity assists have been integral to many historic missions. Early conceptual work and

Limitations and considerations: Gravity-assisted trajectories depend on favorable planetary alignments and adequate encounter geometry, which can