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Orbital mechanics or astrodynamics is the application of ballistics and celestial mechanics to rockets, satellites, and other spacecraft. The motion of these objects is usually calculated from laws of motion and of universal gravitation derived by Isaac Newton. Orbital parameters The state of an orbiting body at any given time is defined by the orbiting body's position and velocity with respect to the central body, which can be represented by the three-dimensional Cartesian coordinates (position of the orbiting body
represented by x, y, and z) and the similar Cartesian components of the orbiting body In astrodynamics, an orbit equation defines the path of orbiting body around central body relative to , without specifying position as a nction of time. Under standard umptions, a body moving under the influence of a force, directed to a central body, with a magnitude inversely proportional to the square of the distance (such as gravity), has an orbit that is a conic section (i.e Orbital elements are the parameters required to uniquely
identify a specific orbit. In celestial mechanics these elements are considered in two-body systems using a Kepler orbit. Variation of orbital eccentricity 0.0 0.2 0.4 0.6 0.8 In celestial mechanics, an orbit is the curved trajectory of an object [1] under the influence of an attracting force. Known as an orbital revolution, examples include the trajectory of a planet around a star, a natural satellite around a planet, or an artificial satellite around an object or position in space such as a planet, moon Orbit modeling is
the process of creating mathematical models to simulate motion of a mive body as it moves in orbit around another mive body due to gravity. Other forces such as gravitational attraction from tertiary bodies, air resistance, solar pressure, or thrust from a propulsion system are typically modeled as secondary effects. Directly modeling an orbit can push the limits of Orbital inclination measures the tilt of an object's orbit around a celestial body. It is expressed as the angle between a reference plane and the orbital
plane or axis of direction of the orbiting object. For a satellite orbiting the Earth directly above the Equator, the plane of the satellite's orbit is the same as the Earth's equatorial plane, and the satellite's orbital inclination is 0 The rocket equation can be applied to orbital maneuvers in order to determine how much propellant is needed to change to a particular new orbit, or to find the new orbit as the result of a particular propellant burn.
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