Difference between revisions of "Semi-major axis"

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It is equal to the [[semi-parameter]]: <math>p=a</math><br />
 
It is equal to the [[semi-parameter]]: <math>p=a</math><br />
 
For hyperbolic orbits, see [[semi-transverse axis]] instead.
 
For hyperbolic orbits, see [[semi-transverse axis]] instead.
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[File:Semi-major and semi-minor axes of an ellipse.jpg[|thumb|upright=1.2|The semi-major (''a'') and semi-minor axis (''b'') of an ellipse]]
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File:Semi-major and semi-minor axes of an ellipse.jpg
  
 
==Effects of thrust==
 
==Effects of thrust==

Revision as of 14:38, 25 June 2018

In orbital mechanics, the semi-major axis (symbol ) is half the major axis (distance between apoapsis and periapsis) of an elliptical orbit. It is defined as the mean distance between either focus of the orbit and any point on the orbit and equals the radius if the orbit is circular.
It is equal to the semi-parameter:
For hyperbolic orbits, see semi-transverse axis instead.

[File:Semi-major and semi-minor axes of an ellipse.jpg[|thumb|upright=1.2|The semi-major (a) and semi-minor axis (b) of an ellipse]]

File:Semi-major and semi-minor axes of an ellipse.jpg

Effects of thrust

Prograde thrust (accelerating the body in the direction in which it is moving) increases the semi-major axis whereas retrograde thrust (in the opposite direction to its movement) decreases it. It is important to note that if no force acts on an orbiting body, it will return to the position where it last performed a maneuver. The opposite side of the orbit is most affected by any thrust whereas the orbit remains almost unchanged close to the point where the maneuver is performed.
Prograde and retorgrade thrust at either apsis of an orbit has the greatest influence on the semi-major axis, by moving the opposite apsis. This means that a spacecraft wishing to go from one circular orbit to a superior or inferior one can do so most efficiently by performing a Hohmann transfer (in the absence of other forces).

Relation to energy

It is important to note that, when working with orbital energies, the energy is not the same as that required to hypothetically take a body to that orbit from either the surface or the center of the body it orbits. In fact, the specific energy of a satellite in elliptical orbit around the Earth is negative.
Since orbital mechanics only concerns itself with changes in orbital energy, the zero could be chosen arbitrarily. It is computationally most convenient to choose the value at escape velocity. This choice makes the semi-major axis inversely proportional to the specific energy and if the mass does not change also to the total orbital energy.
It follows that the orbital energy must be a negative value (since velocity is less than escape velocity) for elliptical orbits.