bruh..
bruh..
Yes, the x-distance, y-distance, z-distance, or any combination of the three between any two points may be zero Not possible. If the distance between two points is zero then the points are the same.
The distance postulate is such: the shortest distance between two points is a line.(xy, x-y) The distance postulate is such: the shortest distance between two points is a line.(xy, x-y)
The radius is the distance between the center of a circle and a point on the circle
The perpendicular distance between two parallel lines is always the same.
bruh..
the eccentricity will increase.
Troll
Troll
As the distance between foci increases the eccentricity increases, or the reverse relationship.
eccentricity = distance between foci ________________ length of major axis
Planets don't have circular orbits; all orbits are ellipses. A circle has one center, but an ellipse has two focuses, or "foci". The further apart the foci, the greater the eccentricity, which is a measure of how far off circular the ellipse is. Venus has the lowest eccentricity, at 0.007. Neptune is next with an eccentricity of 0.011. (Earth's orbit has an eccentricity of 0.017.) So, Venus has the shortest focus-to-focus distance.
The eccentricity of that ellipse is 0.4 .
The orbital eccentricity of Saturn is 0.056. The distance between the Sun and Saturn differs by 155 million kilometers at its nearest and farthest points.
-- the eccentricity or -- the distance between the foci or -- the ratio of the major and minor axes
Dont know the eccentricity , but the minor axis = 39.888 cm (approx)
All orbits are ellipses; this is true for both planets and for comets. Cometary orbits are somewhat extreme ellipses, where the difference between the perihelion (closest to the Sun) is very different from the aphelion (farthest from the Sun) distance. This difference is called "eccentricity". Planets have relatively low eccentricity; for Earth, for example, the eccentricity is only 3%. Some comets don't have an "orbit" at all. An "orbit" implies that the comet will eventually come back. But some comets are "hyperbolic"; their paths aren't an ellipse, but a hyperbola. A hyperbolic comet is a one-time visitor to the solar system; it has fallen in from interstellar space, and will be going back out to interstellar space.