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Range is the difference between the high and low numbers in statistical mathematics. In coordinate mathematics it is the dependent or y of a (x,y) coordinate. * * * * * The range, in algebra, refers to the set of values that a function can take. Formally, it is the co-domain but few people (including mathematicians) use that term.
Yes, and the range is the y coordinate
On a coordinate grid, range is the y-axis.
The x values are on the horizontal axis and the y values are on the vertical axis.
The plus values become negative and the negative values become positive although their numerical values remain the same
-90° to +90°
+90 to -90 degrees
Yes. "Declination" on the celestial coordinate system is the counterpart of "latitude" on the terrestrial coordinate system. Positive and negative declination correspond respectively to north and south latitude.
Range is the difference between the high and low numbers in statistical mathematics. In coordinate mathematics it is the dependent or y of a (x,y) coordinate. * * * * * The range, in algebra, refers to the set of values that a function can take. Formally, it is the co-domain but few people (including mathematicians) use that term.
Yes, and the range is the y coordinate
On a coordinate grid, range is the y-axis.
The x values are on the horizontal axis and the y values are on the vertical axis.
Ordinate and Range
degrees, minutes, seconds (angles of arc). These measure right ascention (left to right) and Declination (up and down)
The celestial coordinate system is exactly analogous to the terrestrial positioning system based on latitude and longitude. Terrestrial latitude ---> celestial 'declination'. Terrestrial longitude ---> celestial 'right ascension', where one 'hour' = 15 degrees.
its the x coordinate (first number) It is the set of values that the x coordinate can take.
It refers to the orientation of the orbital on the xyz coordinate system. It is dependent on the value of "L". Possible values range from -L through +L.