Range: Difference between revisions
Jump to navigation
Jump to search
imported>Howard C. Berkowitz (added elevation angle) |
Pat Palmer (talk | contribs) (PropDel) |
||
| Line 1: | Line 1: | ||
{{PropDel}}<br><br> | |||
{{subpages}} | {{subpages}} | ||
In describing trajectories, '''range''' is the distance between a launch point and an object or target. It is also use to characterize the distance at which a weapon is effective, from "point-blank" to intercontinental. | In describing trajectories, '''range''' is the distance between a launch point and an object or target. It is also use to characterize the distance at which a weapon is effective, from "point-blank" to intercontinental. | ||
A three-dimensional trajectory can be specified with the combination of range and [[azimuth]]. Another aspect of range is '''elevation angle''', which is the equivalent of azimuth angle but relative to the height above ground rather than the compass. | A three-dimensional trajectory can be specified with the combination of range and [[azimuth]]. Another aspect of range is '''elevation angle''', which is the equivalent of azimuth angle but relative to the height above ground rather than the compass. | ||
Revision as of 12:28, 28 August 2024
| This article may be deleted soon. | ||
|---|---|---|
 In describing trajectories, range is the distance between a launch point and an object or target. It is also use to characterize the distance at which a weapon is effective, from "point-blank" to intercontinental. A three-dimensional trajectory can be specified with the combination of range and azimuth. Another aspect of range is elevation angle, which is the equivalent of azimuth angle but relative to the height above ground rather than the compass. |
||
