Difference between revisions of "Warp strafing"
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==Stationary Targets== | ==Stationary Targets== | ||
Warp strafing would be ineffectual against stationary targets. If a target were stationary, the attacking starship could simply sit and fire torpedoes without the strafe. Secondly, stationary and heavily defended targets such as battle stations, weapons platforms and fortified planets could track the attacker with faster-than-light sensors. Any vessel attempting this tactic would move in a predictable straight line, a so-called "attack run." Unless the attacking vessel further complicates the attack run with changes of course and acceleration, the defender could track the attacking vessel just as easily as the attacking vessel could track it, with the added advantage of being stationary and using more power for shields and weapons. | Warp strafing would be ineffectual against stationary targets. If a target were stationary, the attacking starship could simply sit and fire [[photon torpedo|torpedoes]] without the strafe. Secondly, stationary and heavily defended targets such as battle stations, weapons platforms and fortified planets could track the attacker with faster-than-light sensors. Any vessel attempting this tactic would move in a predictable straight line, a so-called "attack run." Unless the attacking vessel further complicates the attack run with changes of course and acceleration, the defender could track the attacking vessel just as easily as the attacking vessel could track it, with the added advantage of being stationary and using more power for shields and weapons. | ||
==Conclusion== | ==Conclusion== |
Revision as of 11:11, 5 March 2010
Warp strafing is a theoretical battle tactic invented by Star Trek fans. The tactic has not appeared in canon.
Theory
In the proposed tactic, a starship sets a course to fly past an enemy vessel, starting out of weapons range from the target (perhaps light-hours or more away). It then approaches the target at warp speed. Once the enemy vessel is within weapon range, the starship fires its weapons as it flies by the target. Supposedly, the starship could perform an alpha strike while the enemy is unable to return fire.
Usage
Warp strafing has never been observed in any Star Trek episode.
Trekkie debaters often cite the TOS episode "Elaan of Troyius" as an example of a canonical warp strafe, saying a Klingon vessel makes repeated strafing runs against he Enterprise, which is limited to impulse speed. Sulu, however, counts down the range between the vessels in tens of thousands of kilometers over several seconds, indicating the relative velocity between the starships is less than lightspeed.
The word impulse in Star Trek does not necessarily mean slower-than-light, as evidenced in several examples including Best of Both Worlds Pt. II where the Enterprise-D drops out of warp at the edge of the solar system and shortly enters Earth orbit, necessitating faster-than-light impulse. "Elaan of Troyius" is not an example of a true warp strafe, which would involve one starship at rest or near rest relative to another approaching faster than light.
Trekkies may also cite the Picard Maneuver (TNG "The Battle") as an example of warp strafing, but the Picard Maneuver specifically involves dropping out of warp before firing weapons.
Physics
The critical problem with warp strafing is relative speed, a topic covered in Junior High School physics courses. Suppose car A approaches car B while at 50 km/h. Further suppose car B is traveling at 49 km/h in the same direction. The relative speed between car A and car B is 1 km/h. However, a car traveling at 100 km/h compared to a car traveling at 20 km/h in the same direction is truly approaching at a relative speed of 80 km/h.
Relative speed is important because Star Trek starships of every faction have shown difficulty locking onto relatively slow and predictable targets, let alone targets travelling at relative speeds in excess of lightspeed. In short, the evidence indicates that Star Trek ships could not hit their targets if they attempted a warp strafe.
Furthermore, generously accepting the stated ranges of as much as 300,000 km for Star Trek weapons, a starship attempting to warp-strafe a sublight target would be in range for no more than two seconds and probably far less (since warp-driven starships are capable of traveling at thousands of times the speed of light). An attacker would only be able to use a tiny fraction of its firepower on each fly-by, meaning that it would probably take hundreds or thousands of strafing runs to signficantly affect a shielded target.
Stationary Targets
Warp strafing would be ineffectual against stationary targets. If a target were stationary, the attacking starship could simply sit and fire torpedoes without the strafe. Secondly, stationary and heavily defended targets such as battle stations, weapons platforms and fortified planets could track the attacker with faster-than-light sensors. Any vessel attempting this tactic would move in a predictable straight line, a so-called "attack run." Unless the attacking vessel further complicates the attack run with changes of course and acceleration, the defender could track the attacking vessel just as easily as the attacking vessel could track it, with the added advantage of being stationary and using more power for shields and weapons.
Conclusion
In summary, warp strafing requires the attacker have far more advanced propulsion, sensor and weapons technology than the defender. With such advantages, a more conventional approach would be at least as successful. The attacker could simply stay at stand-off range and pelt the defender with missiles, negating the need for a dangerous warp-speed approach.