http://boi.alt-starfleet-rpg.com/index.php?title=Feynman_statistics_Mark_I&feed=atom&action=historyFeynman statistics Mark I - Revision history2024-03-29T02:15:12ZRevision history for this page on the wikiMediaWiki 1.39.6http://boi.alt-starfleet-rpg.com/index.php?title=Feynman_statistics_Mark_I&diff=8369&oldid=prevCOMSFE at 15:30, 24 July 20062006-07-24T15:30:44Z<p></p>
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80819 150122<br />
<br />
BASIC STATISTICS<br />
Class Name : FEYNMAN<br />
Classification : Surveyor<br />
Type : DD (Destroyer)<br />
Model Number : I<br />
<br />
PHYSICAL SPECIFICATIONS<br />
Length : 342 m<br />
Beam : 154 m<br />
Draft : 73 m<br />
Displacement : 894,308 mt<br />
<br />
COMPLEMENT<br />
Total : 237<br />
Officers : 18<br />
Crew : 164<br />
Passengers : 20 (standard)<br />
Marines : 35<br />
<br />
PROPULSION SYSTEMS<br />
Warp Propulsion System<br />
Drive Type : ILN-417 Mk IX<br />
Number : 2 (variable)<br />
Main Reactor : FRAM-901<br />
<br />
Impulse System<br />
Drive Type : CAN-Q<br />
Number : 2<br />
Secondary Reactor: FRIF-460 Network<br />
<br />
Thruster Control : Quickstep<br />
<br />
Velocity<br />
(Sensor Mode)<br />
Standard Cruise Speed : 6.0<br />
Maximum Cruise Speed : 9.0<br />
Sustainable for 12 hours: 9.6<br />
(Flight Mode)<br />
Standard Cruise Speed : 7.0<br />
Maximum Cruise Speed : 9.3<br />
Sustainable for 12 hours: 9.82<br />
Maximum Emergency Speed : 9.95<br />
Core Failure Immenent : 9.97<br />
<br />
ARMAMENT<br />
Phaser, Type X<br />
Number : 4 banks<br />
Range : 300,000 km<br />
Arcs : Saucer module dorsal array<br />
Saucer module ventral array<br />
Secondary hull aft array<br />
Secondary hull ventral array<br />
<br />
Photon Torpedo, MkXXIII Seeking/Direct<br />
Number : 2 tubes<br />
Range : 3,000,000 km<br />
<br />
Arcs : 1 forward, 1 aft<br />
<br />
Deflector System : FD-7c Cocoon multiphasic deflector system<br />
<br />
OTHER SYSTEMS<br />
Transporters<br />
Standard, 6-person : 4<br />
Emergency, 22-person: 2<br />
Cargo : 3<br />
<br />
Shuttle Bays : 2 (1 main, 1 auxilliary<br />
Embarked Craft (Standard, specific ships may vary)<br />
Shuttlepod : 4<br />
Personnel Shuttle, Small: 4<br />
D-Warp Shuttle : 1<br />
Cargo Shuttle : 1<br />
Runabout : 1<br />
<br />
Notes:<br />
<br />
After successfully testing and improving the DELPHI array deep<br />
space sensor system on the USS FENRIS, it was decided to<br />
implement it in a smaller class of vessel with a strong emphasis<br />
on scientific use. It quickly became evident that a medium-sized<br />
ship of 300 to 450 crew would be the platform suited best,<br />
filling the gap between the WOLFE-class frigates and the<br />
DIOGENES-class cruisers both in size and crew.<br />
<br />
To avoid the mass and energy consumption that comes along with a<br />
third nacelle to shape the subspace field for scanning purposes,<br />
the FEYNMAN class uses a variable warp nacelle geometry, based on<br />
a two nacelle design. It also uses the minimum reflectance<br />
surface for minimal background noise, making the ship appear<br />
black from most view angles, as well as the thruster control<br />
system used on it's bigger cousin.<br />
<br />
The ship's saucer section is somewhat elongated with a more<br />
streamlined arrowhead appearance to facilitate a more efficient<br />
warp bubble at higher warp speeds, while the engineering section<br />
is resembling the shape of an elongated AMBASSADOR-class design<br />
with variable position warp nacelles. The hull allows an emergency<br />
separation but cannot reassemble in space. There is no Captain's<br />
yacht to allow the bottom of the saucer section to be shaped for<br />
optimum deflector use. The auxiliary shuttlebay doors open<br />
forward.<br />
<br />
<br />
Details on the modification:<br />
<br />
The variable nacelle geometry is not explicitly required for warp<br />
drive, but serves the purpose of stabilizing and refining the<br />
warp field for the main delphi array which is operating on<br />
subspace frequencies during warp. When operating in a different<br />
configuration it can serve to increase warp field efficiency<br />
(greatly reducing the sensor efficiency) at high speed to optimze<br />
energy consumption and effectively increasing speed.<br />
<br />
The low reflectance surface is reducing sensor ghosts of all<br />
kinds, making scans more accurate and providing additional<br />
passive protection against being scanned. To compensate for this<br />
in non-hostile encounters, the protocols have been modified to<br />
allow to provide beacons for own and friendly vessels.<br />
<br />
<br />
History:<br />
<br />
The Feynman class is named in honor of the twentieth century<br />
Nobel prize winning physicist/philosopher/teacher, Richard P.<br />
Feynman, whose simple but elegant demonstration of O Ring failure<br />
during the Challenger hearings lead to improved standards of<br />
safety for early earth spacecraft. He is also considered one of<br />
the fathers of Nanotechnology; an award named is his honor has<br />
been given since the late twentieth century.<br />
<br />
In October 2405 the project approval was received. A rescaled<br />
version of the DELPHI Array began construction. In May 2406 the<br />
keel was laid, and the actual construction on the primary hull<br />
began. In June 2406 the nacelle construction began. August 2406<br />
saw the joinging of primary and secondary hulls and the<br />
installation of the DELPHI array began. In September 2406 the<br />
installation of the remaining communication, navigation systems<br />
and computer core followed.<br />
<br />
October 2406 the Warp Drive was tested, followed by finishing the<br />
installation of the rescaled DELPHI array in November, and its<br />
calibration and test in December 2406. In January 2407 the<br />
construction was completed and the ship commissioned for system<br />
evaluation as NX-66000 USS Feynman.<br />
<br />
<br />
proposed ship names NCC-66xxx:<br />
<br />
USS Feynman USS Heisenberg<br />
USS Fermi USS Hahn<br />
USS Tesla USS Meitner<br />
USS Einstein USS Curie<br />
USS Bohr USS Hawking<br />
<br />
<br />
Ship Design by Armin Lenz and Kelli Belden<br />
Starfleet Engineering Revision by Armin Lenz, Kelli Belden, <br />
Jeffrey Jenkins, Jeffrey Finocchiaro, Kristopher Kolman<br />
<br />
[Note: Names of the ships should follow names of Famous<br />
Scienctists as shown by the above examples.]</pre></div>COMSFE