Ricaro Jumpship TL-9 Rate:200 Size: 25.5 meters (dia) Disk Hull (SL) Jump 1 Manuever: 1G Hull: Composite Laminate, 2cm 2808 sq meters surface area Armor Rating: 12 Internal Structure Rating: 2G Life Support: Extended Air Locks: 1 Jump Drive: 1 Jump Fuel: 280kl (hydrogen) Power Plant: 200MW Fusion Reactor Reactor Fuel: 15kl (hydrogen) 100MW Reactor thrust Reaction Fuel: 25kl G-turns: 44 (Fusion Rocket) G-turns: 2 (Reactor) TL-9 ContraGrav Lifters Engineering Workstations: 3 2000 tonnes Thrust Fusion Rocket Reaction Fuel: 73.37kl (Rocket) 535kl Cargo hold 1 Large cargo hatch 10 Small Staterooms (Passengers) 8 Staterooms (Crew) TL9 Computer Linked Controls 3 x TL9 STD computers 1000AU Maser Comm 30,000km Radio 120,000km HRT (folding array) 60,000km Radar Flight Workstations: 6 1 Empty turret socket 1 TL8 Missle Barbette 300,000km Laser Comm 3 Engineering Crew 2 Electronics Crew 2 Drive Crew 1 Gunnery Crew 1 Maintenance Crew 2 Command Crew Area: SURFACE HITS INTERNAL EXPLOSION 1 1-3: Cargo Hatch 1-3: Quarters, 4-20: Hold 2 Quarters 3 Quarters 4 Hold 5 Hold 6 ANT (HRT) Quarters 7 ANT (HRT) Quarters 8 Hold 9 1: Air Lock Hold 10 1-3: ANT (Radar) 1-10: Electronics 4: ANT (Maser) 11-20: Hold 5: ANT (Radio) 11-15: ANT (HRT) 11 Engineering 12 ANT (HRT) 1-10: Electronics 11-20: Hold 13 ANT (HRT) 1-10: Electronics 11-20: Hold 14 1: Air Lock 1-7: Engineering, 8-20: Hold 15 1-8: Engineering, 9-20: Hold 16 Engineering 17 Engineering 18 Engineering 19 Engineering 20 1-2: Missle Barbette Engineering Damage Tables: Sensor (HRT) 1h Sensor Ant (HRT) 1H Sensor (Radar) 1h Sensor Ant (Radar) 1H Commo (Maser) 1h Commo Ant (Radio) 1h Commo (Radio) 1h Commo Ant (Maser) 1h Comp (STD) 3 x (1h) Missle Barbette 1H SSR 13 x (2h) Life Support 3H Ext Life Support 2H Jump Drive 2H Power Plant 4H Fusion Rocket 7H ContraGrav Lifters 1H Fusion Reactor Drv 2h Notes: The primary manuever drive for this ship is out of the FFS beta the gdw-beta list received. It's using a Fusion Rocket for it's primary thrust. There is also a reaction chamber for the Fusion Reactor, but it only produces .5G Thrust for 2 hours - enough to simply move away from the planet to light up the big torch. Variations might include using part of the cargo hold for fuel - another 280kl would allow another Jump1. Fuel purification machinery might also be installed in the hold. A 60kl fuel processing plant would process 320kl in 19.2 hours, or 600kl fuel in 36 hours. I created this ship with the idea of the classic 'flying saucer' - and incorporated a design easily modified to suit a variety of 'frontier' needs - including combat. The 200MW power plant will easily drive a laser, sandcaster, or missle launcher in the extra turret. In addition, the hold could be converted to carry any number of small vehicles - up to approx 23 displacement tons (giving a 1.6x leeway for being in a cargo hold) joe ccjoe@showme.missouri.edu