From Invasion3042 Wiki
| 100 Ton Mech Movement
|
|
| Type:
| Inner Sphere
|
| Weight:
| ?
|
Resource requirements
| Resource
| #
|
| Antimony:
| 0
|
| Bauxite:
| 0
|
| Beryllium:
| 0
|
| Chromium:
| 0
|
| Cobalt:
| 0
|
| Copper:
| 0
|
| Germanium:
| 0
|
| Gold:
| 0
|
| Hydrogen:
| 0
|
| Iron:
| 0
|
| Lead:
| 0
|
| Lithium:
| 0
|
| Manganese:
| 0
|
| Molybdenum:
| 0
|
| Nickel:
| 0
|
| Nitrogen:
| 0
|
| Organics:
| 0
|
| Plastics:
| 0
|
| Platinum:
| 0
|
| Precious Gems:
| 0
|
| Rare Earth Elements:
| 0
|
| Silicon:
| 0
|
| Silver:
| 0
|
| Sulfur:
| 0
|
| Titanium:
| 0
|
| Tungsten:
| 0
|
| Uranium:
| 0
|
| Vanadium:
| 0
|
| Water:
| 0
|
| Zinc:
| 0
|
|
| Blueprint production cost:
| ? RP
|
| Design research level:
| 10
|
| RP required:
| 15,000,000
|
| BP required:
| ?
|
Key to BattleMech design is the installation of the Mechs engines and control systems. This step establishes the key factors in the BattleMechs mobility, including the size and performance of its engine, the mass of the gyroscopes that keep it upright, and whether or not the design is capable of jumping movement. Also determined in this step is the weight and nature of the BattleMechs cockpit systems, where the MechWarrior resides during battle. Every BattleMech requires a powerful gyroscope to keep it upright and able to move. The exact size of this gyro depends on the Mechs engine rating and the type of gyro used. All of these things are crucial in determining the Mech design and it's movement capabilities. Researchers often start at the lower tonnage weights and user the information learned to progress to the more difficult heavier tonnage designs.
