Editing Chassis
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Line 11: The chassis of [[IndustrialMech]]s is similar to that BattleMechs but uses heavier, less efficient materials and bulkier [[myomer]] bundles. The resulting chassis is twice as heavy as a comparable BattleMechs and less resistant to weapons fire, though more suited to physical labor and cheaper to produce.<ref name=TM224/> IndustrialMech chassis also come in a wider variety of shapes than the typical humanoid form of BattleMechs, and incorporate more exotic means of locomotion such as footpads with grippers or tracks.<ref>''TechManual'', p. 62</ref> The chassis of [[IndustrialMech]]s is similar to that BattleMechs but uses heavier, less efficient materials and bulkier [[myomer]] bundles. The resulting chassis is twice as heavy as a comparable BattleMechs and less resistant to weapons fire, though more suited to physical labor and cheaper to produce.<ref name=TM224/> IndustrialMech chassis also come in a wider variety of shapes than the typical humanoid form of BattleMechs, and incorporate more exotic means of locomotion such as footpads with grippers or tracks.<ref>''TechManual'', p. 62</ref> − == Aerospace == + == AeroSpace == The internal structures used in [[conventional fighter]]s predates man's first spaceflight, while those used for [[aerospace fighter]]s and other space-capable units date from the [[2020]]s. All are based around the need to maintain structural integrity and withstand intense g-forces during normal flight and combat. For small fighter craft, their internal structure is welded to their armor, while [[Small Craft]] and larger vessels make use of additional reinforcements to link the two components.<ref name=TM224/> The internal structures used in [[conventional fighter]]s predates man's first spaceflight, while those used for [[aerospace fighter]]s and other space-capable units date from the [[2020]]s. All are based around the need to maintain structural integrity and withstand intense g-forces during normal flight and combat. For small fighter craft, their internal structure is welded to their armor, while [[Small Craft]] and larger vessels make use of additional reinforcements to link the two components.<ref name=TM224/>
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The chassis of [[IndustrialMech]]s is similar to that BattleMechs but uses heavier, less efficient materials and bulkier [[myomer]] bundles. The resulting chassis is twice as heavy as a comparable BattleMechs and less resistant to weapons fire, though more suited to physical labor and cheaper to produce.<ref name=TM224/> IndustrialMech chassis also come in a wider variety of shapes than the typical humanoid form of BattleMechs, and incorporate more exotic means of locomotion such as footpads with grippers or tracks.<ref>''TechManual'', p. 62</ref> | The chassis of [[IndustrialMech]]s is similar to that BattleMechs but uses heavier, less efficient materials and bulkier [[myomer]] bundles. The resulting chassis is twice as heavy as a comparable BattleMechs and less resistant to weapons fire, though more suited to physical labor and cheaper to produce.<ref name=TM224/> IndustrialMech chassis also come in a wider variety of shapes than the typical humanoid form of BattleMechs, and incorporate more exotic means of locomotion such as footpads with grippers or tracks.<ref>''TechManual'', p. 62</ref> | ||
| − | == | + | == AeroSpace == |
The internal structures used in [[conventional fighter]]s predates man's first spaceflight, while those used for [[aerospace fighter]]s and other space-capable units date from the [[2020]]s. All are based around the need to maintain structural integrity and withstand intense g-forces during normal flight and combat. For small fighter craft, their internal structure is welded to their armor, while [[Small Craft]] and larger vessels make use of additional reinforcements to link the two components.<ref name=TM224/> | The internal structures used in [[conventional fighter]]s predates man's first spaceflight, while those used for [[aerospace fighter]]s and other space-capable units date from the [[2020]]s. All are based around the need to maintain structural integrity and withstand intense g-forces during normal flight and combat. For small fighter craft, their internal structure is welded to their armor, while [[Small Craft]] and larger vessels make use of additional reinforcements to link the two components.<ref name=TM224/> | ||