All Hybrid Charges

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

The Javelin charge consists of a cluster of Iridium Fletchets with a Graviton Pulse Detonator. This allows for much higher damage than can be achieved by a standard rail system. However, the inherent entropy of graviton pulses means that it is very hard to maintain accuracy at long range. 75% reduced optimal range. 25% increased tracking speed. Note: This ammunition can only be used by large tech level II, faction and officer Railguns.

The Javelin charge consists of a cluster of Iridium Fletchets with a Graviton Pulse Detonator. This allows for much higher damage than can be achieved by a standard rail system. However, the inherent entropy of graviton pulses means that it is very hard to maintain accuracy at long range. 75% reduced optimal range. 25% increased tracking speed. Note: This ammunition can only be used by medium tech level II and faction Railguns.

The Javelin charge consists of a cluster of Iridium Fletchets with a Graviton Pulse Detonator. This allows for much higher damage than can be achieved by a standard rail system. However, the inherent entropy of graviton pulses means that it is very hard to maintain accuracy at long range. 75% reduced optimal range. 25% increased tracking speed. Note: This ammunition can only be used by small tech level II and faction Railguns.

The Javelin charge consists of a cluster of Iridium Fletchets with a Graviton Pulse Detonator. This allows for much higher damage than can be achieved by a standard rail system. However, the inherent entropy of graviton pulses means that it is very hard to maintain accuracy at long range. 75% reduced optimal range. 25% increased tracking speed. Note: This ammunition can only be used by capital tech level II and faction Railguns.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

The Null is an improved version of the standard Thorium charge that possesses greatly improved molecular cohesion, resulting in superior range and reduced particle dissipation. 40% increased optimal range. 25% reduced tracking speed. 40% increased falloff range. Note: This ammunition can only be used by large tech level II, faction and officer Blasters.

The Null is an improved version of the standard Thorium charge that possesses greatly improved molecular cohesion, resulting in superior range and reduced particle dissipation. 40% increased optimal range. 25% reduced tracking speed. 40% increased falloff range. Note: This ammunition can only be used by medium tech level II and faction Blasters.

The Null is an improved version of the standard Thorium charge that possesses greatly improved molecular cohesion, resulting in superior range and reduced particle dissipation. 40% increased optimal range. 25% reduced tracking speed. 40% increased falloff range. Note: This ammunition can only be used by small tech level II and faction Blasters.

The Null is an improved version of the standard Thorium charge that possesses greatly improved molecular cohesion, resulting in superior range and reduced particle dissipation. 40% increased optimal range. 25% reduced tracking speed. 40% increased falloff range. Note: This ammunition can only be used by capital tech level II and faction Blasters.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of antimatter atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced optimal range.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iridium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 20% increased optimal range. 24% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of iron atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 60% increased optimal range. 30% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of lead atoms suspended in a plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 50% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of plutonium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 37.5% reduced optimal range. 5% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

The Spike munition package is designed to deliver huge damage to targets at extreme distances. It consists of a superdense plutonium sabot mounted on a small rocket unit that provides a substantial boost to the sabots impact velocity. However, the charge is next to useless at close range. 80% increased optimal range. 75% reduced tracking speed. Note: This ammunition can only be used by large tech level II, faction and officer Railguns.

The spike munition package is designed to deliver huge damage to targets at extreme distances. It consists of a superdense plutonium sabot mounted on a small graviton booster unit that provides a substantial boost to the sabots impact velocity. However, the charge is next to useless at close range. 80% increased optimal range. 75% reduced tracking speed. Note: This ammunition can only be used by medium tech level II and faction Railguns.

The spike munition package is designed to deliver huge damage to targets at extreme distances. It consists of a superdense plutonium sabot mounted on a small rocket unit that provides a substantial boost to the sabots impact velocity. However the charge is next to useless at close range. 80% increased optimal range. 75% reduced tracking speed. Note: This ammunition can only be used by small tech level II and faction Railguns.

The spike munition package is designed to deliver huge damage to targets at extreme distances. It consists of a superdense plutonium sabot mounted on a small rocket unit that provides a substantial boost to the sabots impact velocity. However the charge is next to useless at close range. 80% increased optimal range. 75% reduced tracking speed. Note: This ammunition can only be used by capital tech level II and faction Railguns.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of thorium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 12.5% reduced optimal range. 40% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of tungsten atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 40% increased optimal range. 27% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

Extra Large Hybrid Charge. Can be used only by starbase defense batteries and capital ships like dreadnoughts. Consists of two components: a shell of titanium and a core of uranium atoms suspended in plasma state. Railguns launch the shell directly, while particle blasters pump the plasma into a cyclotron and process the plasma into a bolt that is then fired. 25% reduced optimal range. 8% reduced capacitor need.

The Void Xenon charge is a high-powered blaster charge that delivers an extremely powerful blast of kinetic energy. However, it has several serious drawbacks, most notably the fact that it requires considerably more capacitor energy than any other blaster charge. It also needs to maintain a clean aim for a slightly longer time than normal. 25% reduced optimal range. 25% reduced tracking speed. 50% reduced falloff range. Note: This ammunition can only be used by large tech level II, faction and officer Blasters.

The Void Xenon charge is a high-powered blaster charge that delivers an extremely powerful blast of kinetic energy. However, it has several serious drawbacks, most notably the fact that it requires considerably more capacitor energy than any other blaster charge. It also needs to maintain a clean aim for a slightly longer time than normal. 25% reduced optimal range. 25% reduced tracking speed. 50% reduced falloff range. Note: This ammunition can only be used by medium tech level II and faction Blasters.

The Void Xenon charge is a high-powered blaster charge that delivers an extremely powerful blast of kinetic energy. However, it has several serious drawbacks, most notably the fact that it requires considerably more capacitor energy than any other blaster charge. It also needs to maintain a clean aim for a slightly longer time than normal. 25% reduced optimal range. 25% reduced tracking speed. 50% reduced falloff range. Note: This ammunition can only be used by small tech level II and faction Blasters.

The Void Xenon charge is a high-powered blaster charge that delivers an extremely powerful blast of kinetic energy. However, it has several serious drawbacks, most notably the fact that it requires considerably more capacitor energy than any other blaster charge. It also needs to maintain a clean aim for a slightly longer time than normal. 25% reduced optimal range. 25% reduced tracking speed. 50% reduced falloff range. Note: This ammunition can only be used by capital tech level II and faction Blasters.