Market
Medium
Parent groups: Market > Ammunition & Charges > Hybrid Charges > Standard ChargesSister groups: Extra Large | Large | Medium | Small
Market Items
| Image | Name | EM | Exp | Kin | The | Base Price |
|
Antimatter Charge M 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. |
14.0 | 10.0 | 4.000 | ||
|
Iridium Charge M 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. |
8.0 | 6.0 | 1.500 | ||
|
Iron Charge M 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% decreased capacitor need. |
6.0 | 4.0 | 800 | ||
|
Lead Charge M 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. |
10.0 | 6.0 | 1.750 | ||
|
Plutonium Charge M 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. |
12.0 | 10.0 | 3.250 | ||
|
Thorium Charge M 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. |
10.0 | 8.0 | 2.250 | ||
|
Tungsten Charge M 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. |
8.0 | 4.0 | 1.100 | ||
|
Uranium Charge M 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. |
12.0 | 8.0 | 2.750 |
Database: Odyssey 1.0.2 (550422)
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