Energy densification
You'd be amazed how much can be packed into this little thing. You'd also be amazed at watching it blow up. El Sunk Om - Power source engineer aboard the Agamemnon
The frameworks underlying Energy densification involve advanced thermodynamics and relativistic mechanics, which dictate how energy is treated under extreme conditions such as high temperatures or intense radiation fields. Theorists apply principles from quantum mechanics when considering subatomic particles' roles in the densification process.
By exploiting the fractal properties of certain engineered materials, Energy densification is able to effectively pack more energy in repeating material "loops" - essentially increasing the amount of energy that can be packed in otherwise innocuous and neutral matter lattices.
This science is critical for advanced capacitors, portable power systems/cells and spacecraft power sources, where maximising energy storage capacity while minimising mass, space and charge/discharge rate is crucial.
Research
| Tier | 4.300 | A decimal number between 0.0 and ~12.0 indicating the overall level of "advancement" of the science |
|---|---|---|
| Type | Applied | Pure sciences are focused on research and the improvement of knowledge. Applied sciences are too, but to a lesser extent and grant access to more concrete outcomes such as blueprints, governance, and others. |
Aspects
| Physical | Abstract | |
|---|---|---|
| Natural | 14 | 0 |
| Artificial | 6 | 1 |
Aspect tiers heatmap
- 4.8004.515
- 4.8004.515
- 4.8004.515
- 6.8004.085
- 5.8004.300
- 4.8004.515
- 4.8004.515
- 4.8004.515
- 4.8004.515
- 4.8004.515
- 5.8004.300
- 4.8004.515
- 5.8004.300
- 4.8004.515
- 4.8004.515
- 4.8004.515
- 6.8004.085
- 4.8004.515
- 4.8004.515
- 4.8004.515
- 4.8004.515
Blueprints
Coming soon.