| | Energy Science Made Simple |
| | 0,42 | | MB |
| | 47 | | stron |
| | 4148 | | ID | Ben Wiens Energy Science Inc. |
| | 2004 | | rok |
| | CONTENTS 32pg 171K 32fig |
| | 0. Update |
| | 1. Introduction |
| | 2. Modern Energy Science |
| | 3. Defining energy |
| | 4. Theories of what fills the universe |
| | 5. Reasons for a Theory of Everything |
| | 6. Substratum Field Wavicle Theory of Everything |
| | 7. Observer and absolute systems |
| | 8. Substratum, force fields, energy wavicles |
| | 9. Wavicles vs particles and waves |
| | 10. External energy vs internal energy |
| | 11. First and second laws of energy |
| | 12. Second-law evaluations |
| | 13. Forms of energy |
| | 14. Units |
| | 15. Temperament vs temperature |
| | 16. Types of mass and energy |
| | 17. Momentum, impulse, acceleration, forces |
| | 18. Energy vs work and heat |
| | 19. Caloric energy |
| | 20. Helmholtz energy |
| | 21. The carnot ratio and helmholtz ratio |
| | 22. Helmholtz ratio vs entropy |
| | 23. Reversible and irreversible processes |
| | 24. Energy transformation |
| | 25. Efficiency terms |
| | 26. Is perpetual motion possible? |
| | 27. Hydro-power |
| | 28. Solar energy conversion |
| | 29. Gas turbine |
| | 30. Chemical transformation on a gas turbine |
| | 31. Electrochemical fuel cells |
| | 32. Refrigerator |
| | 33. Food calories to muscle power |
| | 34. Energy science history |
| | 35. Symbols |
| | 36. Notes |
| | 37. References |
| | 38. Revision history |