Terafarad example sentences

"Terafarad" Example Sentences

1. The capacitor bank, boasting a capacity of several terafarads, powered the experimental fusion reactor.
2. A terafarad capacitor is a truly colossal device.
3. His theoretical calculations predicted the existence of a component with a capacitance exceeding a terafarad.
4. They needed a specialized charging system to handle such a massive terafarad capacitor.
5. Imagine a single terafarad – it’s almost unimaginable in scale!
6. The sheer size of the terafarad-level capacitor dwarfed the surrounding equipment.
7. Is a terafarad even practically achievable with current technology?
8. Even a fraction of a terafarad would be significant for most applications.
9. The research paper detailed the design of a novel terafarad-scale energy storage system.
10. Building a device with a capacity approaching a terafarad presents numerous engineering challenges.
11. The engineers struggled to find a suitable dielectric for the terafarad capacitor.
12. A terafarad capacitor might be necessary for future power grid stabilization.
13. The cost of materials alone would make a terafarad capacitor prohibitively expensive.
14. We need to explore new materials to even approach building a terafarad capacitor.
15. The experiment involved discharging a massive terafarad capacitor in a controlled environment.
16. Few laboratories possess the infrastructure to handle a terafarad capacitor safely.
17. Imagine the potential energy stored in a single terafarad capacitor at high voltage.
18. The theoretical implications of achieving a terafarad capacitor are vast.
19. Could a terafarad capacitor revolutionize energy storage technology?
20. Working with a terafarad capacitor requires rigorous safety protocols.
21. The sheer weight of a terafarad capacitor would be substantial.
22. A terafarad capacitor is far beyond the scope of most consumer electronics.
23. Research into high-capacity dielectrics is crucial for achieving terafarad-scale capacitors.
24. The energy density of a terafarad capacitor is a key area of investigation.
25. They were attempting to miniaturize a design for a terafarad capacitor.
26. Despite the challenges, the pursuit of a terafarad capacitor continues.
27. The project aimed to develop a practical application for a terafarad capacitor.
28. A terafarad-sized capacitor is currently a purely theoretical concept.
29. Even a small fraction of a terafarad would represent a significant breakthrough.
30. The team successfully simulated the behavior of a terafarad capacitor.
31. This new material promises to significantly increase the achievable capacitance, possibly reaching terafarad levels.
32. Constructing a terafarad capacitor might require novel manufacturing techniques.
33. The potential applications of a terafarad capacitor are still largely unexplored.
34. Designing a terafarad capacitor requires sophisticated computational modeling.
35. The safety concerns associated with handling a terafarad capacitor are paramount.
36. A terafarad capacitor represents a significant milestone in energy storage.
37. The research team is focusing on increasing the energy density of terafarad-scale capacitors.
38. The feasibility study concluded that building a terafarad capacitor is currently impractical.
39. A terafarad capacitor could potentially power entire cities for short durations.
40. The size and weight restrictions make building a terafarad capacitor a considerable challenge.
41. They explored different dielectric materials to optimize the performance of a terafarad capacitor.
42. The concept of a terafarad capacitor is both exciting and daunting.
43. The energy released by a discharging terafarad capacitor would be tremendous.
44. A terafarad capacitor would require incredibly robust insulation.
45. Future advancements in materials science may enable the creation of a terafarad capacitor.
46. The cost-effectiveness of a terafarad capacitor is a major obstacle.
47. For certain applications, even a small portion of a terafarad could be revolutionary.
48. The challenge of heat dissipation in a terafarad capacitor is substantial.
49. Research into terafarad-level energy storage is ongoing in several labs worldwide.
50. The theoretical limits of a terafarad capacitor are still being investigated.