The discussion centers on achieving high values of inductance (L) and capacitance (C) in LC circuits, specifically targeting values like A x 10^(-78). Participants clarify that 10^(-45) and 10^(-78) are extremely small quantities, questioning the feasibility of such values. They emphasize the importance of using large inductors (around 1 Henry) and capacitors (around 1 Farad) for applications like high-power lasers and fusion magnets. The conversation highlights the need for precise definitions and units for the variables involved in the proposed circuit design.
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berkeman said:10(^-45) is a very small quantity, not a High one. Is it a typo?
A large L would be in the range of 1 Henry, and a large capacitor would be in the range of 1 Farad.
Super-big values like used in capacitor banks for high power lasers and in large fusion magnets would be much higher. What do you want a high LC value for?
berkeman said:Well, 10^(-78) is even smaller than your original 10^(-45).
Can you please tell us more about what you are trying to do? And please put units on your L and C and A variables. I want to help you, but so far your request for information makes no sense to me.
berkeman said:What's A, and what are its units? And by 10^(-78), do you really mean 10^{-78} ?