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 [tex]10^{-78}[/tex] ?
The purpose of achieving high value LC circuits is to increase the efficiency and performance of electronic devices, such as radios, televisions, and computers. These circuits are used to tune and filter electronic signals, allowing for better reception and transmission of information.
High value LC circuits are achieved through the use of high quality components, such as inductors and capacitors, and precise tuning of their values. These circuits also require careful design and construction to minimize losses and interference.
Some potential benefits of achieving high value LC circuits include improved signal quality, increased range and coverage, reduced interference and noise, and better overall performance of electronic devices.
Yes, there are some limitations to achieving high value LC circuits. These include cost, as high quality components can be expensive, and size, as these circuits may require larger components or multiple components to achieve high values.
The appropriate values for a high value LC circuit will depend on the specific application and desired performance. It is best to consult with a professional or use specialized software to calculate the optimal values for your circuit.