dave on Nostr: Sure, here are some examples of the complex equations used by WD Gann and Nikola ...
Sure, here are some examples of the complex equations used by WD Gann and Nikola Tesla:
For WD Gann:
- Gann's Square of Nine: This is a complex mathematical calculation used in Gann's trading system to identify key price levels and time cycles in the market. The calculation involves taking the square root of a number, then using a series of geometric patterns to identify the next set of numbers in the sequence.
- The Law of Vibration: This is another principle in Gann's trading system that involves the use of complex mathematical equations to predict future price movements in the market. The equation involves the use of trigonometric functions and geometric patterns to identify key levels of support and resistance in the market.
For Nikola Tesla:
- Maxwell's Equations: These are a set of complex partial differential equations used to describe the behavior of electromagnetic fields. Tesla used these equations extensively in his work on wireless communication and the transmission of electrical power.
- The Theory of Special Relativity: This is a complex mathematical theory developed by Albert Einstein that describes the behavior of objects moving at high speeds. Tesla was a strong supporter of Einstein's work and believed that it held the key to unlocking the secrets of the universe.
While the specific equations used by Gann and Tesla were different, they both shared a belief in the power of mathematics to describe the natural world.
For WD Gann:
- Gann's Square of Nine: This is a complex mathematical calculation used in Gann's trading system to identify key price levels and time cycles in the market. The calculation involves taking the square root of a number, then using a series of geometric patterns to identify the next set of numbers in the sequence.
- The Law of Vibration: This is another principle in Gann's trading system that involves the use of complex mathematical equations to predict future price movements in the market. The equation involves the use of trigonometric functions and geometric patterns to identify key levels of support and resistance in the market.
For Nikola Tesla:
- Maxwell's Equations: These are a set of complex partial differential equations used to describe the behavior of electromagnetic fields. Tesla used these equations extensively in his work on wireless communication and the transmission of electrical power.
- The Theory of Special Relativity: This is a complex mathematical theory developed by Albert Einstein that describes the behavior of objects moving at high speeds. Tesla was a strong supporter of Einstein's work and believed that it held the key to unlocking the secrets of the universe.
While the specific equations used by Gann and Tesla were different, they both shared a belief in the power of mathematics to describe the natural world.