Ancient Mathematical Physics V
Paul T E Cusack*
Engineer, 23 Park Ave. Saint John, NB E2J 1R2, Canada
Submission: September 16, 2021; Published: September 29, 2021
*Corresponding author: Paul T E Cusack, Engineer, 23 Park Ave. Saint John, NB E2J 1R2, Canada
How to cite this article: Paul T E Cusack. Ancient Mathematical Physics V. Glob J Arch & Anthropol. 2021; 12(1): 555827. DOI: 10.19080/GJAA.2021.12.555827
Abstract
Continuing with the theme of Ancient mathematical physics, we see in this paper that Brahmagupta knew more mathematical physics than we previously knew until Astrotheology.
Keywords: Brahmagupta; Ancient Indian Mathematics; Astrotheology
Introduction
In this paper, we consider what Brahmagupta knew in 600 AD. We will see that he knew more mathematical physics than we knew today, until Astrotheology Brahmagupta (597-668AD) the great Indian Mathematician, knew all this math and physics. For example, he had a value for Pi=3.162; knew the quadratic equation; found the formula to calculate the area of a four-sided figure inscribed in a circle; established rules for working with positive and negative numbers. The debate between Newton and Leibniz is a moot point. Calculus was known to the Indian Mathematician Brahmagupta in the 7th Century. It may have been known centuries earlier by the Sumerians, Babylonians, and Egyptians.
From the blog “The Storey of Mathematics”, we learn that the Babylonian Mathematicians knew all about Astrotheology Mathematics [1].
(Figure 1) Functions, algebra, linear equations, quadratics, cubic
This all comes from Astrotheology Mathematics (Figures 2 & 3).
So how do we get negative area?
The Area turned out to be
Time is always positive. Yet, E can be negative (Figure 4).
So, M can be negative between 0 & 1.
So, time is always positive. Energy can be negative (-1). Mass can be negative.
Time is always positive.
So
Positive x positive=-positive
Negative x negative =positive.
Positive x negative =negative
t is always positive. Therefore, E must always be positive. And M must also be always positive.
Therefore, t can be negative.
Conclusion
We see that there is proof that at math is ancient. The ancient mathematicians knew a lot more mathematical physics than we previously thought.
References
- Brahmagupta | The Great Indian Mathematician and Astronomer (cuemath.com).