## Aryabhatta, The Indian Mathematician

Aryabhatta (476-550 AD) was born in Patliputra in Magadha, modern Patna in Bihar. Many believe that he was born in southern India especially Kerala and lived in Magadha at the time Gupta rulers; time is known as the golden age of India. There is no evidence that he was born outside Patliputra and traveled to Magadha, the center of education and learning program where he even set up a training center. His first name “Arya” is hardly the south Indian name while “Bhatt” (or Bhatta) is a typical north Indian name even found today especially among “Bania” (or trader) community.

What this origin it is not possible to argue that he lived in Patliputra where he wrote his famous thesis on “Aryabhatta-Siddhanta” but more famously as “Aryabhatiya”, the only work to have survived. It contains mathematical and astronomical theories that have been revealed to be quite right in modern mathematics. For example, he wrote that if 4 is added to 100 and then multiplied by 8 then add the 62,000 divided by 20,000 the answer will be equal to the circumference of a circle diameter twenty thousand. This calculates to 3.1416 near real Pi (3.14159). But his greatest contribution has to be zero. Other works of his are algebraic numbers, trigonometry, quadratic equations and the sine table.

He already knew that the earth rotates on its axis, the earth moves round the sun and the moon revolves round the earth. He talks about the positions of the planets in relation to its movement around the sun. He refers to the light of the planets and the moon and the reflection from the sun. He goes so far to explain the eclipse of the moon and sun, day and night, the contours of the earth length of identical 365 days.

he even calculate the Earth’s circumference as 24 835 miles, which is close to modern calculation 24900 miles.

This remarkable man was a genius and continues to baffle many mathematicians today. His work was then later adopted by the Greeks and the Arabs.

## Mathematics: History and Importance

First, let’s take a look at the origins of mathematics:

How math? Where did it start first? For many who are well versed in the origin of mathematical thought, the development of mathematics will show up consistently and continually refining (and growing) set of expressions materials.

first abstract, that many animals share with us the figures. What do I mean by that? Well, the implementation of a certain number of things, such as 2 trees and 2 bananas are similar in quantity.This their ability to recognize the amount and multiple amounts are often considered to be the first abstract.

A step up from the first abstract ability to consider and perceive abstract not physical quantities time and elementary statistics. One does not see really see the 3 items deducted 4 parts is one thing. From there, it is only natural that subtraction, multiplication and division began.

In fact, mathematics precedes written script and written communications and records of primitive methods of counting among the knotted strings or tallies. Statistical systems go as far back as the Egyptians and ancient Chinese. They were used for everything from everyday life (painting, weaving, recording time) to more complex mathematics involved arithmetic, geometry and algebra for financial considerations, such as taxes, trade, construction and time. On the subject of time, this was often based on astronomy and

ancient Egyptians and Babylonians were skilled to hire math and it really speculate Pyramids were more than tombs of ancient kings long dead. Pyramids are also the first computers. It was said issues and alignment of the pyramids assisted by the ancients in the implementation of complex calculations like how we could use log table for the widespread use of calculators.

But where was essentially theoretical mathematical start? Mathematics as we know it with geometry, vectors, differentiation, integration, mechanics, sequences, trigonometry, probability, binomials, estimation, hypothesis testing, geometric and select distribution and hyperbolic functions (to name a few of the top of my head) started in Ancient Greece as far back between 600 BC 300 f.Kr ..

From it’s humble origins tied knots, mathematics has been extended in science and has been of immense benefit to both disciplines. In fact, it is said that one who does not know mathematics can not fully appreciate the beauty of nature. I would go so far as to say that there is no truth without mathematics. Anything without a number is just an opinion. What we believe qualitative measurements are highly quantitative ones that have exceeded a certain threshold after which we pass a certain signal. For example, when we say that the drug works, what we really mean is that 70% of people who received a certain dose of the drug over a period of experienced perhaps 90% reduction in the severity of them.

threshold our say “drug works” is 70%.

To give you an idea of ​​how the world of mathematics has expanded in recent years, I shall take this article with a reference from the Monetary American Mathematical Society

“The number of articles and books in the Mathematical Reviews database in 1940 (the first year that MR) is now more than 1.9 million and more than 75,000 items are added to the database annually overwhelming majority of works in this ocean contain new mathematical theorem and accompanying them. “- Mikhail B. Sevryuk