Aryabhata I was born in Kerala, India, but moved to Kusumapura early in life. His contribution to mathematics and science is vast, from approximating Pi better than anyone in his time period to deducing the Earth is round. He had many scientific and mathematic discoveries, which he wrote about in his book, the Aryabhatiya. He declared that the Earth rotates on its own axis and used logic to determine that this is what created night and day. (Jain)
Part of Aryabhata’s fame was brought by his debunking myths of both religious and general varieties. Instead of the previously believed “fact” distributed by the Hindu priests that it was a demon’s head named Rahu swallowing the sun and moon, Aryabhata proved them wrong by driving the theory that eclipses happen because of the shadow given off by the earth and moon in place of the Hindu myth. Another myth he disproved by declaration was the thought that the moon gave off its own light, giving it the glow that dominated the night sky. In 499 A.D., at age 23, he wrote Aryabhatiya, which would be known as his famous astronomical opus. As a result of his paper, the Gupta dynasty ruler, Buddhagupta, gave him the title of Head of the Nalanda University to recognize his intellect (Kumar).
Later, it is believed that he wrote another book, called the Aryabhata-siddhanta, but it is now lost (Jain).
The book is split into three parts: the Ganita, which translates to Mathematics; the Kala-Kriya, which contains Time Calculations; and the Gola, which is mainly sphere mathematics. The Ganita is astonishing because of its lack of proof concerning the 66 rules it provides (“Aryabhata I”).
The Review on Myth Book Report
MYTH BOOK REPORT Title - Prometheus Steals Fire From Heaven Author - Shortened, Simplified version of real story. Author Unknown I. Setting: The setting for the story Prometheus Steals Fire From Heaven is In heaven, Earth, Olympus, and Mt. Caucasus. The time period is that of when there were only the (Greek) gods, and no men on earth, and none of the animals seemed worthy to rule the rest. II. ...
Aryabhata’s mind is also the basis of algebra, geometry, and trigonometry. He created the equation for finding the circumference of a circle using the radius instead of the diameter, like the Greeks used. For this equation, C = 2πr2, he had to have a close value for π, which he successfully approximated somehow, and shared his discovery in Aryabhatiya: “’Add four to one hundred, multiply by eight and then add sixty-two thousand. The result is approximately the circumference of a circle of diameter twenty thousand. By this rule the relation of the circumference to diameter is given.’ In other words, n = 62382/20000 = 3.1416, correct to four rounded-off decimal places” (Jacobs).
The advancements on finding the numerical value of π have dramatically increased since then, having calculated numbers on the upside of 5 trillion. His contributions to the mathematical world are still vast, and his discoveries are the foundation for modern algebra and through that, most of math overall.
Aryabhata I calculated the length of a sidereal rotation and year in his book as well. As for the sidereal rotation, he used the stars to determine that the time per day was 23 hours, 56 minutes, and 4.1 seconds. The present value is 23 hours, 56 minutes, and 4.091 seconds. For the sidereal year, he found it to be 365 days, 6 hours, 12 minutes, and 30 seconds, when the modern calculation is a mere 3 minutes and 20 seconds less than Aryabhata’s value.
Aryabhata also impacted Trigonometry by his definitions of sine (jya), cosine (kojya), versine (utkrama-jya), and inverse sine (otkram jya).
“He was the first to specify sine and versine (1-cos x) tables, in 3.75° intervals from 0° to 90°, to an accuracy of 4 decimal places” (Kumar).
The modern names “sine” and “cosine” are also believed to be mistranslations of the words introduced by Aryabhata, Jya and Kojya.
In the field of Algebra, he provided results for the summation of series of squares:
He did not disappoint the series of cubes:
As for remembering the great Aryabhata, he has many colleges named after him, such as the Aryabhata Knowledge University in Bihar and the Aryabhata Research Institute of Observational Sciences (ARIOS) near Nainital, India.
The Term Paper on Web Services part 1
Web Services. Web Services are not implemented in a monolithic way, but rather represent a collection of several related technologies. A new language was developed in the Internet back in 1999. What were the reasons for that? The old one was called HTML, and it was a gear for the whole internet, especially for the area called World Wide Web, development process. Now the Web outgrew its creator and ...
India’s first satellite also shared his name. (Kumar)
Works Cited
“Aryabhata I.” Medieval History. About.com, 2014. Web. 27 Apr. 2014. .
Jacobs, James Q. “The Àryabhatíya of Àryabhata.” The Àryabhatíya of Àryabhata by J. Q. Jacobs. J.Q. Jacobs, 1997. Web. 15 Mar. 2014. .
Jain, Ankur. “Aryabhatta Biography.” Aryabhatta Scientists | Biography. Study Helpline, 2011. Web. 27 Apr. 2014. .
Kumar, Amit. “Aryabhatta- The Great Indian Mathematician.” The Braves and Smarts. Web. 10 Mar. 2014. .
O’Connor, J.J., and E.F. Robertson. “Aryabhata the Elder.” School of Mathematics and Statistics University of St. Andrews, Scotland. Nov. 2000. Web. 10 Mar. 2014. .