16.53 = (1 x 101) + (6 x 100) + (5/101) + (3/102)
Not exactly because there will be remainders
No one is certain who the original creator of Pascal's Triangle is, as it is based off of combinatoric studies from India as well as the Greek knowledge of figurate numbers. It is named after Pascal because he is the mathematician that organized the material and published it first in 1653.
No doubt about it, it will take a very long time. 1 day has 86,400 seconds, and if you divide 1,000,000 by 86,400, then you'll get how much time it'll take to count 1 million seconds, which is about 11 days. If you want to get 1 billion, then you times 11 by 1,000 (because 1,000,000,000 is 1,000 times bigger than 1,000,000), and the result of this is... 11574 days, or... 1653 weeks, or... 31 years.
The set of numbers that form Pascal's triangle were well known before Pascal. But, Pascal developed many applications of it and was the first one to organize all the information together in his Traité du triangle arithmétique (1653). The numbers originally arose from Hindu studies of binomial numbers and the study of figurate numbers. The earliest explicit depictions of a triangle of binomial coefficients occur in the 10th century in commentaries on the Chandas Shastra, a book by Pingala written between the 5th and 2nd century BC.
1, 3, 6, 10, 15, 21, 28, 36, 45, 55, 66, 78, 91, 105, 120, 136, 153, 171, 190, 210, 231, 253,276, 300, 325, 351, 378, 406, 435, 465, 496, 528, 561, 595, 630, 666, 703, 741, 780, 820, 861, 903, 946, 990, 1035, 1081,1128, 1176, 1225, 1275, 1326, 1378, 1431, 1485, 1540, 1596, 1653, 1711, 1770, 1830, 1891, 1953, 2016, 2080... Thats more than 1000 hope it helps whoever needs it
Using a calculator, it is simple to find the answer is 1653
1, 3, 19, 29, 57, 87, 551, 1653
No!
in 1653
Johann Pachelbel was born in 1653. He belongs to the Baroque period. His most famous composition is Canon in D.
August 1653
5193.05265638
1653
1653
on a Pokemon battle field
It was his son Richard
1632-1653