That's an infinite list. 200 is on it.
No they do not, take a big prime number and compare it to a smaller composite number. The number 6833 as only two factors (divisors), namely 1 and itself. But the number 68 which is much smaller has more factors or divisors. 68 has 2 and 4 and 17 and 1 and itself which is already more divisors than 6833.
Big head orMUMAS DEAD,WHATA HEAD,
It makes very big or very small numbers more manageable.
The most common encryption schemes employ composite numbers with very large factors, because it is difficult to find the factors of big numbers. Encrypted files are usually binary files, because extended data sets are more difficult to decrypt without a key. The data is often compressed, to facilitate transmission, but really clever encryption schemes could intersperse random filler.
it allows you to multiply big numbers without times tables click to see more
Big. (That's not a number.)
The most common encryption schemes employ composite numbers with very large factors, because it is difficult to find the factors of big numbers. Encrypted files are usually binary files, because extended data sets are more difficult to decrypt without a key. The data is often compressed, to facilitate transmission, but really clever encryption schemes could intersperse random filler.
Pi actually is NOT a big number- it's only 3.14 well, there are like 500 more numbers after that, but just use 3.14. LOL.
what is big time rushes real phone numbers to call
The big numbers are atomic numbers. They are equal to number of protons. Elements are arranged in order of increasing atomic number.
big bumbs
Exactly the same way you do when they're all whole numbers, or there are more than three numbers, or they're a mixture of whole numbers and decimals: -- Add up all the numbers on the list. -- Divide the big sum by the number of items on the list.