100210220012011 has 2 divisors, whose sum is σ = 100210220012012. Its totient is φ = 100210220012010.

The previous prime is 100210220011981. The next prime is 100210220012047. The reversal of 100210220012011 is 110210022012001.

It is a weak prime.

It is an emirp because it is prime and its reverse (110210022012001) is a distict prime.

It is a cyclic number.

It is not a de Polignac number, because 100210220012011 - 2⁷ = 100210220011883 is a prime.

It is a junction number, because it is equal to n+sod(n) for n = 100210220011982 and 100210220012000.

It is not a weakly prime, because it can be changed into another prime (100210220012411) by changing a digit.

It is a pernicious number, because its binary representation contains a prime number (19) of ones.

It is a polite number, since it can be written as a sum of consecutive naturals, namely, 50105110006005 + 50105110006006.

It is an arithmetic number, because the mean of its divisors is an integer number (50105110006006).

Almost surely, 2^{100210220012011} is an apocalyptic number.

100210220012011 is a deficient number, since it is larger than the sum of its proper divisors (1).

100210220012011 is an equidigital number, since it uses as much as digits as its factorization.

100210220012011 is an odious number, because the sum of its binary digits is odd.

The product of its (nonzero) digits is 16, while the sum is 13.

Adding to 100210220012011 its reverse (110210022012001), we get a palindrome (210420242024012).

The spelling of 100210220012011 in words is "one hundred trillion, two hundred ten billion, two hundred twenty million, twelve thousand, eleven".