1, 2, 3
To create a numeric palindrome using two-digit numbers, take a two-digit number, such as 23, and reverse its digits to form 32. Then, combine the two numbers to create a three-digit palindrome by placing the first number before the reversed second number, resulting in 232. Thus, any two-digit number can generate a three-digit palindrome by following this method.
121
the diffrenece between two 3 digit numbers is a palindrome between 200 and 300. what are the numbers?
There is no limit to numbers, thus there is no limit to palindrome numbers.
There are more 12-digit palindromic numbers than 11-digit palindromic numbers. This is because the number of possible 12-digit palindromic numbers is greater than the number of possible 11-digit palindromic numbers. In general, the number of palindromic numbers of length n is 9 * 10^((n-1)/2), so for 11-digit palindromic numbers, there are 9 * 10^5 = 900,000 possibilities, while for 12-digit palindromic numbers, there are 9 * 10^6 = 9,000,000 possibilities.
To create a numeric palindrome using two-digit numbers, take a two-digit number, such as 23, and reverse its digits to form 32. Then, combine the two numbers to create a three-digit palindrome by placing the first number before the reversed second number, resulting in 232. Thus, any two-digit number can generate a three-digit palindrome by following this method.
121
Any number that is is a palindrome will always be a palindrome.
Any, and every, number can be transformed into a palindrome.
-1
the diffrenece between two 3 digit numbers is a palindrome between 200 and 300. what are the numbers?
There is no limit to numbers, thus there is no limit to palindrome numbers.
There are more 12-digit palindromic numbers than 11-digit palindromic numbers. This is because the number of possible 12-digit palindromic numbers is greater than the number of possible 11-digit palindromic numbers. In general, the number of palindromic numbers of length n is 9 * 10^((n-1)/2), so for 11-digit palindromic numbers, there are 9 * 10^5 = 900,000 possibilities, while for 12-digit palindromic numbers, there are 9 * 10^6 = 9,000,000 possibilities.
No.
Any single digit number is a palindrome. The Fibonacci sequence consists of infinitely many numbers so 8, being only one number, cannot be the Fibonacci sequence.
The smallest 3-digit palindrome number is 101.
That would be 26 . . . its square is 676.There are two smaller palindromic squares . . . 121 and 484 ... but they're the squares of11 and 22 respectively, which are palindromic, so they flunk the question's specifications.