A palindromic number (also known as a numeral palindrome or a numeric palindrome) is a number (such as 16461) that remains the same when its digits are reversed. In other words, it has reflectional symmetry across a vertical axis. The term palindromic is derived from palindrome, which refers to a word (such as rotor or racecar) whose spelling is unchanged when its letters are reversed. The first 30 palindromic numbers (in decimal) are: Show
Palindromic numbers receive most attention in the realm of recreational mathematics. A typical problem asks for numbers that possess a certain property and are palindromic. For instance:
It is obvious that in any base there are infinitely many palindromic numbers, since in any base the infinite sequence of numbers written (in that base) as 101, 1001, 10001, 100001, etc. consists solely of palindromic numbers. Formal definitionAlthough palindromic numbers are most often considered in the decimal system, the concept of palindromicity can be applied to the natural numbers in any numeral system. Consider a number n > 0 in base b ≥ 2, where it is written in standard notation with k+1 digits ai as: with, as usual, 0 ≤ ai < b for all i and ak ≠ 0. Then n is palindromic if and only if ai = ak−i for all i. Zero is written 0 in any base and is also palindromic by definition. Decimal palindromic numbersAll numbers in base 10 (and indeed in any base) with one digit are palindromic, so there are ten decimal palindromic numbers with one digit: {0, 1, 2, 3, 4, 5, 6, 7, 8, 9}.There are 9 palindromic numbers with two digits: {11, 22, 33, 44, 55, 66, 77, 88, 99}.There are 90 palindromic numbers with three digits (Using the Rule of product: 9 choices for the first digit - which determines the third digit as well - multiplied by 10 choices for the second digit): {101, 111, 121, 131, 141, 151, 161, 171, 181, 191, …, 909, 919, 929, 939, 949, 959, 969, 979, 989, 999}There are likewise 90 palindromic numbers with four digits (again, 9 choices for the first digit multiplied by ten choices for the second digit. The other two digits are determined by the choice of the first two): {1001, 1111, 1221, 1331, 1441, 1551, 1661, 1771, 1881, 1991, …, 9009, 9119, 9229, 9339, 9449, 9559, 9669, 9779, 9889, 9999},so there are 199 palindromic numbers below 104. Below 105 there are 1099 palindromic numbers and for other exponents of 10n we have: 1999, 10999, 19999, 109999, 199999, 1099999, ... (sequence A070199 in the OEIS). The number of palindromic numbers which have some other property are listed below:
Perfect powersThere are many palindromic perfect powers nk, where n is a natural number and k is 2, 3 or 4.
The first nine terms of the sequence 12, 112, 1112, 11112, ... form the palindromes 1, 121, 12321, 1234321, ... (sequence A002477 in the OEIS) The only known non-palindromic number whose cube is a palindrome is 2201, and it is a conjecture the fourth root of all the palindrome fourth powers are a palindrome with 100000...000001 (10n + 1). G. J. Simmons conjectured there are no palindromes of form nk for k > 4 (and n > 1).[2] Other basesPalindromic numbers can be considered in numeral systems other than decimal. For example, the binary palindromic numbers are those with the binary representations: 0, 1, 11, 101, 111, 1001, 1111, 10001, 10101, 11011, 11111, 100001, ... (sequence A057148 in the OEIS)or in decimal: 0, 1, 3, 5, 7, 9, 15, 17, 21, 27, 31, 33, ... (sequence A006995 in the OEIS)The Fermat primes and the Mersenne primes form a subset of the binary palindromic primes. Any number is palindromic in all bases with (trivially so, because is then a single-digit number), and also in base (because is then ). Even excluding cases where the number is smaller than the base, most numbers are palindromic in more than one base. For example, , . A number that is non-palindromic in all bases where is called a strictly non-palindromic number. In base 7, because 1017 is twice a perfect square (52=347), several of its multiples are palindromic squares:
In base 18, some powers of seven are palindromic:
And in base 24 the first eight powers of five are palindromic as well:
A palindromic number in base b that is made up of palindromic sequences of length l arranged in a palindromic order (such as 101 111 010 111 1012) is palindromic in base bl (for example the above binary number is palindromic in base 23=8 (it is equal to 572758)) The square of 13310 in base 30 is 4D302 = KKK30 = 3R362 = DPD36. In base 24 there are more palindromic squares due to 52 = 11. And squares of all numbers in the form 1666...6667 (with any number of 6'es between the 1 and 7) are palindromic. 1672 = 1E5E1, 16672 = 1E3K3E1, 166672 = 1E3H8H3E1. Antipalindromic numbersIf the digits of a natural number don't only have to be reversed in order, but also subtracted from to yield the original sequence again, then the number is said to be antipalindromic. Formally, in the usual decomposition of a natural number into its digits in base , a number is antipalindromic iff .[3] Lychrel processNon-palindromic numbers can be paired with palindromic ones via a series of operations. First, the non-palindromic number is reversed and the result is added to the original number. If the result is not a palindromic number, this is repeated until it gives a palindromic number. Such number is called "a delayed palindrome". It is not known whether all non-palindromic numbers can be paired with palindromic numbers in this way. While no number has been proven to be unpaired, many do not appear to be. For example, 196 does not yield a palindrome even after 700,000,000 iterations. Any number that never becomes palindromic in this way is known as a Lychrel number. On January 24, 2017, the number 1,999,291,987,030,606,810 was published in OEIS as A281509 and announced "The Largest Known Most Delayed Palindrome". The sequence of 125 261-step most delayed palindromes preceding 1,999,291,987,030,606,810 and not reported before was published separately as A281508. Sum of the reciprocalsThe sum of the reciprocals of the palindromic numbers is a convergent series, whose value is approximately 3.37028... (sequence A118031 in the OEIS). Scheherazade numbersScheherazade numbers are a set of numbers identified by Buckminster Fuller in his book Synergetics.[4] Fuller does not give a formal definition for this term, but from the examples he gives, it can be understood to be those numbers that contain a factor of the primorial n#, where n≥13 and is the largest prime factor in the number. Fuller called these numbers Scheherazade numbers because they must have a factor of 1001. Scheherazade is the storyteller of One Thousand and One Nights, telling a new story each night to delay her execution. Since n must be at least 13, the primorial must be at least 1·2·3·5·7·11·13, and 7×11×13 = 1001. Fuller also refers to powers of 1001 as Scheherazade numbers. The smallest primorial containing Scheherazade number is 13# = 30,030. Fuller pointed out that some of these numbers are palindromic by groups of digits. For instance 17# = 510,510 shows a symmetry of groups of three digits. Fuller called such numbers Scheherazade Sublimely Rememberable Comprehensive Dividends, or SSRCD numbers. Fuller notes that 1001 raised to a power not only produces sublimely rememberable numbers that are palindromic in three-digit groups, but also the values of the groups are the binomial coefficients. For instance, This sequence fails at (1001)13 because there is a carry digit taken into the group to the left in some groups. Fuller suggests writing these spillovers on a separate line. If this is done, using more spillover lines as necessary, the symmetry is preserved indefinitely to any power.[5] Many other Scheherazade numbers show similar symmetries when expressed in this way.[6] Sums of palindromesIn 2018, a paper was published demonstrating that every positive integer can be written as the sum of three palindromic numbers in every number system with base 5 or greater.[7] See also
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How many 6 digit palindromes are there?You can conclude that there are 900 palindromes withfive and 900 palindromes with six digits.
What is the greatest 6 digit palindrome number?This is Expert Verified Answer. 891198 is ix digit number.. It is multiple by six.. So it is Largest 6-digit palindrome which is a multiple of 6.. What is the maximum number of 5 letter palindromes?It implies that the maximum possible number of five letter palindromes is 17576 because the fourth letter is the same as the second letter and the fifth letter is the same as the first letter.
What is the smallest 6 digit palindrome number?The smallest palindrome for any digit is going to be 1 than the number of digits - 2 than 1. So in this case it would be since there are 6 digits, it will be 4 0s. So 100001. HOPE THIS HELPED!
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