You can't list "all the" prime and composite numbers; there are infinitely many of each of them. The first prime numbers are:
2, 3, 5, 7, 11, 13, 17, 19, 23, 29, 31 ...
You can get longer lists simply by searching the internet for "List of prime numbers".
Any counting number larger than one, which is not a prime numbers, is a composite numbers. Thus, the first composite numbers are:
4, 6, 8, 9, 10, 12, 14, 15, 16, ...
Some of them are composite, one is a prime.
97 is prime, the rest are composite.
There is no prime composite number; an integer greater than 2 can be either prime or composite, but not both. Nor can you list all the prime number and all the composite numbers: you have infinite sets in both cases.
Every positive integer greater than 1 is either prime or composite.
Not at all. The definition of a composite number is one that has more than two factors - the exact opposite of a prime.
It would be impossible to list them all, since numbers go on forever, but here are some of them: 2 - Prime 3 - Prime 4 - Composite 5 - Prime 6 - Composite 7 - Prime 8 - Composite 9 - Composite 10 - Composite 11 - Prime 12 - Composite 13 - Prime 14 - Composite 15 - Composite 16 - Composite 17 - Prime 18 - Composite 19 - Prime 20 - Composite 21 - Composite 22 - Composite 23 - Prime 24 - Composite 25 - Composite 26 - Composite 27 - Composite 28 - Composite 29 - Prime 30 - Composite 31 - Prime 32 - Composite 33 - Composite 34 - Composite 35 - Composite 36 - Composite 37 - Prime 38 - Composite 39 - Composite 40 - Composite 41 - Prime 42 - Composite 43 - Prime 44 - Composite 45 - Composite 46 - Composite 47 - Prime 48 - Composite 49 - Composite 50 - Composite
The numbers in the 90s are all composite, apart from 97, which is prime.
2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53,59,61,67,71,73,79,83,89,and 97 are all prime numbers. The rest are composite
They are all composite.
All but 97 are composite.
29 is prime, all the others in the list are composite.
Composite. All even numbers are.