Yes, all numbers greater than 1 are.
-- All but one of them are greater than 8 . -- All but one of them are written with more than 1 digit. -- All are multiples of 4 . -- All are multiples of 2 . -- All are even numbers. -- All are positive, real, natural, integers.
Yes, all multiples of 2 that are greater than 2 are composite numbers. In addition to 1 and the number itself, 2 is a factor of all even numbers.
No, there are infinitely many of them but none of them is infinite.
All multiples of 72 are greater than 21. If you're looking for factors of 72, use 9 and 12 or 18 and 3
The first action sequence in the flow chart is to remove all multiples of 2 from numbers greater than 2. The next sequence removes removes all multiples of 3 from all numbers greater than 3. The third sequence removes all multiples of 5 from the remaining numbers greater than 5. The fourth sequence removes all multiples of 7 from the remaining numbers greater than 7. Additional sequences are added as needed to remove multiples of as many primes as desired in ascending order.
Yes, all numbers greater than 1 are.
-- All but one of them are greater than 8 . -- All but one of them are written with more than 1 digit. -- All are multiples of 4 . -- All are multiples of 2 . -- All are even numbers. -- All are positive, real, natural, integers.
Yes, all multiples of 2 that are greater than 2 are composite numbers. In addition to 1 and the number itself, 2 is a factor of all even numbers.
25 and 30
No, there are infinitely many of them but none of them is infinite.
All pairs have the same same number of multiples: [countably] infinitely many.
30, 36, 42, 48
Yes, that is true.
That's an infinite list. It starts with 36 and goes on forever.
All multiples of 72 are greater than 21. If you're looking for factors of 72, use 9 and 12 or 18 and 3
66, 72, 78, 84, 90, 96.