The first twenty positive integer multiples of 14 are:
14 x 1 = 14
14 x 2 = 28
14 x 3 = 42
14 x 4 = 56
14 x 5 = 70
14 x 6 = 84
14 x 7 = 98
14 x 8 = 112
14 x 9 = 126
14 x 10 = 140
14 x 11 = 154
14 x 12 = 168
14 x 13 = 182
14 x 14 = 196
14 x 15 = 210
14 x 16 = 224
14 x 17 = 238
14 x 18 = 252
14 x 19 = 266
14 x 20 = 280
That isn't possible. Each of them has infinitely many multiples. If you want the common multiples, use the usual method to get the LEAST common multiple, then multiply that by 2, by 3, by 4, etc. to get additional multiples. But here, too, there are infinitely many of them.
The multiples of 14 and 21 are are 42, 84, 126 and so on.
0, 14, 28, 42, 56, 70, 84, 98, 112, 126, 140, 154, 168, 182, 196, 110 ! i think...
Multiples of 14 include 14, 28 and 42. For them to be common, they need to be compared to another set of multiples.
14, 28, 42, 56
14, 28, 42, 56, 70
None of the multiples of 14 are prime.
there are no prime multiples for 75 the prime factors or 75 are 5, 5, and 3
Since both 2 and 7 are prime, the LCM of 2 and 7 is simply their product, 14.
prime numbers can only be multiples of 1 and itself. perhaps 3 is just the number you want.
the common multiples of 42 and 14 from 1-100 is 42,and 84
-14, -28, -42 and so on.
There are no multiples of 72 that are prime.
No, multiples of prime numbers are composite.
12 doesn't have any prime multiples.
Multiples aren't prime.
Multiples of 7, like 7, 14, 21 and so on.
there are no prime multiples for 75 the prime factors or 75 are 5, 5, and 3
Prime factorizations are unique. No other number will have exactly the same number of prime factors as 28. Multiples of 14 will have some of the same factors.
Multiples of 7 are 7, 14, 21, 28, 35, 42, 49, ..... None of these are prime numbers except 7.
Some of the multiples of 14 are the same as the multiples of 16, but not all of them.
Multiples of 6 cannot, by definition, be prime numbers!
14 has an infinite number of multiples.
Multiples of 10 cannot be prime.