This answer has infinately many solutions, therefore cannot be answered by any human being.
No multiples of the same number greater than one can be co-prime, since they will both have that number as a factor.
Since both 11 and 13 are prime numbers, the LCM of these 2 number is 11 * 13 = 143. All multiples of 143 are multiples of 11 and 13 as well
13 is a prime number, which means the only multiple of the number is 1.
There is an infinite number of common multiples for 12 and 13, and each is a multiple of the LCM of 12 and 13, which is 156, 312, 468, 624, 780, 936, and so on.
As many as you like because 13 is a prime number in its own right
13 and all its multiples are divisible by 13.
If you are talking about factors, there is only the number 1, because 13 is a prime number. If you are talking about multiples, then there are an infinite number of multiples (e.g. 50 x 13 = 650).
No multiples of the same number greater than one can be co-prime, since they will both have that number as a factor.
This is a nonsensical question. There are more than 13 multiples of 10 - in fact there are an infinite number. And there are multiples of 10 which have an infinite number of factors - so there cannot be a "largest" number of factors.
Since both 11 and 13 are prime numbers, the LCM of these 2 number is 11 * 13 = 143. All multiples of 143 are multiples of 11 and 13 as well
Itself and any other number multiplied by 13
There are not 3 multiples of 13. Thirteen is a prime number, meaning the only factors are 1 and 13.
13 is a prime number, which means the only multiple of the number is 1.
Any of its multiples
There are an infinite number of multiples of 13. Here are 10 of them: 13 26 39 65 117 130 273 793 806 2,119
It is: 182 and its multiples
There is an infinite number of common multiples for 13 and 17. A common multiple of any two numbers is any number into which each of two or more number can be divided with zero remainder.