They are all the multiples of 4.
Yes.
All multiples of 64 are multiples of 8.
Since 8 is a multiple of 2 and 4, all multiples of 8 are also multiples of both of them. Thus, Jose and maria are both correct.
All the even numbers are multiples of 2
All the multiples of 590, which are infinite.
109, 218, 327, 436, 545, 654, 763, 872, 981, 1090, 1199, . . .
All numbers that are multiples of 2. All numbers that are 2,4,6,8, or end in 2,4,6,8,0.
There are an infinite number of them: 872, 1744, 2616, 3488, 4360, 5232, 6104, 6976, 7848, 8720, 9592, 10464, ... All even multiples of the lowest common multiple (lcm) of any two numbers are even numbers divisible by the two numbers, and as there are an infinite number of even numbers, there are an infinite number of even numbers divisible by any two numbers, including 8 and 109. As lcm(8, 109) = 872 which is even, the odd multiples of the lcm are also even numbers exactly divisible by 8 and 109. So all multiples of the lcm of 8 and 109 are even numbers divisible by 8 and 109; and there are an infinite number of them!
They are all the multiples of 16.They are all the multiples of 16.They are all the multiples of 16.They are all the multiples of 16.
They are all multiples.
Not all multiples of 40 are multiples of 80. Only the even multiples of 40 are also multiples of 80. The odd multiples, e.g. 40, 120, 200, 280, and 360, are not multiples of 80.
All multiples of 8 are also multiples of 2, but not all multiples of 2 are multiples of 8.
All multiples MUST be multiples of 4.
Both of them.
Some of the multiples of 14 are the same as the multiples of 16, but not all of them.
All the multiples of 64 are also multiples of 32.