There are a lot of multiples
* * * * *
Not just a lot but infinitely many.
33 multiples of 3 10 multiples of 10 -3 multiples of both 40 total
45 multiples of 2 plus 30 multiples of 3 minus 15 multiples of 6 equals 60 numbers
3,333.
1st do 226-10.This is 216.Then do 216 /3 which is 72.So there are 72 multiples of 3 between 10 and 226.
There are 16 multiples of 6 in that range.
Any number has an infinite number of multiples.
Multiples of 3 are easy to identify. Their digits add up to a multiple of 3.
33 multiples of 3 10 multiples of 10 -3 multiples of both 40 total
45 multiples of 2 plus 30 multiples of 3 minus 15 multiples of 6 equals 60 numbers
99/3 = 33
3,333.
Half of them. Any number that is a multiple of 6 is also a multiple of 3 and 2.
There are infinitely many multiples of ten. There are infinitely many sets of 2, 3, 4, ..., infinitely many numbers that add up each one of the multiples of ten. It is, therefore, impossible to answer the question.There are infinitely many multiples of ten. There are infinitely many sets of 2, 3, 4, ..., infinitely many numbers that add up each one of the multiples of ten. It is, therefore, impossible to answer the question.There are infinitely many multiples of ten. There are infinitely many sets of 2, 3, 4, ..., infinitely many numbers that add up each one of the multiples of ten. It is, therefore, impossible to answer the question.There are infinitely many multiples of ten. There are infinitely many sets of 2, 3, 4, ..., infinitely many numbers that add up each one of the multiples of ten. It is, therefore, impossible to answer the question.
297
There are 40/3 or 13.33... recurring.
There are infinitely many common multiples of 3, 5 and 7, each one 105 larger than the previous one. Or to put it another way: the common multiples of 3, 5 and 7 are the multiples of their lowest common multiple which is 105. ie their common multiples are all the multiples of 105, of which there is no end - there is an infinite number of multiples of 105 (or any other number [except zero]).
333