The main generalization you can make about all multiples of 5 would be that they will either end in the digit 0 or 5. So 5, 487975, 100, and so on all are multiples of 5. I don't believe there are any other generalizations that can be made about it.
All decimals, and all whole numbers that do not end in zero or 5, are not multiples of 5 .
False, all multiples of 10 end in 0. All multiples of 5 end in 5 or 0.
they all don't 5*2=10 so all of them do not end in 5 just a half .. even multiples ends with 0, odd multiples ends with 5.
Well, multiples go on forever so the multiples for 5 and 6 go on forever.
Any and all multiples of 60.
Since 10 is a multiple of 5, all multiples of 10 are multiples of 5.
Since 10 is a multiple of 5, all multiples of 10 will also be multiples of 5. Test the theory. 30, 50, 100... All multiples of 10, and also of 5.
Because they are multiples of 5. All multiples of 5 have 5 as a factor, which means they are divisible by 5.
All decimals, and all whole numbers that do not end in zero or 5, are not multiples of 5 .
False, all multiples of 10 end in 0. All multiples of 5 end in 5 or 0.
Multiples of 50 are the only numbers that are both. All other multiples of 5 aren't.
All of them are.
No, 5x2 = 10 which does not end in 5. All multiples of 5 will always end in a 5 or 0
All multiples of 5 are numbers ending in either 5 or 0.
they all don't 5*2=10 so all of them do not end in 5 just a half .. even multiples ends with 0, odd multiples ends with 5.
Well, multiples go on forever so the multiples for 5 and 6 go on forever.
Since all 3 are prime numbers LCM = 3 * 5 * 7 = 105 All multiples of 105 are multiples of 3, 5 and 7