The GCF of any set of numbers implies that all numbers in the set are multiples of the GCF.
The multiples of 17 are 17,34,51 etc.
If the greater number is 51 (which is an odd number) then the only solution for the other number (which is even and less than 51) is 34.
52 is the smallest even number greater than 50.
22,24,26,28,30,32,34,36,38,40... Add two to the previous number as two is the lowest even number.
Yes. An even number will always have as it's factors, itself, 1, 2 and another number. So the minimum number of factors for an even number other than 2 is four.
The factors of 20 are: 1,2,4,5,10,20 So; 4 and 10 are the even factors of 20 which are greater than 3.
There is no such number. For if you considered 49.99 to be such a number, then 49.995 is a greater number and it is less than 50. And then 49.9955 is even greater and still less than 50. This process can go on without end.
3
Since the greater number 57 is an odd number, then the other number must be 38 which is an even number, smaller than 57.
86
52 is the smallest even number greater than 50.
38 is 2 x 19
The smallest even number greater than 30,000 is 30,002.
There is no such number. Whatever number you choose, it is possible to find one that is even greater (closer to 400).
The same as every other even numbers greater than 2, 124 is a composite number.
Yes, a composite number is a positive integer which has a positive divisor other than one or itself. By definition, every integer greater than one is either a prime number or a composite number and since 2 is the only even prime number the result is every number greater than 2 is a composite number
The smallest even number greater than 30,000 might contain a number like 30,002.
104 is composite. So is every other even number greater than 2.
No. There is no even number greater than 2 that is a prime and 1086 is an even number.