2 and 24 satisfy that request. So do 6 and 8.
1 x 24, 2 x 12, 3 x 8, 4 x 6, 6 x 4, 8 x 3, 12 x 2, 24 x 1
The numbers whose GCF is 2 and LCM is 24 does not exist. The numbers should be greater than their GCF and less than their LCM.
12 and 24, among others.
12 and 24
3 and 8
12 and 24 is one such pair.
4 and 24
8 and 12
No because their gcf is 8 and their LCM is 48
36 and 72 8 and 9
The GCF of 24 and 120 is 24, and the LCM of 24 and 120 is 120.
The numbers could be 4 and 24 or 8 and 12.
The GCF of 24 and 12 is 12.
which pair of numbers from 1 to 30 has the LCM OF 120
2 x 12 = 24, but there's an easier way if you remember that the product of the GCF and LCM of a pair of numbers will always be equal to the product of the two numbers.
If the GCF of two numbers is 12 and the LCM is 24, the two numbers are 12 and 24.
24 and 48 have a GCF of 24 and an LCM of 48.
2 and 24
8 and 24
3 and 8
How about: 16 and 24
24 and 48
The set of 2 and 24.
It is impossible to answer this question because of insufficient information: The question does not state how many numbers are concerned. The LCM and GCF of a pair of numbers is NOT sufficient to identify them. For example, (3, 120), (15, 24) satisfy the requirements and there is no way to determine which of them is appropriate.
In these types of problems, the numbers can also be the answer. 6 and 72 have a GCF of 6 and an LCM of 72. Since the product of the GCF and LCM of two numbers is the same as the product of the numbers, you could also use another factor pair of 432, like 18 and 24.