The relationship between GCF, LCM, and the numbers aa and bb is:
\text{GCF}(a, b) \times \text{LCM}(a, b) = a \times bGCF(a,b)×LCM(a,b)=a×b
Given that GCF is 73 and LCM is 1752:
\text{GCF}(a, b) \times \text{LCM}(a, b) = a \times bGCF(a,b)×LCM(a,b)=a×b
73 \times 1752 = a \times b73×1752=a×b
127896 = a \times b127896=a×b
Now, you'll need to factorize 127896 to find the two numbers that, when multiplied, result in this product. After factorizing, you'll determine which pair of factors satisfies the conditions.
To find the LCM and GCF of numbers at least two or more numbers are neeeded.
The GCF of two numbers multiplied by their LCM will equal the product of the original numbers. If you know the GCF, divide it into the product of the two. The result will be the LCM. If the GCF of two numbers is 1, the LCM is their product.
The LCM of two numbers multiplied by their GCF will equal the product of the original numbers. If you know the LCM, divide it into the product. The result will be the GCF.
The product of the GCF and the LCM of two numbers is equal to the product of the original two numbers. Multiply the GCF and the LCM. The original two numbers will be another factor pair of that total. Find the factor pair that has that GCF and LCM.
You need at least two numbers to find either an LCM or a GCF.
To find the GCF and LCM at least two or more numbers must be given
You need at least two numbers to find either a GCF or an LCM.
You can find the GCF of two numbers by dividing their product by their LCM. The LCM of 30 and 42 is 210. What is their GCF? 30 x 42 = 1260 divided by 210 = 6 The GCF of 30 and 42 is 6.
You need at least two numbers to find a GCF or an LCM and the LCM of those numbers can never be less than the GCF. 12 and 360 have a GCF of 12 and an LCM of 360. So do 60 and 72.
You need at least two numbers to find a GCF.
You need at least two numbers to find a GCF or LCM, as they they are relationships between multiple numbers.
The LCM of two numbers will never be less than the GCF.