8 6
There is an infinite list of sets of numbers with a GCF of 6. 6 and 12, for instance.
The complex conjugate pair, -6 -8.7178i and -6 +8.7178i where i is the imaginary square root of -1.The complex conjugate pair -6 -8.7178i and -6 +8.7178i where i is the imaginary square root of -1.
48/6+48 = 56
-7 and -6 is one pair. 6 and 7 is the other, more boring pair.-7 and -6 is one pair. 6 and 7 is the other, more boring pair.-7 and -6 is one pair. 6 and 7 is the other, more boring pair.-7 and -6 is one pair. 6 and 7 is the other, more boring pair.
6 is paired with 8 in order to give you 48. 6x8=48
6 x 8 = 48
6 x 8 = 48
8 + 6 = 14 8 x 6 = 48
When you multiply the first number of a pair by six, you get the second number of the pair. 2 x 6 = 12 5 x 6 = 30 8 x 6 = 48 12 x 6 = 72
8
8 6
6 x 4 = 24
There are no whole factors of 360 that add to -48, however: (-24 - 6√6) & (-24 + 6√6) ≈ -38.697 & -9.303 will add to -48 and multiply to 360.
There is an infinite list of sets of numbers with a GCF of 6. 6 and 12, for instance.
The complex conjugate pair, -6 -8.7178i and -6 +8.7178i where i is the imaginary square root of -1.The complex conjugate pair -6 -8.7178i and -6 +8.7178i where i is the imaginary square root of -1.
3x+5y=48 5y=48-3x-3x+5y=12 -3x+(48-3x)=12-6x=-36x=65y=48-3(6)5y=30y=6(6,6)