The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 24$, we started with $\displaystyle 6\times4$ so our answer must use those numbers, but in a different order. 

$\displaystyle 6\times4=24$ and $\displaystyle 4\times6=24$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 12$, we started with $\displaystyle 2\times6$ so our answer must use those numbers, but in a different order. 

$\displaystyle 2\times6=12$ and $\displaystyle 6\times2=12$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 30$, we started with $\displaystyle 3\times10$ so our answer must use those numbers, but in a different order. 

$\displaystyle 3\times10=30$ and $\displaystyle 10\times3=30$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 20$, we started with $\displaystyle 5\times4$ so our answer must use those numbers, but in a different order. 

$\displaystyle 5\times4=20$ and $\displaystyle 4\times5=20$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 40$, we started with $\displaystyle 5\times8$ so our answer must use those numbers, but in a different order. 

$\displaystyle 5\times8=40$ and $\displaystyle 8\times5=40$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 66$, we started with $\displaystyle 6\times11$ so our answer must use those numbers, but in a different order. 

$\displaystyle 6\times11=66$ and $\displaystyle 11\times6=66$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 84$, we started with $\displaystyle 7\times12$ so our answer must use those numbers, but in a different order. 

$\displaystyle 7\times12=84$ and $\displaystyle 12\times7=84$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 48$, we started with $\displaystyle 8\times6$ so our answer must use those numbers, but in a different order. 

$\displaystyle 8\times6=48$ and $\displaystyle 6\times8=48$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 36$, we started with $\displaystyle 9\times4$ so our answer must use those numbers, but in a different order. 

$\displaystyle 9\times4=36$ and $\displaystyle 4\times9=36$ demonstrates the commutative property of multiplication. 

The commutative property of multiplication says that we can multiply numbers in any order and our product, or answer, will be the same. 

Though all of our answer choices do equal $\displaystyle 20$, we started with $\displaystyle 10\times2$ so our answer must use those numbers, but in a different order. 

$\displaystyle 10\times2=20$ and $\displaystyle 2\times10=20$ demonstrates the commutative property of multiplication.