Well basically the answer is 1296
Commutative Property of Multiplication
No, the expressions 6 times 2 and 4 times 3 are not examples of the commutative property. The commutative property states that the order of the numbers being multiplied does not affect the result, such as 2 times 3 being the same as 3 times 2. In this case, 6 times 2 is not equal to 4 times 3, so it does not demonstrate the commutative property.
2(x - 3) = 2x - 6.
(20 x 3) + (2 x 3) = 60 + 6 = 66
6*2*3 = 36
6 and 2/3 times.
To calculate (6! \times 2! \times 4! \times 3!), we first find the factorials: (6! = 720) (2! = 2) (4! = 24) (3! = 6) Now, multiplying these together: (720 \times 2 \times 24 \times 6 = 207360). Thus, (6! \times 2! \times 4! \times 3! = 207360).
One example of a distributive property equation that equals 26 is (2(10 + 3) = 26). Here, you distribute the 2 to both terms inside the parentheses: (2 \times 10 + 2 \times 3), which simplifies to (20 + 6 = 26).
9
It is 6
2 times 3 = 6 or 1 times 6 = 6
To express (2 \times 2 \times 2 \times 6 \times 6 \times 6) in exponential form, first count the number of times each base appears. The base 2 appears 3 times, and the base 6 appears 3 times. Therefore, the expression can be written in exponential form as (2^3 \times 6^3).