7 x 86 does not HAVE a distributive property. The distributive property of multiplication can be used to calulate 7 x 86 as 7 x 86 = 7 x 80 + 7 x 6
4 x 18 = (4 x 10) + (4 x 8)
The distributive property involves both a multiplication and an addition.
2(x+6)=2x+12. This is an example of the distributive property.
The distributive property is an attribute of two binary operations, not of individual numbers.
40 x 27 does not exhibit the distributive property.
7 x 86 does not HAVE a distributive property. The distributive property of multiplication can be used to calulate 7 x 86 as 7 x 86 = 7 x 80 + 7 x 6
4 x 18 = (4 x 10) + (4 x 8)
The distributive property involves both a multiplication and an addition.
Oh, the Distributive Property is a wonderful friend when it comes to sentences! Imagine you have a sentence like "I have 3 apples and 2 oranges." You can use the Distributive Property to rewrite it as "I have 3 apples and I have 2 oranges." It helps you break down and simplify sentences to make them easier to understand. Just like adding happy little trees to a painting, the Distributive Property adds clarity and beauty to your sentences.
2(x+6)=2x+12. This is an example of the distributive property.
The distributive property is an attribute of two binary operations, not of individual numbers.
Your question does not make sense. An example of the distributive property is 5 x (3 + 4) = (5 x 3) + (5 x 4).
You need three numbers to apply a distributive property.
The distributive property refers to a property of TWO binary operations - usually of multiplication and addition - not just one operation. Consequently, 7*420 does not have a distributive property.
Distributive Property
Numbers do not have a distributive property. It is a property of binary operators. A binary operator, such a multiplication which is defined over a set S, can have the distributive property over another binary operator, such as addition, defined on the same set. To illustrate, if x y and z are members of a set S, then by the distributive property of multiplication over addition x*(y + z) = x*y + x*z