Elchillon89
Answered

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Rewrite [tex][tex]$32 \cdot y$[/tex][/tex] using the commutative property of multiplication. Note that [tex][tex]$y$[/tex][/tex] represents a real number.

A. [tex][tex]$3 y \cdot 2$[/tex][/tex]
B. [tex][tex]$y \cdot 32$[/tex][/tex]
C. 4. 8.3
D. [tex][tex]$y=23$[/tex][/tex]

Sagot :

GinnyAnswer
Sure! Let's examine the expression [tex]\(32 \cdot y\)[/tex]. We'll use the commutative property of multiplication, which states that the order of factors in a multiplication operation does not change the product. Therefore, [tex]\(a \cdot b\)[/tex] is the same as [tex]\(b \cdot a\)[/tex].

Given the expression [tex]\(32 \cdot y\)[/tex]:

1. We can rewrite it by switching the order of the factors, so it becomes:
[tex]\[ y \cdot 32 \][/tex]

Therefore, the expression [tex]\(32 \cdot y\)[/tex], when rewritten using the commutative property of multiplication, is [tex]\(y \cdot 32\)[/tex].

So both expressions [tex]\(32 \cdot y\)[/tex] and [tex]\(y \cdot 32\)[/tex] are equivalent, meaning:

[tex]\[ 32 \cdot y = y \cdot 32 \][/tex]

This is the detailed step-by-step solution to the given problem.
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