# What does commutative property mean in Algebra 2?

## What does commutative property mean in Algebra 2?

This law simply states that with addition and multiplication of numbers, you can change the order of the numbers in the problem and it will not affect the answer. Subtraction and division are NOT commutative.

## What is the commutative property in an equation?

The commutative property formula applies to addition and multiplication. The addition formula states that a+b=b+a, and the multiplication formula states that a×b=b×a. These formulas are used to describe the concept that when adding or multiplying, terms can “commute”, or relocate, and the result will not change.

What property is A +( b/c )=( a/b )+ c?

The associative property allows us to change groupings of addition or multiplication and keep the same value. (a+b)+c = a+(b+c) and (ab)c = a(bc).

### What does the associative property look like?

The associative property of addition is written as: a + (b + c) = (a + b) + c, which means that the sum of any three or more numbers does not change even if the grouping of the numbers is changed.

### What is the associative property in algebra?

The associative property is a math rule that says that the way in which factors are grouped in a multiplication problem does not change the product. Example: 5 × 4 × 2 5 \times 4 \times 2 5×4×2.

What do you mean by associative property?

## What is the formula for associative property?

The formula for the associative property of multiplication is (a × b) × c = a × (b × c). This formula tells us that no matter how the brackets are placed in a multiplication expression, the product of the numbers remains the same.

## What property is c A B?

Algebra Properties and Definitions

A B
Associative Property of Addition (a + b) + c = a + (b + c)
Associative Property of Multiplication (ab)c = a(bc)
Reflexive Property a = a
Symmetric Property If a = b, then b = a

What property is a (- A 0?

Property (a, b and c are real numbers, variables or algebraic expressions) Examples
7. Multiplicative Identity Property a • 1 = a 4 • 1 = 4
8. Additive Inverse Property a + (-a) = 0 4 + (-4) = 0
9. Multiplicative Inverse Property
10. Zero Property of Multiplication a • 0 = 0 4 • 0 = 0