This is possible because the order of the addends does not matter. For example, 3+8 is the same as 8+3. No matter how you list the addends, the sum will always be the same.
Commutative property of addition :)
Changing the order of addends does not change their sum. In symbolic form, a + b =b + a. Subtraction is not commutative .
Commutative property or Abelian property.
According to the commutative property of addition, the order of the addends does not affect the result. Thus, A + B = B + A
Commutative property: When two numbers are added, the sum is the same regardless of the order of the addends. For example 4 + 2 = 2 + 4
Commutative property of addition :)
Changing the order of addends does not change their sum. In symbolic form, a + b =b + a. Subtraction is not commutative .
Commutative property or Abelian property.
Commutative property: When two numbers are added, the sum is the same regardless of the order of the addends. For example 4 + 2 = 2 + 4
According to the commutative property of addition, the order of the addends does not affect the result. Thus, A + B = B + A
No, that's the Commutative Property of Addition.
Whichever one changes the order of the addends. a + b = b + a
Cummutative Property=> The order of addends [does not] change the sum!
The order in which the addends (in addition) or multiplicands (in multiplication) does not affect the answer. If symbolic form: a + b = b + a or a * b = b * a
Commutative property: When two numbers are added, the sum is the same regardless of the order of the addends. For example 4 + 2 = 2 + 4
In the expression 3(4+5)which property allows you to distribute the 3to both the 4and 5
False. Addition is both associative (meaning you can lump the addends together as much as you like) and commutative (meaning you can change the order of the addends as much as you like.) 2 + 3 + 5 = 2 + 5 + 3 = (2 + 3) + 5