No. Closure is the property of a set with respect to an operation. You cannot have closure without a defined set and you cannot have closure without a defined operation.
there is not division for the associative property
It is called the property of "closure".
its when a mathamatical persistince is also whennyou d the oppsite of the equation
division
It does not work with subtraction nor division.
In mathematics, closure is a property of a set, S, with a binary operator, ~, defined on its elements.If x and y are any elements of S then closure of S, with respect to ~ implies that x ~ y is an element of S.The set of integers, for example, is closed with respect to multiplication but it is not closed with respect to division.
amaw
33 divided by 1 is a division problem: it is not a property.33 divided by 1 is a division problem: it is not a property.33 divided by 1 is a division problem: it is not a property.33 divided by 1 is a division problem: it is not a property.
there is not division for the associative property
In Relational algebra allows expressions to be nested, just as in arithmetic. This property is called closure.
No, whole numbers are not closed under division. When you divide one whole number by another, the result may not be a whole number. For example, dividing 1 by 2 gives 0.5, which is not a whole number. Therefore, whole numbers do not satisfy the closure property for division.
That property is called CLOSURE.
(4=-5)+5=5
No you can not use subtraction or division in the associative property.
It is called the property of "closure".
its when a mathamatical persistince is also whennyou d the oppsite of the equation
The closure property of addition says that if you add together any two numbers from a set, you will get another number from the same set. If the sum is not a number in the set, then the set is not closed under addition.