in a set if two elements or numbers are equal then it is known as equivalent set
If M = {235} all sets that have only 1 element are equivalent to it
equal sets
Yes, they are.
When two set have the same number of cardinately
in a set if two elements or numbers are equal then it is known as equivalent set
If M = {235} all sets that have only 1 element are equivalent to it
equal sets
Yes, they are.
When two set have the same number of cardinately
Two sets are said to be equivalent if the elements of each set can be put into a one-to-one relationship with the elements of the other set.
The definition of equivalent inequalities: inequalities that have the same set of solutions
Equivalent sets are sets with exactly the same number of elements.
Two sets are equal if they have the same elements. Two sets are equivalent if there is a bijection from one set to the other. that is, each element of one set can be mapped, one-to-one, onto elements of the second set.
Oh, what a happy little question! The set of even numbers and the set of multiples of 2 are actually the same set, my friend. You see, every even number is a multiple of 2, and every multiple of 2 is an even number. They dance together in perfect harmony on the canvas of mathematics.
This problem can be modeled and tested quite easily. Set A can be [X,Y], subset B [X,Y], and subset A [X,Y]. Therefore A and B are equivalent.
Two sets are equivalent if they have the same cardinality. In [over-]simplified terms, if they have the same number of distinct elements. Two sets are equal if the two sets contain exactly the same distinct elements. So {1, 2, 3} and {Orange, Red, Blue} are equivalent but not equal. {1, 2, 3} and {2, 2, 2, 3, 1, 3} are equal.