axioms
They are not equivalent sets.
Sets are collection of distinct objects. In mathematics there are different types of sets like Finite set, Infinite set, Universal set, subset, equal set, equivalent set. Example of Finite set {1,2,3,4}. Infinite set:{1,2,3....}.
Equivalent sets are sets with exactly the same number of elements.
A set is a collection of distinct objects, while a universal set is the set that contains all possible elements relevant to a particular discussion or context. Every set is a subset of the universal set, meaning that all elements of a set are also elements of the universal set. The concept of a universal set helps define boundaries for discussions involving sets, ensuring clarity about which elements are included or excluded.
two sets A and B are said to be equivalent if there exists a bijective mapping between A and B
The universal subset is the empty set. It is a subset of all sets.
They are not equivalent sets.
Equivalent sets are sets with exactly the same number of elements.
No, they are not equivalent sets.
no
Sets are collection of distinct objects. In mathematics there are different types of sets like Finite set, Infinite set, Universal set, subset, equal set, equivalent set. Example of Finite set {1,2,3,4}. Infinite set:{1,2,3....}.
No, because equivalent sets are sets that have the SAME cardinality but equal sets are sets that all their elements are precisely the SAME. example: A={a,b,c} and B={1,2,3} equivalent sets C={1,2,3} and D={1,2,3} equal sets
Yes. Equivalent means equal.
Equivalent sets are sets with exactly the same number of elements.
The universal set is the set containing each and every element under consideration.
Yes.
two sets A and B are said to be equivalent if there exists a bijective mapping between A and B