prove that intersection of two subrings is a subring
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Note :
Ring : A non empty set R equipped with two binary operations called addition and multiplication denoted by ( + ) and ( • ) is said to be a ring if the following properties holds :
- (R,+) is an abelian group .
- (R,•) is a semi-group .
- (R,+,•) holds distribute law .
- a•(b + c) = a•b + a•c
- (b + c)•a = b•a + c•a
Subring : A non empty subset S of a ring R is said to be a subring of R if S forms a ring under the binary operations of R .
• Let (R,+,•) be a ring , Then the non empty subset S of R is called a subring of R if (S,+,•) is a ring .
• A non empty subset S of a ring R is said be a subring of R iff for every a , b ∈ S → ab ∈ S and a - b ∈ S .
Solution :
To prove :
Intersection of two subrings is a subring .
Proof :
(Please refer to the attachment)
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