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Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x} is a subgroup of G.?
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Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x...
Proof:
Claim: H = {x ∈ G | ϕ(x) = x} is a subgroup of G.
To prove that H is a subgroup of G, we need to show that it satisfies three conditions: closure, identity, and inverses.
Closure:
Let a, b ∈ H. We need to show that ab^(-1) ∈ H.
Since a, b ∈ H, we have ϕ(a) = a and ϕ(b) = b.
Since ϕ is an automorphism, it preserves the group operation, so ϕ(a)ϕ(b^(-1)) = ϕ(ab^(-1)).
Therefore, ab^(-1) ∈ H, and H is closed under the group operation.
Identity:
Since ϕ is an automorphism, it preserves the identity element. Let e be the identity element of G.
We have ϕ(e) = e, so e ∈ H.
Inverses:
Let a ∈ H. We need to show that a^(-1) ∈ H.
Since a ∈ H, we have ϕ(a) = a.
Since ϕ is an automorphism, it is bijective and has an inverse ϕ^(-1).
Applying ϕ^(-1) to both sides of the equation ϕ(a) = a, we get ϕ^(-1)(ϕ(a)) = ϕ^(-1)(a), which simplifies to a = ϕ^(-1)(a).
Therefore, a^(-1) = ϕ^(-1)(a) ∈ H, and H contains inverses.
Conclusion:
Since H satisfies closure, identity, and inverses, it is a subgroup of G.
Summary:
To prove that H = {x ∈ G | ϕ(x) = x} is a subgroup of G, we showed that it satisfies the three conditions for being a subgroup: closure, identity, and inverses. This was done by utilizing the properties of automorphisms, specifically that they preserve the group operation, the identity element, and have an inverse. Therefore, H is indeed a subgroup of G.
Claim: H = {x ∈ G | ϕ(x) = x} is a subgroup of G.
To prove that H is a subgroup of G, we need to show that it satisfies three conditions: closure, identity, and inverses.
Closure:
Let a, b ∈ H. We need to show that ab^(-1) ∈ H.
Since a, b ∈ H, we have ϕ(a) = a and ϕ(b) = b.
Since ϕ is an automorphism, it preserves the group operation, so ϕ(a)ϕ(b^(-1)) = ϕ(ab^(-1)).
Therefore, ab^(-1) ∈ H, and H is closed under the group operation.
Identity:
Since ϕ is an automorphism, it preserves the identity element. Let e be the identity element of G.
We have ϕ(e) = e, so e ∈ H.
Inverses:
Let a ∈ H. We need to show that a^(-1) ∈ H.
Since a ∈ H, we have ϕ(a) = a.
Since ϕ is an automorphism, it is bijective and has an inverse ϕ^(-1).
Applying ϕ^(-1) to both sides of the equation ϕ(a) = a, we get ϕ^(-1)(ϕ(a)) = ϕ^(-1)(a), which simplifies to a = ϕ^(-1)(a).
Therefore, a^(-1) = ϕ^(-1)(a) ∈ H, and H contains inverses.
Conclusion:
Since H satisfies closure, identity, and inverses, it is a subgroup of G.
Summary:
To prove that H = {x ∈ G | ϕ(x) = x} is a subgroup of G, we showed that it satisfies the three conditions for being a subgroup: closure, identity, and inverses. This was done by utilizing the properties of automorphisms, specifically that they preserve the group operation, the identity element, and have an inverse. Therefore, H is indeed a subgroup of G.
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Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x} is a subgroup of G.?
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Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x} is a subgroup of G.? for Mathematics 2024 is part of Mathematics preparation. The Question and answers have been prepared according to the Mathematics exam syllabus. Information about Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x} is a subgroup of G.? covers all topics & solutions for Mathematics 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x} is a subgroup of G.?.
Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x} is a subgroup of G.? for Mathematics 2024 is part of Mathematics preparation. The Question and answers have been prepared according to the Mathematics exam syllabus. Information about Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x} is a subgroup of G.? covers all topics & solutions for Mathematics 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Let pgu be an automorphism of a group G.then prove that H ={x€G|phix=x} is a subgroup of G.?.
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