f is continuous at x 0 </msub> and f ( x 0 </msub>

raulgallerjv

raulgallerjv

Answered question

2022-05-28

f is continuous at x 0 and f ( x 0 ) < 0 then there exists a neighborhood of x 0 in which f ( x ) < 0 .
Is it possible to prove this statement, and if so what is the best way to go about it? Contradiction, Induction, Deduction, etc... ?

Answer & Explanation

Ronnie Glenn

Ronnie Glenn

Beginner2022-05-29Added 11 answers

f : ( X , d ) R continuous at x 0 X and f ( x 0 ) < 0
Choose, ϵ = f ( x 0 2 > 0
Then, B ( x 0 , δ ) such that f ( B ( x 0 , δ ) ) ( f ( x 0 ) ϵ , f ( x 0 ) + ϵ )
Hence, f ( x ) < f ( x 0 ) + ϵ = f ( x 0 ) 2 < 0 for all x B ( x 0 , δ )
If you don't know metric space, set X = R and d ( x , y ) = | x y | and B ( x 0 , δ ) = ( x 0 δ , x 0 + δ )

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