Twice continuously differentiable function

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SUMMARY

The discussion centers on proving bounds for the derivative of a twice continuously differentiable function \( f: [0, \infty) \rightarrow \mathbb{R} \) where both \( f \) and \( f'' \) are bounded. The key inequalities to demonstrate are \( |f'(x)| \leq \frac{2}{h} \|f\|_{\infty} + \frac{2}{h} \|f''\|_{\infty} \) for all \( x \geq 0 \) and \( h > 0 \), and \( \|f'\|_{\infty} \leq 2(\|f\|_{\infty})^{\frac{1}{2}}(\|f''\|_{\infty})^{\frac{1}{2}} \). The initial approach involves integrating \( f''(x) \) but the user seeks further guidance on progressing with the proof.

PREREQUISITES
  • Understanding of calculus, specifically derivatives and integrals.
  • Familiarity with the concepts of bounded functions and norms.
  • Knowledge of Taylor series and its application in approximating functions.
  • Basic experience with mathematical proofs and inequalities.
NEXT STEPS
  • Study the properties of bounded functions in the context of real analysis.
  • Learn about the application of Taylor series in deriving function approximations.
  • Research techniques for proving inequalities involving derivatives, particularly in the context of bounded functions.
  • Explore the concept of norms and their significance in functional analysis.
USEFUL FOR

Mathematicians, students studying real analysis, and anyone interested in understanding the behavior of derivatives of bounded functions.

Jonas Rist
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Hello again,

another problem: given: a function

[tex]f:[0,\infty)\rightarrow\mathbb{R},f\in C^2(\mathbb{R}^+,\mathbb{R})\\[/tex]

The Derivatives

[tex]f,f''\\[/tex]

are bounded.

It is to proof that

[tex]\rvert f'(x)\rvert\le\frac{2}{h}\rvert\rvert f\rvert\rvert_{\infty}+\frac{2}{h}\rvert\lvert f''\rvert\rvert_{\infty}\\[/tex]


[tex]\forall x\ge 0,h>0\\[/tex]

and:

[tex]\rvert\rvert f'\rvert\rvert_{\infty}\le 2(\rvert\rvert f\rvert\rvert_{\infty})^{\frac{1}{2}}(\rvert\rvert f''\rvert\rvert_{\infty})^{\frac{1}{2}}\\[/tex]

I began like this:

[tex]f'(x)=\int_{0}^{x}f''(x)dx\Rightarrow[/tex]

[tex]\rvert f'(x)\rvert\le\rvert\int_{0}^{x}f''(x)dx\rvert\le\int_{0}^{x}\rvert f''(x)\rvert dx[/tex]

But then already I don´t know how to go on
I´d be glad to get some hints!
Thanks
Jonas

EDIT: Would it make sense to apply the Tayler series here?
 
Last edited:
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What is h ?
 
Don't include x as the variable in your integral and as a limit, it will only confuse you unnecessarily.
 

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