Why Does ∂f/∂y Determine the Uniqueness of y in Differential Equations?

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SUMMARY

The discussion centers on the role of the partial derivative ∂f/∂y in determining the uniqueness of solutions y in differential equations. It highlights the significance of the Picard–Lindelöf theorem, which states that if ∂f/∂y is continuous, then the solution y is unique within a specified interval. Conversely, if ∂f/∂y is discontinuous, uniqueness may not be guaranteed, and alternative methods must be employed to establish the existence of a unique solution. The conversation emphasizes the need for mathematical intuition and proof regarding these conditions.

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MathewsMD
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Hi,

I was just wondering why taking ∂f/∂y provides the interval on which y is unique (or not necessarily). Could someone possibly provide some mathematical intuition behind this and possibly a proof of some sort detailing why y is unique if ∂f/dy is continuous? Also, how exactly (if it can) is uniqueness determined if ∂f/dy is discontinuous at a certain point?
 
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I'm confused, what do you mean that "y is unique".
 
^Maybe this question is about The[/PLAIN] Picard–Lindelöf theorem?
link
http://en.wikipedia.org/wiki/Picard–Lindelöf_theorem

The theorem gives sufficient conditions so a solution that fails to satisfy the hypothesis might still be unique, but it would need to be shown by a different method. Of course there also might be multiple solutions.

There should be some discussion of this in most differential equations books.
 
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