Which Books Offer a Geometric Understanding of PDEs?

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A user is seeking recommendations for a geometrically intuitive book on partial differential equations (PDEs), similar to H M Schey's book on vector calculus. They have a basic understanding of PDEs, including their classification as elliptic, hyperbolic, or parabolic, and are interested in the geometric behavior of these equations. They mention hearing about works by Arnold Vladamir and I G Petrovsky but seek reviews on those texts. In response, suggestions include "Applied Partial Differential Equations" by Ockendon et al., which focuses on practical applications rather than abstract analysis, and "Analytic Methods for Partial Differential Equations" by Evans et al. Additionally, the discussion highlights the availability of online resources and lectures on PDEs, encouraging exploration of the Math & Science Learning Materials section for further information.
ank_gl
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Hi

I am looking for a good book on PDEs. By good, I mean geometrically intuitive. Something like H M Schey's book on vector calculus.

I know a bit about solving PDEs, I know they are elliptic, hyperbolic or parabolic, characteristic equation defines the type & that's just about it. What I am trying to understand is, what is PDE when it is elliptic or hyperbolic or parabolic. How does it behave geometrically. For example, for a hyperbolic equation, characteristic equation defines a curve or a surface or something across which functions do not relate.

Right now, I have this book. I heard text by Arnold Vladamir & I G Petrovsky are good. Reviews?

Thanks
Ankit
 
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No body is doing PDEs? :(
 
ank_gl said:
Hi

I am looking for a good book on PDEs. By good, I mean geometrically intuitive. Something like H M Schey's book on vector calculus.

I know a bit about solving PDEs, I know they are elliptic, hyperbolic or parabolic, characteristic equation defines the type & that's just about it. What I am trying to understand is, what is PDE when it is elliptic or hyperbolic or parabolic. How does it behave geometrically. For example, for a hyperbolic equation, characteristic equation defines a curve or a surface or something across which functions do not relate.

I heard text by Arnold Vladamir & I G Petrovsky are good. Reviews?

I'm not familiar with those, but I can recommend Applied Partial Differential Equations by Ockendon et al (Oxford University Press, revised edition 2003). It's not in the same style as Schey but its focus is on understanding PDEs which arise in practical applications rather than on abstract rigourous analysis.

I can also suggest Analytic Methods for Partial Differential Equations by Evans et al (Springer Undergraduate Mathematics Series, 1999).
 
ank_gl said:
No body is doing PDEs? :(
If one had bothered to look around PF, one would have found the Math & Science Learning Materials section in which one would find Calculus & Beyond Learning Materials in which one would find a thread:
Partial Differential Equations

There are many online resources of course lectures/notes on the subject, and in some cases, on-line textbooks.
 

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