Re: The momentum - a cotangent vector?

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Sujet : Re: The momentum - a cotangent vector?
De : ram (at) *nospam* zedat.fu-berlin.de (Stefan Ram)
Groupes : sci.physics.research
Date : 08. Aug 2024, 08:02:29
Autres entêtes
Organisation : Stefan Ram
Message-ID : <vector-20240807201044@ram.dialup.fu-berlin.de>
References : 1 2
moderator jt wrote or quoted:
calculus.  In this usage, these phrases describe how a vector (a.k.a
a rank-1 tensor) transforms under a change of coordintes: a tangent
vector (a.k.a a "contravariant vector") is a vector which transforms
the same way a coordinate position $x^i$ does, while a cotangent vector
(a.k.a a "covariant vector") is a vector which transforms the same way
a partial derivative operator $\partial / \partial x^i$ does.

  Yeah, that explanation is on the right track, but I got to add
  a couple of things.

  Explaining objects by their transformation behavior is
  classic physicist stuff. A mathematician, on the other hand,
  defines what an object /is/ first, and then the transformation
  behavior follows from that definition.

  You got to give it to the physicists---they often spot weird
  structures in the world before mathematicians do. They measure
  coordinates and see transformation behaviors, so it makes sense
  they use those terms. Mathematicians then come along later, trying
  to define mathematical objects that fit those transformation
  behaviors. But in some areas of quantum field theory, they still
  haven't nailed down a mathematical description. Using mathematical
  objects in physics is super elegant, but if mathematicians can't
  find those objects, physicists just keep doing their thing anyway!

  A differentiable manifold looks locally like R^n, and a tangent
  vector at a point x on the manifold is an equivalence class v of
  curves (in R^3, these are all worldlines passing through a point
  at the same speed). So, the tangent vector v transforms like
  a velocity at a location, not like the location x itself. (When
  one rotates the world around the location x, x is not changed,
  but tangent vectors at x change their direction.)

  A /cotangent vector/ at x is a linear function that assigns a
  real number to a tangent vector v at the same point x. The total
  differential of a function f at x is actually a covector that
  linearly approximates f at that point by telling us how much the
  function value changes with the change represented by vector v.

  When one defines the "canonical" (or "generalized") momentum as
  the derivative of a Lagrange function, it points toward being a
  covector. But I was confused because I saw a partial derivative
  instead of a total differential. But possibly this is just a
  coordinate representation of a total differential. So, broadly,
  it's plausible that momentum is a covector, but I struggle
  with the technical details and physical interpretation. What
  physical sense does it make for momentum to take a velocity
  and return a number? (Maybe that number is energy or action).

  (In the world of Falk/Ruppel ["Energie und Entropie", Springer,
  Berlin] it's just the other way round. There, they write
  "dE = v dp". So, here, the speed v is something that maps
  changes of momentum dp to changes of the energy dE. This
  immediately makes sense because when the speed is higher
  a force field is traveled through more quickly, so the same
  difference in energy results in a reduced transfer of momentum.
  So, transferring the same momentum takes more energy when the
  speed is higher. Which, after all, explains while the energy
  grows quadratic with the speed and the momentum only linearly.)

Date Sujet#  Auteur
7 Aug 24 * The momentum - a cotangent vector?9Stefan Ram
7 Aug 24 +* Re: The momentum - a cotangent vector?6Mikko
8 Aug 24 i+* Re: The momentum - a cotangent vector?4Stefan Ram
8 Aug 24 ii+- Re: The momentum - a cotangent vector?1Hendrik van Hees
8 Aug 24 ii+- Re: The momentum - a cotangent vector?1Mikko
9 Aug 24 ii`- Re: The momentum - a cotangent vector?1Stefan Ram
8 Aug 24 i`- Re: The momentum - a cotangent vector?1Mikko
9 Aug 24 +- Re: The momentum - a cotangent vector?1Hendrik van Hees
10 Aug 24 `- Re: The momentum - a cotangent vector?1Stefan Ram

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