744 research outputs found
Kinematic relative velocity with respect to stationary observers in Schwarzschild spacetime
We study the kinematic relative velocity of general test particles with
respect to stationary observers (using spherical coordinates) in Schwarzschild
spacetime, obtaining that its modulus does not depend on the observer, unlike
Fermi, spectroscopic and astrometric relative velocities. We study some
fundamental particular cases, generalizing some results given in other work
about stationary and radial free-falling test particles. Moreover, we give a
new result about test particles with circular geodesic orbits: the modulus of
their kinematic relative velocity with respect to any stationary observer
depends only on the radius of the circular orbit, and so, it remains constant.Comment: 8 pages, 2 figure
Geometric description of lightlike foliations by an observer in general relativity
We introduce new concepts and properties of lightlike distributions and
foliations (of dimension and co-dimension 1) in a space-time manifold of
dimension , from a purely geometric point of view. Given an observer and a
lightlike distribution of dimension or co-dimension 1, its lightlike
direction is broken down into two vector fields: a timelike vector field
representing the observer and a spacelike vector field representing the
relative direction of propagation of for this observer. A new
distribution is defined, with the opposite relative direction of
propagation for the observer . If both distributions and are integrable, the pair \Omega ,\Omega_U^- U\Omega \Omega_U^-$.Comment: 14 pages, 4 figure
Lightlike simultaneity, comoving observers and distances in general relativity
We state a condition for an observer to be comoving with another observer in
general relativity, based on the concept of lightlike simultaneity. Taking into
account this condition, we study relative velocities, Doppler effect and light
aberration. We obtain that comoving observers observe the same light ray with
the same frequency and direction, and so gravitational redshift effect is a
particular case of Doppler effect. We also define a distance between an
observer and the events that it observes, that coincides with the known affine
distance. We show that affine distance is a particular case of radar distance
in the Minkowski space-time and generalizes the proper radial distance in the
Schwarzschild space-time. Finally, we show that affine distance gives us a new
concept of distance in Robertson-Walker space-times, according to Hubble law.Comment: 17 pages, 5 figures. Since "lightlike distance" is in fact the known
"affine distance", the notation has been change
Existence and uniqueness of nontrivial collocation solutions of implicitly linear homogeneous Volterra integral equations
We analyze collocation methods for nonlinear homogeneous Volterra-Hammerstein
integral equations with non-Lipschitz nonlinearity. We present different kinds
of existence and uniqueness of nontrivial collocation solutions and we give
conditions for such existence and uniqueness in some cases. Finally we
illustrate these methods with an example of a collocation problem, and we give
some examples of collocation problems that do not fit in the cases studied
previously.Comment: 18 pages, 4 figure
Invariant manifolds of the Bonhoeffer-van der Pol oscillator
The stable and unstable manifolds of a saddle fixed point (SFP) of the
Bonhoeffer-van der Pol oscillator are numerically studied. A correspondence
between the existence of homoclinic tangencies (whic are related to the
creation or destruction of Smale horseshoes) and the chaos observed in the
bifurcation diagram is described. It is observed that in the non-chaotic zones
of the bifurcation diagram, there may or may not be Smale horseshoes, but there
are no homoclinic tangencies.Comment: 14 pages, 15 figure
Intrinsic definitions of "relative velocity" in general relativity
Given two observers, we define the "relative velocity" of one observer with
respect to the other in four different ways. All four definitions are given
intrinsically, i.e. independently of any coordinate system. Two of them are
given in the framework of spacelike simultaneity and, analogously, the other
two are given in the framework of observed (lightlike) simultaneity. Properties
and physical interpretations are discussed. Finally, we study relations between
them in special relativity, and we give some examples in Schwarzschild and
Robertson-Walker spacetimes.Comment: 29 pages, 12 figures. New proofs in special relativity and a new open
problem in general relativity (see Remark 5.2). An Appendix has been added,
studying the relative velocities in Schwarzschild, with new figures. Some
spelling erros fixe
A note on the computation of geometrically defined relative velocities
We discuss some aspects about the computation of kinematic, spectroscopic,
Fermi and astrometric relative velocities that are geometrically defined in
general relativity. Mainly, we state that kinematic and spectroscopic relative
velocities only depend on the 4-velocities of the observer and the test
particle, unlike Fermi and astrometric relative velocities, that also depend on
the acceleration of the observer and the corresponding relative position of the
test particle, but only at the event of observation and not around it, as it
would be deduced, in principle, from the definition of these velocities.
Finally, we propose an open problem in general relativity that consists on
finding intrinsic expressions for Fermi and astrometric relative velocities
avoiding terms that involve the evolution of the relative position of the test
particle. For this purpose, the proofs given in this paper can serve as
inspiration.Comment: 8 pages, 2 figure
Aplicació de criteris de sostenibilitat en el disseny de polígons industrials
La finalitat d’aquest projecte és crear una metodologia per facilitar el disseny sostenible de
polígons industrials. El model conceptual d’activitat sostenible s’eleva sobre la base de tres
pilars fonamentals on tots tenen la mateixa importància: cohesió i progrés social, eficiència
econòmica i conservació ambiental. L’estudi que s’ha dut a terme en aquest projecte ha deixat
al marge la part de la viabilitat econòmica del triangle de la sostenibilitat centrant-se
principalment en els equilibris socials i ambientals derivats de la nova planificació territorial.
El mètode utilitzat per a cada una de les parts estudiades ha estat en primer lloc la recerca
d’informació i normativa vigent i la posterior definició d’uns criteris de sostenibilitat per tal
de ser aplicats. Aquests criteris pretenen ser una eina per ajudar a planificar adequadament un
polígon industrial de manera que l’usuari que la utilitzi ho faci d’una forma simple i visual. A
més a més, no només serveix per avaluar un cert polígon, sinó que té el valor afegit de donar
un punt de vista aproximat dels diferents paràmetres avaluats i permet visualitzar els possibles
punts conflictius i fer actuacions per resoldre’ls.
A causa de la complexitat de dissenyar una metodologia que donés resposta a la projecció
d’un polígon industrial a qualsevol part del món, l’eina creada serveix per donar suport a la
fase de disseny i planificació de polígons només a l’Estat Espanyol, i, en particular, a
Catalunya. No obstant això, recollint les dades necessàries també és possible aplicar-la en
altres parts del planeta
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