Publish in OALib Journal
APC: Only $99
Several new soliton-like structures have been obtained under the consideration of non trivial boundary condition for the difference value of density in the thermodynamic model of nerve pulses. The model is based on thermodynamic principles of zero transfer of energy to the media. We have studied these solutions for particular values in the parameter space, and obtained both bell soliton on the condensate and bubble like solutions as typical non-topological representative solutions. The solutions will propagate along the nerve with constant velocity. The analysis of the properties of the solutions provides us with available permitted velocities and the prediction of the constant density value of the background at long distances far from the excited zone in the nerve.
This paper presents an
alternative view to the cause and size of market failures. The work here
suggest that the size of the market failure is not man made per se but rather
given a full set of initial conditions it is endogenous to the dynamical forces
at play. It is shown that the level and variance of market failures is tied to
the location of the steady state (i.e.
level of development). The paper finds that only changes to the location of the
steady state produces changes to the potential level of the market failure.
This paper adds to the increasing body of literature the notion that institutional
change is not a sufficient condition to sustained economic development.