newton law 
A graviton contribution to the oneloop quantum correction to the Newton law is found.


We consider oneloop effects in general relativity that result in quantum longrange corrections to the Newton law, as well as to the gravitational spindependent and velocitydependent interactions.


Thermoelastic stresses in a long hollow cylinder under local heating of the side surface according to a newton law


It is supposed that on free lateral and end surfaces of the ring, as well as on the lateral surface of the pin, heat exchange by the Newton law occurs.


It has been established that the linear boundary massexchange conditions in the form of the Newton law are unsuitable for description of the initial period of drying and the constantrate period.


For the OrnsteinUhlenbeck model of physical Brownian motion, the principle is related to a pathwise Newton law.


The corresponding forcing vectorfunctions obey the second Newton law due to the definition of principal trajectories.


We consider onedimensional Coulomb systems and their time evolution given by the Newton law.


The process of heat exchange between the body and media washing the plane boundary and filling the cavity obeys the Newton law.


Mathematical considerations of this momentum exchange can lead to Newton law of viscosity.

