Interaction of mass and energy for small bodies acquires non-Newtonian behavior. Postulated is the existence of space/time to depend on the activation and deactivation of mass in relation to the absorption and dissipation of energy. Borne from the manifestation of the creation of matter is the concept that the intrinsic inhomogeneity gives rise to interfaces. Objects and events appear to exist as opposing poles with a transitional character across the interface. Simultaneity of direct-absorption and self-dissipation energy density, denoted, respectively, by and , is further hypothesized to depend on the square of the velocity that increases monotonically with time as indicated by the arrow head notation. The demise is that = and = where is the activated mass associated with the direct-absorption energy density and is the deactivated mass associated with the self-dissipation energy density. The scheme also applies to large bodies.
作者简介:
章节目录:
精彩片段:
Departure from the field theory approach has been made in [2, 3]. Demand for a solution to remain valid everywhere for all time is no longer enforced. For small bodies at the nano, pico or smaller scales, the constituents are not in equilibrium. They move continuously in the transitional states. Equilibrium mechanics, as applied to large bodies, is disconnected from non-equilibrium quantum mechanics. The distinction is not one of linearity from non-linearity. Rather, the impasse arises from the contrasting views of the continuum and the particulate, similar to analog and digital. The digitization process adopted in [2, 3] translates into scale segmentation while implication of the dualism of continuum and particulate is still reflected by the multiscale singularity representation [4-6]. The underlying physics may differ.
中国大学出版社协会 |
首页 |
宏观指导 |
出版社天地 |
图书代办站 |
教材图书信息 |
教材图书评论 |
在线订购 |
教材征订
