Thermodynamics of Moving Bodies or a New Approach to Emergent Gravity

Yormahmad Kholov
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Abstract

Recent theoretical developments propose that gravity is emergent phenomenon. In line with this, in this paper, we show that gravitational and inertial properties of matter can be sufficiently explained by thermodynamics for a system consisting of material systems immersed in the quantum vacuum energy reservoir without reference to the microscopic constituencies of the quantum vacuum. The study focuses on the transfer of energy and matter in the interaction of material system with its vacuum surroundings and the relation of those to the system's macroscopic state variables and mechanical behavior of the system associated with forces acting on it. This analysis suggests that vacuum energy density about material systems is diminished and quantum vacuum energy density field takes on specific gradient there. Hence, gravity appears as effect of the change in the energy density of medium related with presence of another material object modifying vacuum surroundings and causing spontaneous motion of the system to minimize its energy driven by the second law. Whereas, inertia is explained to be an emergent thermodynamic effect of the change in the vacuum energy field about objects associated with the alteration of energy of systems itself due to the transfer of energy between systems to its surroundings. When those energy transfer operations do not comply with the second law of thermodynamic in terms of direction and rate of the energy flow, there will be generated resistance to the imposed changes known as inertial force. In such representation the equivalence principle finds unique definition revealing its origin.
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运动物体热力学或新兴重力的新途径
最近的理论发展表明,引力是一种突现现象。与此相一致的是,在本文中,我们证明了物质的引力和惯性性质可以用热力学充分解释一个由沉浸在量子真空能量库中的物质系统组成的系统,而不需要参考量子真空的微观成分。研究了物质系统与真空环境相互作用中能量和物质的传递,以及这些传递与系统宏观状态变量和与作用于其上的力相关的系统力学行为的关系。这一分析表明,材料体系的真空能量密度减小,量子真空能量密度场在那里呈现一定的梯度。因此,引力表现为与另一物质的存在有关的介质能量密度变化的效应,它改变了真空环境,并引起系统的自发运动,使其在第二定律的驱动下能量最小化。然而,惯性被解释为真空能量场变化对物体的一种紧急热力学效应,与系统本身的能量变化有关,这是由于系统之间的能量转移到其周围环境。当这些能量传递操作在能量流动的方向和速率方面不符合热力学第二定律时,就会产生对施加的变化的阻力,称为惯性力。在这种表述中,等价原则找到了独特的定义,揭示了它的起源。
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