Add to ORKGThe relativistic Hamilton Jacobi equation and other methods are used to show that the acquisition of electric power from spacetime is a process that conserves total energy, momentum and angular momentum. Energy is simply transferred from spacetime to a device in the laboratory or in engineering. The concept of spacetime is the foundation of the theory of relativity, the Hamiltonian being defined directly from the metric
The study of physics requires the definition of general characteristics such as the so-called fundam...
In solving physics problems, it is often important to use the laws of conservation of energy and mom...
From the relativity principle and the conservation of energy in particle collisions we deduce the fo...
Newly developed energy devices seem to acquire energy “from nothing“. Their working mechanism is not...
A new concept of internal time (viewed as a scalar temporal field) is introduced which allows one to...
The problem of the definition of gravitational energy is reconsidered. In the Einstein theory all ma...
A covariant formula for conserved currents of energy, momentum and angular-momentum is derived from ...
In this paper we obtain the conservation equations of momentum-energy of a relativistic fluid in the...
We argue that the usual action principle of general relativity, applied to spacetimes with closed sp...
We argue that the usual action principle of general relativity, applied to spacetimes with closed sp...
We argue that the usual action principle of general relativity, applied to spacetimes with closed sp...
Copyright © 2013 V. N. E. Robinson. This is an open access article distributed under the Creative Co...
In the framework of the field theory it is shown that a time (viewed as a scalar temporal field) is ...
The primary purpose of this article is to obtain from the general relativity form of the energy-mome...
The primary purpose of this article is to obtain from the general relativity form of the energy-mome...
The study of physics requires the definition of general characteristics such as the so-called fundam...
In solving physics problems, it is often important to use the laws of conservation of energy and mom...
From the relativity principle and the conservation of energy in particle collisions we deduce the fo...
Newly developed energy devices seem to acquire energy “from nothing“. Their working mechanism is not...
A new concept of internal time (viewed as a scalar temporal field) is introduced which allows one to...
The problem of the definition of gravitational energy is reconsidered. In the Einstein theory all ma...
A covariant formula for conserved currents of energy, momentum and angular-momentum is derived from ...
In this paper we obtain the conservation equations of momentum-energy of a relativistic fluid in the...
We argue that the usual action principle of general relativity, applied to spacetimes with closed sp...
We argue that the usual action principle of general relativity, applied to spacetimes with closed sp...
We argue that the usual action principle of general relativity, applied to spacetimes with closed sp...
Copyright © 2013 V. N. E. Robinson. This is an open access article distributed under the Creative Co...
In the framework of the field theory it is shown that a time (viewed as a scalar temporal field) is ...
The primary purpose of this article is to obtain from the general relativity form of the energy-mome...
The primary purpose of this article is to obtain from the general relativity form of the energy-mome...
The study of physics requires the definition of general characteristics such as the so-called fundam...
In solving physics problems, it is often important to use the laws of conservation of energy and mom...
From the relativity principle and the conservation of energy in particle collisions we deduce the fo...