Relativity, Special and General represent Time as a linear dimension in a 4-diemnsional spacetime. However, one of the important ways in which time can be distinguished from space is through the examination of the distinguishing properties of clocks and r ulers. Clocks are irreversible dynamical systems subject to constraint by the laws of nature. Rulers are reversible systems which do not directly depend upon the laws of motion, but only on the principles of isometry. Axiom systems for homogeneous time, linear time, cyclic time and "cyclic-linear" time are proposed and given a thorough examination
Abstract: The traditional presentation of special relativity is made from a rupture with previous id...
Here, formal tools are used to pose and answer several philosophical questions concerning space and ...
When the German mathematician Hermann Minkowski first introduced the space-time diagrams that came t...
Relativity, Special and General represent Time as a linear dimension in a 4-diemnsional spacetime. H...
The special theory of relativity has fundamentally changed our views of space and time. The relativi...
This is a short, nontechnical introduction to features of time in classical and relativistic physics...
A calculus based on pointer-mark coincidences is proposed to define, in a mathematically rigorous wa...
When addressing the notion of proper time in the theory of relativity, it is usually taken for grant...
This paper introduces a different time-measuring convention for special relativity (SR), where a tim...
Special relativity has changed the fundamental view on space and time since Einstein introduced it i...
In Einstein’s physical geometry, the geometry of space and the uniformity of time are taken to be no...
After a review of the chrono-geometrical structure of special relativity, where the definition of th...
The clock hypothesis is taken to be an assumption independent of special relativity necessary to des...
Lorentz time is replaced by three parameters: a global time, a local rate of aging, and a new spatia...
The Minkowski diagram, by which the concept of spacetime has been graphically represented and interp...
Abstract: The traditional presentation of special relativity is made from a rupture with previous id...
Here, formal tools are used to pose and answer several philosophical questions concerning space and ...
When the German mathematician Hermann Minkowski first introduced the space-time diagrams that came t...
Relativity, Special and General represent Time as a linear dimension in a 4-diemnsional spacetime. H...
The special theory of relativity has fundamentally changed our views of space and time. The relativi...
This is a short, nontechnical introduction to features of time in classical and relativistic physics...
A calculus based on pointer-mark coincidences is proposed to define, in a mathematically rigorous wa...
When addressing the notion of proper time in the theory of relativity, it is usually taken for grant...
This paper introduces a different time-measuring convention for special relativity (SR), where a tim...
Special relativity has changed the fundamental view on space and time since Einstein introduced it i...
In Einstein’s physical geometry, the geometry of space and the uniformity of time are taken to be no...
After a review of the chrono-geometrical structure of special relativity, where the definition of th...
The clock hypothesis is taken to be an assumption independent of special relativity necessary to des...
Lorentz time is replaced by three parameters: a global time, a local rate of aging, and a new spatia...
The Minkowski diagram, by which the concept of spacetime has been graphically represented and interp...
Abstract: The traditional presentation of special relativity is made from a rupture with previous id...
Here, formal tools are used to pose and answer several philosophical questions concerning space and ...
When the German mathematician Hermann Minkowski first introduced the space-time diagrams that came t...