Add to ORKGWe show that relativistic dynamics can be approached without using conservation laws (conservation of momentum, of energy and of the centre of mass). Our approach avoids collisions that are not easy to teach without mnemonic aids. The derivations are based on the principle of relativity and on its direct consequence, the addition law of relativistic velocities
In this paper we show how to get the Lorentz transformations from E=mc^2, the laws of conservation o...
Thought experiments are widely used in the informal explanation of Relativity Theories; however, the...
Part twenty of course materials for Classical Dynamics (Physics 520), taught by Gerhard Müller at th...
Based on relativistic velocity addition and the conservation of momentum and energy, I present deriv...
Introductory treatments of relativistic dynamics rely on the invariance of momentum conservation (i....
A part of relativistic dynamics (or mechanics) is axiomatized by simple and purely geometrical axiom...
Introductory treatments of relativistic dynamics rely on the invariance of momentum conservation (i....
The Lorentz transformations are represented on the ball of relativistically admissible velocities by...
The concepts of conservation and relativity lie at the heart of classical mechanics. In the hands of...
The concepts of conservation and relativity lie at the heart of classical mechanics. In the hands of...
Einstein’s relation between mass and energy is perhaps the most famous equation of Physics. Despite ...
The concepts of conservation and relativity lie at the heart of classical mechanics. In the hands of...
Abstract. A part of relativistic dynamics (or mechanics) is ax-iomatized by simple and purely geomet...
Thought experiments are widely used in the informal explanation of Relativity Theories; however, the...
Thought experiments are widely used in the informal explanation of Relativity Theories; however, the...
In this paper we show how to get the Lorentz transformations from E=mc^2, the laws of conservation o...
Thought experiments are widely used in the informal explanation of Relativity Theories; however, the...
Part twenty of course materials for Classical Dynamics (Physics 520), taught by Gerhard Müller at th...
Based on relativistic velocity addition and the conservation of momentum and energy, I present deriv...
Introductory treatments of relativistic dynamics rely on the invariance of momentum conservation (i....
A part of relativistic dynamics (or mechanics) is axiomatized by simple and purely geometrical axiom...
Introductory treatments of relativistic dynamics rely on the invariance of momentum conservation (i....
The Lorentz transformations are represented on the ball of relativistically admissible velocities by...
The concepts of conservation and relativity lie at the heart of classical mechanics. In the hands of...
The concepts of conservation and relativity lie at the heart of classical mechanics. In the hands of...
Einstein’s relation between mass and energy is perhaps the most famous equation of Physics. Despite ...
The concepts of conservation and relativity lie at the heart of classical mechanics. In the hands of...
Abstract. A part of relativistic dynamics (or mechanics) is ax-iomatized by simple and purely geomet...
Thought experiments are widely used in the informal explanation of Relativity Theories; however, the...
Thought experiments are widely used in the informal explanation of Relativity Theories; however, the...
In this paper we show how to get the Lorentz transformations from E=mc^2, the laws of conservation o...
Thought experiments are widely used in the informal explanation of Relativity Theories; however, the...
Part twenty of course materials for Classical Dynamics (Physics 520), taught by Gerhard Müller at th...