A quantum particle is often described as exhibiting dual particle-wave nature. A particle seems to be an object which obeys Newton’s laws/special relativity with a wave also being a phenomenon existing in Newtonian mechanics (special relativity). In other words the particle and wave are governed by x-t external variables which have infinite resolution. It was originally thought that x and t in addition to being external were absolute, but special relativity changed this idea. We have suggested in previous notes that a free quantum particle with energy E and momentum p creates its own space time i.e time intervals are proportional to 1/E and space to 1/p. This means no external clock is needed and different internal rulers and clocks ...
In Newtonian mechanics, one often thinks in terms of x(t) i.e. an association between x and t. Altho...
Note: The equations d/dx partial [ T L] = p and d/dt partial [ TL] = -E hold for both the relativis...
In this paper, we consider three landmark experiments of quantum physics and discuss the related wav...
In classical physics and even for classical mechanical waves, one follows an object (or wave crest) ...
We argue that in classical mechanics there exist at least two types of measurements of a constant mo...
Background. What are (quantum mechanical) entities, either a particle or a wave or both or none? ...
Background. What are (quantum mechanical) entities, either a particle or a wave or both or none? ...
Quantum mechanics seems to function at two levels in terms of probability. One level is represented ...
Quantum mechanics is often compared with classical mechanics, but it seems that the momentum/spatial...
We have argued in previous notes (1) that x and t are independent within a wavelength. This we will ...
In a previous note (1) we argued that the free particle classical action A (relativistic or nonrela...
A classical wave (string, sound, water etc) which satisfies the classical wave equation is described...
In special relativity, energy and momentum are part of a 4-vector, but are also properties of a part...
In quantum mechanics, it is often stressed that if one knows position (x) with complete certainty, t...
It is proposed that the paradox of wave-particle duality in quantum mechanics may be resolved using ...
In Newtonian mechanics, one often thinks in terms of x(t) i.e. an association between x and t. Altho...
Note: The equations d/dx partial [ T L] = p and d/dt partial [ TL] = -E hold for both the relativis...
In this paper, we consider three landmark experiments of quantum physics and discuss the related wav...
In classical physics and even for classical mechanical waves, one follows an object (or wave crest) ...
We argue that in classical mechanics there exist at least two types of measurements of a constant mo...
Background. What are (quantum mechanical) entities, either a particle or a wave or both or none? ...
Background. What are (quantum mechanical) entities, either a particle or a wave or both or none? ...
Quantum mechanics seems to function at two levels in terms of probability. One level is represented ...
Quantum mechanics is often compared with classical mechanics, but it seems that the momentum/spatial...
We have argued in previous notes (1) that x and t are independent within a wavelength. This we will ...
In a previous note (1) we argued that the free particle classical action A (relativistic or nonrela...
A classical wave (string, sound, water etc) which satisfies the classical wave equation is described...
In special relativity, energy and momentum are part of a 4-vector, but are also properties of a part...
In quantum mechanics, it is often stressed that if one knows position (x) with complete certainty, t...
It is proposed that the paradox of wave-particle duality in quantum mechanics may be resolved using ...
In Newtonian mechanics, one often thinks in terms of x(t) i.e. an association between x and t. Altho...
Note: The equations d/dx partial [ T L] = p and d/dt partial [ TL] = -E hold for both the relativis...
In this paper, we consider three landmark experiments of quantum physics and discuss the related wav...