The experiment conducted in 1971 (the Havele-Keating experiment) and on January 2, 2015 (the experiment with Atomic Clocks on GPS satellites), analyzed at a later time, showed that the conclusions of the experimenters about the proof of SRT, to put it mildly, do not correspond to reality. A more plausible conclusion is the effect of gravity on the deceleration of atomic clocks. Thus, the experiments cited by proponents of relativistic time dilation do not prove this. Hence the doubts about the Lorentz formula and the conclusions of the SRT.
It should be noted that any material system can exist only in a limited time range, and if you increase the speed of processes within this system with the help of external influences, then if a certain threshold is exceeded, the system will collapse. Thus, the lifetime of an astronaut and his brother on Earth will be the same at all speeds, not exceeding the critical one at which the astronaut will die. Therefore, fantastic stories about the return of young astronauts to their aged grandchildren are nothing more than fiction.
Heisenberg's uncertainty principle is not a fundamental property of the quantum world.
In fact, physical quantities are not blurred at all, but have a very specific meaning, but it is not possible to accurately measure this value using modern devices. Since Matter is a system of systems, and according to SRT time is relative, it is necessary to get into it in order to accurately measure a physical quantity in another system. This can be done if the processes in both systems have approximately the same (commensurate) duration. If the rates of processes in different systems differ many times, it is not possible to accurately measure a physical quantity in another system, and the greater the time differences in the systems, the more measurements of physical quantities in another system will be probabilistic.
Quantum effects in the microcosm do not mean that physical quantities change abruptly, i.e. they are discrete, but that their exact measurement is impossible due to too high a rate of processes in the measured object. In fact, everything in the world is constantly changing, and the subsequent state of matter is the result of the development of the previous one. It is quite possible that quantum effects are the result of the fact that the rate of change of physical quantities is higher than the speed of light.
Any system consists of individual elements and can have either one stable state or many. Apparently, no system other than Matter can have countless stable states, since in this case it would become eternal. Therefore, there is only a limited number of stable states that the system can enter as a result of both external and internal influences. The transition from one state to another occurs continuously for a certain time, but for an observer in whom the processes are too slow compared to the change in the measuring object, it looks like an instantaneous change, i.e. quantization.
By the way, why do people notice that time passes faster with age? The answer can be given like this. In a child, internal time flows faster than external time due to faster physiological processes in the body. Therefore, for a child, a day is an eternity. In older people, physiological processes slow down significantly and internal time slows down relative to external time. As a result, the day passes much faster for the elderly than for the young and children.
Taking time as a coordinate may be legitimate for abstract calculations, but this does not explain the physical essence of matter, since time is a consequence of ongoing material processes, and not the root cause of them.
Stephen Carlip said very well about time: "Time is a fundamental characteristic of the reality we observe. Almost every physical theory ultimately boils down to describing how some part of the universe changes over time. That's why we physicists should know better what "time" is, but the annoying truth is that we don't."
It should be noted that any material system can exist only in a limited time range, and if you increase the speed of processes within this system with the help of external influences, then if a certain threshold is exceeded, the system will collapse. Thus, the lifetime of an astronaut and his brother on Earth will be the same at all speeds, not exceeding the critical one at which the astronaut will die. Therefore, fantastic stories about the return of young astronauts to their aged grandchildren are nothing more than fiction.
Heisenberg's uncertainty principle is not a fundamental property of the quantum world.
In fact, physical quantities are not blurred at all, but have a very specific meaning, but it is not possible to accurately measure this value using modern devices. Since Matter is a system of systems, and according to SRT time is relative, it is necessary to get into it in order to accurately measure a physical quantity in another system. This can be done if the processes in both systems have approximately the same (commensurate) duration. If the rates of processes in different systems differ many times, it is not possible to accurately measure a physical quantity in another system, and the greater the time differences in the systems, the more measurements of physical quantities in another system will be probabilistic.
Quantum effects in the microcosm do not mean that physical quantities change abruptly, i.e. they are discrete, but that their exact measurement is impossible due to too high a rate of processes in the measured object. In fact, everything in the world is constantly changing, and the subsequent state of matter is the result of the development of the previous one. It is quite possible that quantum effects are the result of the fact that the rate of change of physical quantities is higher than the speed of light.
Any system consists of individual elements and can have either one stable state or many. Apparently, no system other than Matter can have countless stable states, since in this case it would become eternal. Therefore, there is only a limited number of stable states that the system can enter as a result of both external and internal influences. The transition from one state to another occurs continuously for a certain time, but for an observer in whom the processes are too slow compared to the change in the measuring object, it looks like an instantaneous change, i.e. quantization.
By the way, why do people notice that time passes faster with age? The answer can be given like this. In a child, internal time flows faster than external time due to faster physiological processes in the body. Therefore, for a child, a day is an eternity. In older people, physiological processes slow down significantly and internal time slows down relative to external time. As a result, the day passes much faster for the elderly than for the young and children.
Taking time as a coordinate may be legitimate for abstract calculations, but this does not explain the physical essence of matter, since time is a consequence of ongoing material processes, and not the root cause of them.
Stephen Carlip said very well about time: "Time is a fundamental characteristic of the reality we observe. Almost every physical theory ultimately boils down to describing how some part of the universe changes over time. That's why we physicists should know better what "time" is, but the annoying truth is that we don't."
Facebook
Twitter
Instagram