Physicist Should Have Solved the Sound Problem First

We know an electric charge has an electric field and if the charge is moving, there generate a magnetic field. The combination of the electric and magnetic field is called electromagnetic field, and its interaction with charges is the source of electromagnetic force, which is one of the fundamental forces in physics.

Is this electric charge carried by subatomic particles or wave?

The vibration of an electric charge creates electromagnetic waves. These waves produced because of between an electric field and a magnetic field. In a nutshell, electro-magnetic waves are composed of oscillating magnetic and electric fields perpendicular mutually, and to the direction of motion. Therefore, an electromagnetic wave may create by accelerating charges, moving the charges back and forth, will produce the vibration that is sound. These travels, if radiated, are always defined as light, and at the same time it should be treated as sound.

On the other, sound waves are shown as example of mechanical waves, while light waves are example of electromagnetic waves. Sound waves are elastic waves also, and propagate through actual vibration or oscillation of constituent particles in the field it travels through. In this hypothetic view, sound is the transfer of reactive-energy from a vibrating entity in waves that travels through the field, and its propagation is by no means right-angled to the direction of the energy transport.

Bjorn Ursin, Norwegian University of Science & Technology, theorized unified treatment of elastic and electromagnetic wave propagation in horizontally layered media. It is shown that three-dimensional elastic waves, acoustic waves and electromagnetic waves in isotropic layered media can all be represented by an equation with the same properties.

Now if we looked at electromagnetic energy within a field with all of its characteristics, there might be reversibly transformed sound energy outside the field. Above all sound energy has then the exceptional and original energy resource root. It obeys the principle of conservation of energy and momentum if the system has not produced another difficulty, which has so far been turned aside.
Recently, an exquisite new meteorological data has uncovered what millions of barometer readings missed – an ensemble of waves that race around the earth, covering it in a patchwork quilt of high-low pressure zones. Atmospheric scientists now describe them as ‘normal modes’ – waves that resonate like the ringing of a bell. The simplest mode raises the pressure in one hemisphere and lower it in the other. They also noticed that pressure in the tropics rose and fell every twelve hours. The daily timing linked the changes to heating from the sun, but theorists couldn’t explain why the effect was so large. Laplace once developed a theory predicting that continent-size pressure waves would periodically sweep around the globe.

In the GRW (Ghirardi-Rimini-Weber) model, the standard unitary evolution of orthodox quantum mechanics, as theorized, is interrupted by spontaneous jump of the wave function. Obviously, their prediction is the fact that a truly random noise or propagation of sound is always indistinguishable. Each jump would release so much kinetic energy that heat, and even sound would be instantly emitted. This emission of sound, even faint, is excluded empirically. Therefore, in this universe, random propagation or jump of wave injects enough energy should be solved too.

Similarly, V. M. Kontorovich & A. M. Glutsynk calculated that when a sound wave strikes the boundary of a conductor situated in an external magnetic field, electromagnetic waves are induced by the oscillations of the conducting medium, along with the reflected and refracted sound waves. Accordingly, when an electromagnetic wave is incident on a conductor, sound waves that move away from the interface are produced. This mutual convertibility of acoustic and electromagnetic waves can be the interest in the research on magneto-acoustic effect in every sphere.

In an article, Entering a New Era of Dark Energy Cosmology, Matteo Rini, has written about BAO (Baryon Acoustic Oscillations). BAOs were produced by acoustic waves in the hot, primordial plasma making up the early universe. When the plasma’s electrons and protons became bound in neutral atom. This freezing ultimately resulted in subtle, periodic oscillations in the density of galaxies. That is a point of view that, acoustic scale increased as the universe expanded.