Amplitude of EM waves in vacuum ~

In summary, the amplitude of EM waves in vacuum does not decrease with distance due to energy loss, as there is no matter around to cause such loss. However, theories proposing a decrease in amplitude or frequency over distance are not widely accepted due to lack of experimental proof. According to current observations, EM energy does not diminish over distance unless it interacts with other objects. Therefore, photons are considered to be everlasting in vacuum.
  • #1
Kazekage
1
0
Amplitude of EM waves in vacuum~~~

As we know, amplitude of waves decreases with distance due to energy loss.
But what if EM waves in the space??
Since there's no matter around, I was wondering if there is any energy loss when EM waves travel through vacuum.
 
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  • #2
If you have an EM-emitting source somewhere in an otherwise empty space, the energy flux through a closed surface completely sorrounding the source is constant regardless of where the surface i placed.

If the surface is made larger by expanding it further away from the source, the intensity, i.e. energy flux per unit area, diminishes since the same energy is distributed over a larger area.
 
  • #3
There are some theories that propose that light diminishes in amplitude and/or frequency over distance (so-called "tired light" theories), but these are not generally accepted due to their lack of experimental proof. If such an effect does occur, it is too small for current instrumentation to detect. By all te observed data avialable, EM enegry does not diminish over distance unless it inmteracts with something else.
Photons are forever.
 

What is the definition of "amplitude of EM waves in vacuum"?

The amplitude of an electromagnetic (EM) wave in vacuum is the maximum displacement of the electric and magnetic fields from their equilibrium positions as the wave propagates through space. It represents the strength or intensity of the wave.

How is the amplitude of an EM wave in vacuum related to its energy?

The amplitude of an EM wave is directly proportional to its energy. This means that a higher amplitude wave carries more energy than a lower amplitude wave.

What factors can affect the amplitude of an EM wave in vacuum?

The amplitude of an EM wave in vacuum can be affected by the source of the wave, the distance from the source, and the medium through which it is traveling. In vacuum, the amplitude remains constant as the wave propagates.

Can the amplitude of an EM wave in vacuum be measured?

Yes, the amplitude of an EM wave in vacuum can be measured using specialized instruments such as oscilloscopes or by analyzing the wave's effect on charged particles.

What are the units of measurement for the amplitude of an EM wave in vacuum?

The amplitude of an EM wave in vacuum is typically measured in units of volts per meter (V/m) for the electric field and tesla (T) for the magnetic field.

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