Understanding the Basics of Electromagnetic Waves: Explained with Examples

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Discussion Overview

The discussion centers around the nature of electromagnetic waves, specifically how they are generated and the underlying mechanisms involved. Participants explore the relationship between accelerating charges and the production of electromagnetic waves, while also considering other phenomena such as atomic transitions and thermal radiation.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification

Main Points Raised

  • One participant seeks clarification on how accelerating charges produce electromagnetic waves and what drives these waves.
  • Another participant notes that electromagnetic waves can also be produced by atomic or molecular transitions and thermal radiation, suggesting a broader context for their generation.
  • A further contribution proposes that energy changes within atoms may not always correspond to mass changes, implying a mechanism where released energy converts to photons when it cannot be transformed into other forms of energy within the atom.

Areas of Agreement / Disagreement

Participants express varying viewpoints on the mechanisms of electromagnetic wave production, with no consensus reached on the specifics of how these processes operate or their implications.

Contextual Notes

Some claims rely on assumptions about energy conversion processes and the nature of atomic transitions, which remain unresolved in the discussion.

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Sup guys,

What is an electromagnetic wave? Now i understand that its made of oscillating electric and magnectic fields perpendicular to each other, and is created when a charge is accelerated. But I am having trouble imagining it, when a charge is accelerated, how would it produce the wave and what is drving the wave.

Examples would be great
Thanks
 
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Electromagnetic waves are not only produced by accelerating charges. Atomic/molecular transition and thermal radiation also produce light.
 
Perhaps many quantized energy changes do not cause quantized mass changes (that would require infinite energy). Perhaps atomic energy changes are energy conversions, similar to converting voltage's energy to magnetic energy.

In other words, perhaps when instability causes an atom to release quantized energy and that energy cannot convert to another energy within the atom, the energy converts to a photon.
 

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