Intensity of Electromagnetic Waves as a Function of Frequency, Source Distance and Aperture Angle
(eBook)
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Language
English
ISBN
9798223783541
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APA Citation, 7th Edition (style guide)
Raul Fattore., & Raul Fattore|AUTHOR. (2023). Intensity of Electromagnetic Waves as a Function of Frequency, Source Distance and Aperture Angle . Raul Fattore.
Chicago / Turabian - Author Date Citation, 17th Edition (style guide)Raul Fattore and Raul Fattore|AUTHOR. 2023. Intensity of Electromagnetic Waves As a Function of Frequency, Source Distance and Aperture Angle. Raul Fattore.
Chicago / Turabian - Humanities (Notes and Bibliography) Citation, 17th Edition (style guide)Raul Fattore and Raul Fattore|AUTHOR. Intensity of Electromagnetic Waves As a Function of Frequency, Source Distance and Aperture Angle Raul Fattore, 2023.
MLA Citation, 9th Edition (style guide)Raul Fattore, and Raul Fattore|AUTHOR. Intensity of Electromagnetic Waves As a Function of Frequency, Source Distance and Aperture Angle Raul Fattore, 2023.
Note! Citations contain only title, author, edition, publisher, and year published. Citations should be used as a guideline and should be double checked for accuracy. Citation formats are based on standards as of August 2021.
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Grouping Information
| Grouped Work ID | d926a0c4-f5ef-db24-bf28-435e1cf1852d-eng |
|---|---|
| Full title | intensity of electromagnetic waves as a function of frequency source distance and aperture angle |
| Author | fattore raul |
| Grouping Category | book |
| Last Update | 2024-01-08 20:11:56PM |
| Last Indexed | 2024-04-17 04:28:05AM |
Book Cover Information
| Image Source | hoopla |
|---|---|
| First Loaded | Feb 13, 2024 |
| Last Used | Feb 13, 2024 |
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[synopsis] => Intensity of Electromagnetic Waves as a function of frequency is usually not treated by the scientific community.The energy transport in Electromagnetic Waves (EMW) calculated by means of the Poynting vector formula, might not yield to correct results, because it only gives an average energy on a surface. There is no reference about the volumetric energy distribution at a distance from the source, nor to the frequency of the EMW.How can the intensity of EMW be written in terms of frequency and distance to the source?How to calculate the volumetric energy of EMW?How does the intensity change with the aperture angle (solid angle of a cone in space) from the source?How to relate intensity with frequency, area, and aperture angle in one equation?How to obtain the wave equation of the interference caused by slit diffraction to compute the Intensity?In this study, you'll find the answers to the questions above and learn that the result obtained here agrees to the famous Planck equation (E=h f ). Moreover, a wave equation for the interference pattern produced by slit diffraction is obtained, but calculation of pattern intensities is left for you with the given formulas.
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