t one location on the Earth, the rms value of the magnetic field caused by solar radiation is 1.85 µT. (a) Calculate the rms electric field due to solar radiation. 555 v V/m (b) Calculate the average energy density of the solar component of electromagnetic radiation at this location. 2.723 v H/m³ (c) Calculate the average magnitude of the Poynting vector for the Sun's radiation. 817.06 v W/m² (d) Assuming that the average magnitude of the Poynting vector for solar radiation at the surface of the Earth is Say = 1000 W/m2, compare your result in part (c) with this value.
t one location on the Earth, the rms value of the magnetic field caused by solar radiation is 1.85 µT. (a) Calculate the rms electric field due to solar radiation. 555 v V/m (b) Calculate the average energy density of the solar component of electromagnetic radiation at this location. 2.723 v H/m³ (c) Calculate the average magnitude of the Poynting vector for the Sun's radiation. 817.06 v W/m² (d) Assuming that the average magnitude of the Poynting vector for solar radiation at the surface of the Earth is Say = 1000 W/m2, compare your result in part (c) with this value.
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Chapter1: Units, Trigonometry. And Vectors
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Need help with part D i am on last attempt
Transcribed Image Text:At one location on the Earth, the rms value of the magnetic field caused by solar radiation is 1.85 µT.
(a) Calculate the rms electric field due to solar radiation.
555
V/m
(b) Calculate the average energy density of the solar component of electromagnetic radiation at this location.
2.723
µJ/m3
(c) Calculate the average magnitude of the Poynting vector for the Sun's radiation.
817.06
W/m?
(d) Assuming that the average magnitude of the Poynting vector for solar radiation at the surface of the Earth is Say
= 1000 W/m², compare your result in part (c) with this value.
%
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