5. i. A traveling electromagnetic wave in a vacuum has an rms electric field amplitude of 59.7 V/m. Calculate the intensity S of this wave. (a) 0 W/m² (b) 3.15 W/m² (c) 9.45 W/m² (d) 18.9 W/m² (e) None of the above. ii. A circular, parallel plate capacitor in a DC RC circuit is charging. What is the direction of the Poynting vector between the capacitor plates? l(t) (1)
5. i. A traveling electromagnetic wave in a vacuum has an rms electric field amplitude of 59.7 V/m. Calculate the intensity S of this wave. (a) 0 W/m² (b) 3.15 W/m² (c) 9.45 W/m² (d) 18.9 W/m² (e) None of the above. ii. A circular, parallel plate capacitor in a DC RC circuit is charging. What is the direction of the Poynting vector between the capacitor plates? l(t) (1)
Physics for Scientists and Engineers, Technology Update (No access codes included)
9th Edition
ISBN:9781305116399
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter34: Electromagnetic Waves
Section: Chapter Questions
Problem 34.15P: Figure P34.15 shows a plane electromagnetic sinusoidal wave propagating in the x direction. Suppose...
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Question
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i. A traveling
electromagnetic wave in a vacuum has an rms electric field amplitude of 59.7 V/m.Calculate the intensity S of this wave.
(a) 0 W/m2 (b) 3.15 W/m2 (c) 9.45 W/m2 (d) 18.9 W/m2
(e) None of the above.
ii. A circular, parallel plate capacitor in a DC RC circuit is charging. What is the direction of the Poynting vector between the capacitor plates?
Transcribed Image Text:5. i. A traveling electromagnetic wave in a vacuum has an rms electric field amplitude of 59.7 V/m.
Calculate the intensity S of this wave.
(a) 0 W/m²
2
(b) 3.15 W/m²
(c) 9.45 W/m²
(d) 18.9 W/m²
(e) None of the above.
ii. A circular, parallel plate capacitor in a DC RC circuit is charging. What is the direction of the
Poynting vector between the capacitor plates?
+
1(t)
I(t)
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