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)
College Physics
1st Edition
ISBN:9781938168000
Author:Paul Peter Urone, Roger Hinrichs
Publisher:Paul Peter Urone, Roger Hinrichs
Chapter24: Electromagnetic Waves
Section: Chapter Questions
Problem 35PE: A 2.50-m-diameter university communications satellite dish receives TV signals that have a maximum...
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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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