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A string of 1.2 m length and 300 g mass, is stretched by a tension of 9 N. A wave of amplitude 15 cm is generated on the string with a period T = 0.1n sec. Determine the average transmitted power by this wave. 6.75 W 9.00 W O 2.25 W 4.50 W O 7.50 W

A string of 1.2 m length and 300 g mass, is stretched by a tension of 9 N. A wave of amplitude 15 cm is generated on the string with a period T = 0.1n sec. Determine the average transmitted power by this wave. 6.75 W 9.00 W O 2.25 W 4.50 W O 7.50 W

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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12:46 A string of 1.2 m length and 300 g mass, is stretched by a tension of 9 N. A wave of amplitude 15 cm is generated on the string with a period T = 0.1T sec. Determine the average transmitted power by this wave. 6.75 W 9.00 W 2.25 W 4.50 W 7.50 W The standing waves on a stretched string fixed at both ends and has a length L = 3 m is described by the following wave function: y(x,t) = 0.08 sin(Ttx)cos(120rt). Determine the distance between two adjacent node and antinode: D = 0.5 cm
Transcribed Image Text:12:46 A string of 1.2 m length and 300 g mass, is stretched by a tension of 9 N. A wave of amplitude 15 cm is generated on the string with a period T = 0.1T sec. Determine the average transmitted power by this wave. 6.75 W 9.00 W 2.25 W 4.50 W 7.50 W The standing waves on a stretched string fixed at both ends and has a length L = 3 m is described by the following wave function: y(x,t) = 0.08 sin(Ttx)cos(120rt). Determine the distance between two adjacent node and antinode: D = 0.5 cm
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