The wave function of a mechanical wave on a string is described by: y(x,t) D 0.015cos(2tx- 50tt + Tt/3), where x and y are in meters and t is in seconds. The transverse acceleration of an element on the string at position x = 0.6 m and at time t = 0 is equal to: %3D a = -185 m/s^2 a = +38.7 m/s^2 a = 0 m/s^2 O a = +362 m/s^2 O a = -38.7 m/s^2 Oa = +185 m/s^2
The wave function of a mechanical wave on a string is described by: y(x,t) D 0.015cos(2tx- 50tt + Tt/3), where x and y are in meters and t is in seconds. The transverse acceleration of an element on the string at position x = 0.6 m and at time t = 0 is equal to: %3D a = -185 m/s^2 a = +38.7 m/s^2 a = 0 m/s^2 O a = +362 m/s^2 O a = -38.7 m/s^2 Oa = +185 m/s^2
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Transcribed Image Text:The wave function of a mechanical wave on a string is described by: y(x.t) D
0.015cos(2rtx-50tt + T/3), where x and y are in meters andt is in seconds. The
transverse acceleration of an element on the string at position x 0.6 m and at
time t 0 is equal to:
O a = -185 m/s*2
O a= +38.7 m/s^2
a = 0 m/s^2
Oa = +362 m/s^2
O a = -38.7 m/s*2
O a = +185 m/s*2
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