For a particular transverse wave that travels along a string that lies on the x-axis, the equation of motion is: y = (0.0650 m) cos (30.0 rad/s)t – (0.350 m-1)x (a) Determine the wave's amplitude, wavelength, and frequency. amplitude 0.065 m wavelength 17.95 m frequency 4.77 Hz (b) Calculate the speed of the wave. 85.7 v m/s (c) Calculate the tension in the string, if the string has a mass per unit length of 0.0400 kg/m. (d) In which direction is the wave traveling? in the negative x-direction in the positive x-direction neither: the wave is a standing wave (e) Calculate the maximum transverse speed of a point on the string. 1.95 m/s (f) Calculate the displacement (in other words, the y-value) of a point at x = 1.00 m when t = 4.00 s. 0.0324

Pls answer C and F 

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For a particular transverse wave that travels along a string that lies on the x-axis, the equation of motion is: y = (0.0650 m) cos (30.0 rad/s)t – (0.350 m-1)x . (a) Determine the wave's amplitude, wavelength, and frequency. amplitude 0.065 wavelength 17.95 frequency 4.77 Hz (b) Calculate the speed of the wave. 85.7 m/s (c) Calculate the tension in the string, if the string has a mass per unit length of 0.0400 kg/m. (d) In which direction is the wave traveling? in the negative x-direction in the positive x-direction neither: the wave is a standing wave (e) Calculate the maximum transverse speed of a point on the string. 1.95 m/s (f) Calculate the displacement (in other words, the y-value) of a point at x = 1.00 m when t = 4.00 s. 0.0324