Approach used:- here we use the relation between different wave properties for wave on a string as shown below,
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The equation of a transverse wave traveling in a string is given by y = A...
The equation of a transverse wave traveling in a string is given by y-A sin(kx-at). The tension in the string is 18.0 N, A-1 mm, k = 26 rad/m, ω = 745 rad/s. What is the wave speed? Submit Answer Tries 0/99 What is the linear density of the string Submit Answer Tries o/99
The equation of a transverse wave traveling on a string is given by y - A sin(kx - ot) Data: A-22 mm, k-13 rad/m, 240 rad/s. What is the amplitude? Submit Answer Tries 0/99 What is the frequency? Submit Answer Tries 0/99 What is the wave velocity? Submit Answer Tries 0/99 What is the wavelength? Submit Answer Tries 0/99 For the same wave, find the maximum transverse speed of a particle in the string. Submit Answer Tries 0/99
The equation of a transverse wave traveling on a string is given by y A sin(kx - cot). Data: A-22 mm, k-13 rad/m, - 240 rad/s. What is the amplitude? Submit Answer Tries 0/99 What is the frequency? Submit Answer Tries 0/99 What is the wave velocity? Submit Answer Tries 0/99 What is the wavelen Submit Answer Tries 0/99 For the same wave, find the maximum transverse speed of a particle in the string. Submit Answer Tries 0/99
The equation of a transverse wave traveling on a string is given by y = A sin(kx - ωt) . Data: A=11 mm, k=35 rad/m, ω= 500 rad/s. 1) What is the amplitude? 2) What is the frequency? 3) What is the wave velocity? 4) What is the wavelength? 5) For the same wave, find the maximum transverse speed of a particle in the string.
The equation of a transverse wave traveling along a string is y = (0.11 m)sin[(0.78 rad/m)x - (14 rad/s)t] (a) What is the displacement y at x = 2.6 m, t = 0.27 s? A second wave is to be added to the first wave to produce standing waves on the string. If the wave equation for the second wave is of the form y(x,t) = ymsin(kx + ωt), what are (b) ym, (c) k, and (d) ω (e) the...
The equation of a transverse wave traveling along a string is y = (0.21 m)sin[(0.71 rad/m)x - (13 rad/s)t] (a) What is the displacement y at x = 3.5 m, t = 0.14 s? A second wave is to be added to the first wave to produce standing waves on the string. If the wave equation for the second wave is of the form y(x,t) = ymsin(kx + ωt), what are (b) ym, (c) k, and (d) ω (e) the...
A sinusoidal wave is traveling on a string with speed 28.0 cm/s. The displacement of the particles of the string at x = 8.3 cm is found to vary with time according to the equation y = (1.3 cm) sin[1.6 - (5.4 s-1)t]. The linear density of the string is 6.4 g/cm. What are (a) the frequency and (b) the wavelength of the wave? If the wave equation is of the form y(x,t) = ym sin(kx - ωt), what are...
The equation of a transverse wave on a string is y = (1.0 mm) sin((16 m-?)X + (310 s 1)t] The tension in the string is 45 N. (a) What is the wave speed? (b) Find the linear density of this string. (a) Number Units (b) Number Units
The equation of a transverse wave on a string is y = (1.6 mm) sin[(21 m-1)x + (280 s-1)t] The tension in the string is 14 N. (a) What is the wave speed? (b) Find the linear density of this string.
The equation of a transverse wave on a string is y = (2.0 mm) sin[(21 m−1)x − (590 s−1)t]. The tension in the string is 16 N. (a) What is the wave speed? m/s (b) Find the linear density of this string. g/m