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4h) A transverse pulse is propagating on a 4.0 m long string that has a mass...
A transverse wave 0.80 cm in amplitude is propagating on a string; the wave frequency is 46 Hz. The string is under 21 N tension and has mass per unit length of 15 g/m. Determine the wave speed. Answer should be in m/s. Thanks!
A 2-m long wire with a mass of 70 g is under tension. A transverse wave for which the frequency is 570 Hz, the wavelength is 0.6 m, and the amplitude is 4.6 mm is propagating on the wire. The maximum transverse accekeration of a point on a wire is closest to?
6. Transverse waves are propagating along a stretched rope. The tension in the rope is doubled. (a) If the wavelength is to remain unaffected, by what factor should the frequency change? (b) Does this change the speed of the wave? If so, by what factor? 7. A wave described by the function below propagates in a string under a tension of 0.18 N. y(x,t) = 2.4 x 10-3 sin (36x – 270t) m where x is in meters, and t...
a. Calculate the velocity of a transverse pulse in a string under a tension of 20 lbs. if the string weighs 0.003 Ib/ft. 4. b. Suppose that a sine wave of amplitude 2 in. and wavelength 1 ft. travels along the string from left to right. What is the maximum transverse speed of a point of the string?
An ethernet cable is 4.15 m long and has a mass of 0.190 kg. A transverse pulse is produced by plucking one end of the taut cable. The pulse makes four trips down and back along the cable in 0.875 s. What is the tension in the cable?
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
A 9 m wire with a mass of 448 g, is under tension. A transverse wave, for which the frequency is 894 Hz, the wavelength is 0.4 m, and the amplitude is 4.0 mm, is propagating on the wire. The time for a crest of this wave to travel the length of the wire, in ms, is closest to
The equation of a transverse wave propagating on a string is
given by
a) Show that this equation can be written as:
b) Find your amplitude, wave number, angular frequency and indicate
in which direction the disturbance is propagated.
c) Find the propagation speed, wavelength, frequency, and wave
period.
d) Find and draw the wave profile between x=0 and x=90cm, in
t=0s.
e)Write the equation that defines the motion of the point x =
10cm at every instant of
weather....
The linear density of a string is 1.5 x 10^-4 kg/m. A transverse wave on the string is described by the equation y = (0.036 m) sin[(1.6 m^-1)x + (23 s^-1)t] What are the wave speed and the tension in the string?
A stretched string is 1.97 m long and has a mass of 20.9 g . When the string is oscillated at 440 Hz , which is the frequency of the standard A pitch that orchestras tune to, transverse waves with a wavelength of 16.5 cm travel along the string. Calculate the tension in the string.