QUESTION 21 Q14 Determine the velocity (m/s) of the wave propagation in a cable of mass...
1 Determine the velocity of wave propagation in a cable of mass o = by a tension P = 4000 N 5 kg/m when stretched
Find the values of the stiffhess influence coefficients k11 and k33 Note: Just fill the full numbers with sign if negative (-) without decimal. k12 *22- 813 QUESTION 21 Q14: An electric metallic cable is fixed between two poles that are located L m apart. The cable is stretched by a tension P. The cable has mass per unit length of p . Determine the third natural frequencies of vibration of the cable in Hz Take: | | Length, L...
-/1 points SerPSET9 16.P.025. My Notes 9. An Ethernet cable is 4.20 m long. The cable 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 0.750 s. What is the tension in the cable? Need Help? Read It Watch It Show My Work (Optional) -12 points SerPSET9 16. P.029. 10. My Notes Tension is maintained in a string...
A standing wave is formed on a string that is 37 m long, has a mass per unit length 0.00874 kg/m, and is stretched to a tension of 15 N. 1) Find the fundamental frequency. Answer in units of cycles/s. 2) Find the next frequency that could cause a standing wave pattern. Answer in units of cycles/s.
QUESTION 6 A rope with a total length of 6.50 m has a mass of 0.689 kg. It vibrates in a standing wave as shown below. The hanging mass provides a tension of 8.26 N 5.00 m a) What is the mass per unit length of the rope? b) What is the wave speed on the rope? c) What is the frequency of the wave? a) What is the mass per unit length of the rope? b) What is the...
A simple harmonic wave in a cable is traveling in the x direction with velocity 235 m/s. The wavelength is 1.55m. a. What is the frequency of the wave? b. What is the period of the wave? c. If the tension in the cable is 7.50 ∗ 104 ?, what is the mass density of the cable?
Tension is maintained in a string. The observed wave speed is v=24 m/s, when the suspended mass is m=3 kg a)What is the mass per unit length of the string? b) What is the wave speed when the suspended mass is m=2 kg ANS mu= 0.0052 kg/m; v=19.6 m/s
A rope with a total length of 6.50 m has a mass of 0.689 kg. It vibrates in a standing wave as shown below. The hanging mass provides a tension 8.26 N. 5.00 m a) What is the mass per unit length of the rope? b) What is the wave speed on the rope? What is the frequency of the wave? O A The mass per unit length is 1.27 kg/m B. The mass per unit length is 0.106 kg/m...
A steel cable with total length 74 m and mass 140 kg is connected to two poles. The tension in the cable is 1,658 N, and the wind makes the cable vibrate with a frequency of 2 Hz. Calculate the wavelength of the resulting wave on the cable.
A steel cable with total length 61 m and mass 120 kg is connected to two poles. The tension in the cable is 2,410 N, and the wind makes the cable vibrate with a frequency of 2 Hz. Calculate the wavelength of the resulting wave on the cable.