A wave is traveling through a 50.0-meter-long cable strung with a tension of 35,000 newtons. The mass of this length of cable is 10.2 kilograms. What is the speed of a wave that is traveling in the cable?
A wave is traveling through a 50.0-meter-long cable strung with a tension of 35,000 newtons. The...
Transverse waves are traveling on a long string that is under a tension of 7.00 N . The equation describing these waves is y(x,t)=( 3.85 cm)sin[( 415 s−1)t−( 45.9 m−1)x]. Part A Find the speed of the wave using the equation. Express your answer in meters per second to three significant figures. v v = nothing m/s SubmitRequest Answer Part B Find the linear mass density of this string. Express your answer in kilograms per meter to three significant figures....
A transverse wave is traveling along a string of total mass M, length L, and tension T. Which of the following is correct? a. The wavelength of the wave is proportional to L. b. The wave velocity depends on M,L,and T. c. The frequency of the wave is proportional to the wavelength. d. The speed of motion of a point on the string is the same as the velocity of propagation of the wave.
5: Wave on a hanging string (8 points) A heavy metallic cable of length L and mass m hangs from the ceiling. (a) (2 points) If we define the bottom of the cable to be where y = 0 and the ceiling to be y = L, what's the tension in the cable at a point y along the cable? (Hint: How much weight is it supporting?) (b) (2 points) What's the speed of a vibrational wave traveling along the...
-/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...
For a wave traveling in a string, by what factor would the tension need to be increased to quadruple the wave speed?
A meter‑long wire of mass 166 g is attached to a 60.0 Hz mechanical wave oscillator operating at 144 W. The far end of the wire is strung over a frictionless, massless pulley, and a 358 g mass is hung from it. When the oscillator is turned on, it produces a sinusoidal wave in the wire. Calculate the amplitude ? of oscillation of the wire. Use the value 9.81 m/s2 for the acceleration due to gravity.
A piano string is under a tension of T = 989 N. When struck the wave has a period of t = 0.75 ms and a wavelength of λ = 0.84 m. Part (a) What is the linear density of the string, in kilograms per meter? Part (b) If the piano's soundboard is L= 1.0 m long, how much does the string weigh, in newtons?
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A string under tension carries a transverse wave traveling at a speed v. If the tension in the string is doubled, what will be the speed of a transverse wave traveling down the string? O/2v Ov/v2 Ου O 2v Ο υ/2
A wire cable is 4.00m long and has a mass of .6 kg. A transverse wave pulse is produced by plucking one end of the cable. The pulse is observed to make 5 complete round-trips (down and back) in 1.265 seconds. a.) What is the tension in the cable? b.) In order to make standing waves on the cable with a 60 HZ vibrator where we observe 6 nodes and 5 anti-nodes, what tension do we need in the cable?
Question 10 1 pts A string under tension carries a transverse wave traveling at a speed v. If the tension in the string is doubled, what will be the speed of a transverse wave traveling down the string? O V2v Ov12 U 20 1/2