When driven by a 120Hz vibrator, a string has transverse waves of 30cm wave length traveling along it. What is the speed of the waves on the string and if the tension is 1.2N, what is the mass of 50cm of the string?
When driven by a 120Hz vibrator, a string has transverse waves of 30cm wave length traveling...
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.
Transverse waves traveling along a string have the following properties. Amplitude of the wave = 2.75 mm Wavelength of the wave = 0.150 m Speed of the wave = 408 m/s Determine the time for a particle of the string to move through a total distance of 1.50 km.
4) In the Standing Waves experiment, the length of the string between the pulley and vibrator is 135 cm, the suspended mass is 160 g, the mass of a piece of the string of 10 m-length is 7.3 g.A student observes a standing wave of mode four. What is the vibrator's frequency? 4) In the Standing Waves experiment, the length of the string between the pulley and vibrator is 135 cm, the suspended mass is 160 g, the mass of...
transverse waves with a speed of 50m/s are to be produced on a stretched string. A 5 m length of string with a total mass of 0.06 kg is used. a. what is the required tension in the string? b. calculate the wave speed in the string if the tension is 8 N.
Question 5 1 pts A string under tension carries transverse waves traveling at speed v. If the same string is under 4 times the tension, what is the wave speed? v/2 4v V 2v v/4
Transverse waves with a speed of 44.0 m/s are to be produced on a stretched string. A 5.10-m length of string with a total mass of 0.0600 kg is used. Find (a) What is the required tension in the string? InN (b) Calculate the wave speed in the string if the tension is 8.00 N. m/s
6. (20 pts.) A wave traveling along a string stretched along an x-axis has the form y(x, t) = (10 mm) sin(107x – 5nt). (a) What direction is the wave traveling (to the left or right)? (d) What is the wave's frequency, wavelength and speed? (e) What is the minimum, finite length the string must have in order to have standing waves, in it, with this waveform bouncing back and forth along x? (f) If the string has that length,...
plz explain! :) 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
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
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....