The power transmitted by a sinusoidal wave on a string is 9.50 W. The string has a total mass of 0.155 g and a length of 1.050 m. The tension in the string is 63.0 N and the amplitude of the wave is 12.0 cm.
From this information, determine the frequency of the wave in Hertz.
(Assume 3 digits of precision on all given values. Use 9.807 m/s2 for the acceleration due to gravity.)
The power transmitted by a sinusoidal wave on a string is 9.50 W. The string has...
Sinusoidal waves 5.00 cm in amplitude are to be transmitted along a string that has a linear mass density of 4.00 x 10-2 kg/m. The source can deliver a maximum power of 305 W, and the string is under a tension of 101 N. What is the highest frequency fat which the source can operate? Hz Need Help? Read It Master it
(35. A sinusoidal wave on a string is described by the wave M function y = 0.15 sin (0.80x – 501) where x and y are in meters and t is in seconds. The mass per unit length of this string is 12.0 g/m. Deter- mine (a) the speed of the wave, (b) the wavelength, (c) the frequency, and (d) the power transmitted by the wave.
35. A sinusoidal wave on a string is described by the wave M function y = 0.15 sin (0.80x - 501) where x and y are in meters and t is in seconds. The mass per unit length of this string is 12.0 g/m. Deter- mine (a) the speed of the wave, (b) the wavelength, (c) the frequency, and (d) the power transmitted by the wave.
By wiggling one end, a sinusoidal wave is made to travel along a stretched string that has a mass per unit length of 22.0 g/m. The wave may be described by the wave function y 0.20 sin (0.90x-42) where x and y are in meters and t s in seconds. 1. (a) Determine the speed of the wave. Is the wave moving in the +x direction or the -x direction? b) What is the tension in the stretched string? (c)...
The power versus time for a point on a string (μ = 0.06
kg/m) in which a sinusoidal traveling wave is induced is
shown in the following figure. The wave is modeled with the wave
equation y(x, t) = A sin[(25.43 m−1)x − ωt]. What are
the frequency (in Hz) and amplitude (in m) of the wave?
The power versus time or a point on a string μ 0.06 kg/m n which a sinusoidal traveling wave sind ce s snow...
How does the average power of a wave depend on each of the following quantities? proportional to the square root of: The average power of a wave on a string is proportional to the square of: The average power of a wave on a string is proportional to the square of: The average power of a wave on a string is proportional to the square root of: The average power of a wave on a string is the tension of...
Problem 20.62 Part A Constants Periodic Table A sinusoidal wave travels along a stretched string. A particle on the string has a maximum velocity of 0.800 m/s and a maximum acceleration of 270 m/s2 What is the frequency of the wave? Express your answer with the appropriate units. LA 2.4.10-3Hz Submit Previous Answers Request Answer X Incorrect, Try Again; 3 attempts remaining Part B What is the amplitude of the wave? Express your answer with the appropriate units.
A sinusoidal wave is travelling on a string under tension T = 8.0(N), having a mass per unit length of 1 = 0.0128(kg/m). It’s displacement function is D(x,t) = Acos(kx - t). It’samplitude is 0.001m and its wavelength is 0.8m. It reaches the end of this string, and continues on to a string with 2 = 0.0512(kg/m) and the same tension as the first string. Give the values of A, k, and , for the original wave, as well as...
A sinusoidal transverse wave travels along a long, stretched string. The amplitude of this wave is 0.0923 m, its frequency is 2.69 Hz, and its wavelength is 1.75 m. (a) What is the shortest transverse distance between a maximum and a minimum of the wave? shortest transverse distance: (b) How much time is required for 51.5 cycles of the wave to pass a stationary observer? time to pass a stationary observer: (c) Viewing the whole wave at any instant, how...
A sinusoidal transverse wave travels along a long, stretched string. The amplitude of this wave is 0.0921 m, its frequency is 3.95 Hz, and its wavelength is 1.31 m. (a) What is the shortest transverse distance between a maximum and a minimum of the wave? shortest transverse distance: (b) How much time is required for 58.5 cycles of the wave to pass a stationary observer? time to pass a stationary observer: (c) Viewing the whole wave at any instant, how...