A very long string (linear density 0.4 kg/m ) is stretched with a tension of 70 N . One end of the string oscillates up and down with an amplitude of 5 cm and a period of 0.35 s . What is the wavelength of the waves created in the string?
(answer in m/s)
A very long string (linear density 0.4 kg/m ) is stretched with a tension of 70...
Part A A very long string (linear density 0.6 kg/m) is stretched with a tension of 85 N . One end of the string oscillates up and down with an amplitude of 7 cm and a period of 0.35 S. What is the wavelength of the waves created in the string? TO ADD A A O 2 ? m/s
A very long string (linear density 0.7 kg/m ) is stretched with a tension of 85 N . One end of the string oscillates up and down with an amplitude of 7 cm and a period of 0.35 s . What is the wavelength of the waves created in the string?
A string is stretched to a tension of 100 N, and has a linear density of 0.025 kg/m. An input disturbance causing a sinusoidal wave has a frequency of 150 Hz, with an amplitude of 5 cm. Determine the speed of the wave. Determine the wavelength. Write down the equation describing the displacement of the string as a function of the position and time.
Wave on a String A string with linear mass density 2.0 g/m is stretched along the positive x-axis under a tension of 20 N. The other end of the string, at x = 0m is tied to a hook that oscillates up and down at a frequency of 100Hz with a maximum displacement from equilibrium of 1.0 mm. At t= 0s, the hook is at it's lowest point. (a) What are the wave speed and the wavelength on the string?...
Wave on a String A string with linear mass density 2.0 g/m is stretched along the positive x-axis under a tension of 20 N. The other end of the string, at x = 0m is tied to a hook that oscillates up and down at a frequency of 100Hz with a maximum displacement from equilibrium of 1.0 mm. At t= 0s, the hook is at it's lowest point. (a) What are the wave speed and the wavelength on the string?...
The tension in a string is 13.8 N, and its linear density is 1.05 kg/m. A wave on the string travels toward the -x direction; it has an amplitude of 3.17 cm and a frequency of 11.7 Hz. What are the (a) speed and (b) wavelength (in terms of m) of the wave? (c) Write down a mathematical expression (like Equation 16.3 or 16.4) for the wave, substituting numbers for the variables A, f, and λ.
The tension in a string is 13.8 N, and its linear density is 1.05 kg/m. A wave on the string travels toward the -x direction; it has an amplitude of 3.17 cm and a frequency of 11.7 Hz. What are the (a) speed and (b) wavelength (in terms of m) of the wave? (c) Write down a mathematical expression (like Equation 16.3 or 16.4) for the wave, substituting numbers for the variables A, f, and λ.
The tension in a string is 15.6 N, and its linear density is 0.809 kg/m. A wave on the string travels toward the -x direction; it has an amplitude of 2.79 cm and a frequency of 15.0 Hz. What are the (a) speed and (b) wavelength (in terms of m) of the wave? (c) Write down a mathematical expression (like Equation 16.3 or 16.4) for the wave, substituting numbers for the variables A, f, and λ. (a) Numbef T4.39 UnitšT...
A certain string has a linear mass density of 0.25 kg/m and is stretched with a tension of 25 N. One end is given a sinusoidal motion with frequency 5 Hz and amplitude 0.01m. At time t=0, the end has zero displacement and is moving in the positive y-direction. a) Find the position of the point at x= 0.25 m, and t= 0.1 s b )Find the transverse velocity of the point, x=0.25 m at time t=0.1s. c) Find the...
The tension in a string is 15.6 N, and its linear density is 0.809 kg/m. A wave on the string travels toward the-X direction; it has an amplitude of 2.79 cm and a frequency of 15.0 Hz. What are the (a) speed and (b) wavelength (in terms of m) of the wave? and A (c) Write down a mathematical expression (like Equation 16.3 or 16.4) for the wave, substituting numbers for the variables A, f, (a) Number Units (b) Number...