A string that is under 50N of tension has a linear density of 5.0 g/m. A...

A nylon guitar string has a linear density of 9.3 g/m and is under a tension...

A nylon guitar string has a linear density of 9.3 g/m and is under a tension of 151 N. The fixed supports are distance D = 98 cm apart. The string is oscillating in the standing wave pattern shown in the following figure. Calculate the frequency of the traveling waves for this standing wave.

A string with linear density 1.70 g/m is stretched along the positive x-axis with tension 18.0...

A string with linear density 1.70 g/m is stretched along the positive x-axis with tension 18.0 N. One end of the string, at x = 0.00 m, is tied to a hook that oscillates up and down at a frequency of 177.0Hz with a maximum displacement of 0.695 mm. At t = 0.00 s, the hook is at its lowest point. What is the wave speed on the string What is the wavelength?

A 90 cm -long steel string with a linear density of 1.3 g/m is under 100...

A 90 cm -long steel string with a linear density of 1.3 g/m is under 100 N tension. It is plucked and vibrates at its fundamental frequency. What is the wavelength of the sound wave that reaches your ear in a 20 C room?

Consider a infinite string made by joining a semi-infinite string of density ρ1 (x < 0)...

Consider a infinite string made by joining a semi-infinite string of density ρ1 (x < 0) to another semi-infinite string of density 4ρ1 (x > 0) with the combination held under constant tension, T. A transverse sinusoidal wave of amplitude A(inc) and wavelength λ propagates to the right along the string of lower density towards the interface. (i) Find the amplitude and wavelength of the wave when it is travelling along the heavier string. What fraction of the time-averaged energy...

Transverse waves traveling along a string have the following properties. Amplitude of the wave = 2.30...

Transverse waves traveling along a string have the following properties. Amplitude of the wave = 2.30 mm Wavelength of the wave = 0.128 m Speed of the wave = 328 m/s a) Determine the time for a particle of the string to move through a total distance of 1.50 km. in s b) If the string is held under a tension of 982 N, determine its linear density. in g/m

A rope with a linear mass density of 64 g/m is held under tension of 6...

A rope with a linear mass density of 64 g/m is held under tension of 6 N. A student moves one end of the rope up and down, creating a wave on the rope. If the end of the rope is attached to a thicker rope, with a linear mass density of 182 g/m, what must the frequency of the wave be in the thicker rope? The student moves the thin rope up and down 6 times per second. The...

A guitar string with a linear density of 2.0 g/m is stretched between supports that are...

A guitar string with a linear density of 2.0 g/m is stretched between supports that are 60 cm apart. The string is observed to form a standing wave with three antinodes when driven at a frequency of 420 Hz. What are (a) the frequency of the fifth harmonic of this string and (b) the tension in the string?

A stretched string has a mass per unit length of 5.00 g/cm and a tension of...

A stretched string has a mass per unit length of 5.00 g/cm and a tension of 10.0 N. A sinusoidal wave on this string has an amplitude of 0.12 mm and a frequency of 100 Hz and is travel- ing in the negative direction of an x axis. What are the (a) speed, (b) wavelength, and (c) period of the wave?

1)Suppose you have a string with linear mass density u=4.5 g/m, with two fixed ends 1.0...

1)Suppose you have a string with linear mass density u=4.5 g/m, with two fixed ends 1.0 m apart. What is the velocity of a wave on the string if the tension of the string is supplied by a hanging mass of 250 g? 2) For the previous question, what are the three lwoest frequencies that you could observe in a standing wave?

A sinusoidal wave is traveling on a string with speed 40 ??/?. The displacement of the...

A sinusoidal wave is traveling on a string with speed 40 ??/?. The displacement of the particles of the string at ? = 10 ?? varies with time according to ? = (5.0 ??) sin(1.0 − 4.0?). The linear density of the string is 4.0 ?/??. What are a) the frequency and b) the wavelength of the wave? If the wave equation is of the form ?(?,?) = ? sin(?? ± ??), what are c) ?, d) ?, e) ?,...