6. For wave on a string, how do you determine frequency for n-loops? Explain. For 5...
string, how do you detemine frequency for n-loops 10. For a standing wave on a
A transverse wave 0.80 cm in amplitude is propagating on a string; the wave frequency is 46 Hz. The string is under 21 N tension and has mass per unit length of 15 g/m. Determine the wave speed. Answer should be in m/s. Thanks!
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...
What is the frequency of oscilltion, wavelength, wave-speed, and amplitude of oscillaion for a travelling wave described by the equation: y = (30m) sin(16-8) Calculate the surface wa pee in seawater. Use one atmosphere for the Pressure near the surface and 1030 kg/m for the density of seawater. A 60-cm long guitar string is under a tension of 95 N. If the mass of the string is 0.21 g, find the fundamental frequency of this string. The wave speed on...
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.)
jcs eing assessed Nsole difficult we problems Eight antinodes are found in a vibrating string. What frequency would give a wave that travels the length of the string in 35 s? A 2.5-m long tube is filled partway with water. A 12-cm the tube, above the air in the tube. The string is cked and resonates at its f of 0024 kg and a tension of 140 N. If the plucked string makes the air in the tube resonate at...
A taut string is under a tension of 40.0 N and a standing wave is generated on it whose oscillation amplitude 5.0 cm with a frequency of 60 Hz. The liner mass density of the wire is 5.00 g. a) What is the velocity of propagation of the wave on the string? b) we observe the third harmonic, what is the length of the string? Draw the figure. c) What is angular fluency and wave number?
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.
A transverse wave with an amplitude of 6 m, a frequency f=6.7 Hz , and a wavelength λ=6 m is traveling down a taut string. If the wave equation describing the displacement of the string at position x and time t is given by y(x,t)=Asin(kx−ωt) a.) what are the parameters A, k, and ω? b.) What is the speed of the wave traveling down the wire? m/s c.) If the tension in the wire is measured to be 6 N,...
Part A) A 5 kg mass is connected to a massless spring with force constant 200 N/m and rests on a frictionless horizontal table. The other end of the spring in anchored to the table. A driving force with a maximum amplitude of 10 N and a period of 1 s is applied to the mass. What is amplitude of the oscillation? Part B) A transverse wave on a string has a period of 0.1 s and an amplitude of...