A string witha length of 3 m has two adjacent resonances at frequencies 112 Hz and 140 Hz. Determine the speed of the waves on the string vibrating at 140 Hz.
Q: quickly
A: 1.The energy carried in one wavelength of a wave, is given by E' = (1/2)µA2ω2λ Here, λ = wavelength…
Q: A harpsichord string has a length of 0.5 m and a mass of 0.02 kg. a) What is the linear density of…
A:
Q: Suppose you want to demonstrate the Doppler effect for deep-water waves, using a 6.42 Hz source…
A: Given that:fs=6.42 Hzfo=4×6.42=25.68 Hz
Q: You have a string and produce waves on it with 35.00 Hz. The wavelength you measure is 10.00 cm.…
A: frequency of wave, f= 35 Hzwavelength=0.1 m
Q: Two sounds are produced in two different strings, one of length 1.25 m and the second 1.28m. The…
A: The relation of the wavelength in terms of the length of the string is λ=2L Calculate the…
Q: If the distance between the knot and the adjacent abdomen is 8 cm, what is: (a). Wavelength (b).…
A:
Q: A string of length 0.55 m is producing a standing wave of period 7 second with 9 harmonics. The…
A: Given data: Length of the string l= 0.55m Time period T=7s Number of harmonics n=9
Q: Suppose we have a string 1.2m long and fixed at both ends. We adjust the tension on the string until…
A:
Q: uppose a steel wire 0.72m long has a mass of 0.005kg. If the wire is under a tension of 60N, what is…
A: Given: The length of the steel wire is 0.72 m. The mass of the steel wire is 0.005 kg.…
Q: A 0.62-kg Slinky has 185 coils. When you and your friend stretch the Slinky by exerting a 2.0-N…
A:
Q: A second harmonic frequency of a string fixed at both ends is 230.4 Hz. How long does it take for a…
A: Frequency of the string which is fixed at both ends f=230.4 Hz which as at second harmonic n=2. Let…
Q: A wire is under tension due to hanging mass. The observed wave speed is 24 m/s when the suspended…
A: wave speed is 24 m/s mass is 3kg a) what is the string's linear density ? b) if the length of the…
Q: A string of 1.2 m length and 300 g mass, is stretched by a tension of 9 N. A wave of amplitude 15 cm…
A:
Q: A tuning fork of frequency 1000Hz resonates with a string of length 1.5 m fixed at two ends…
A: Data Given , Frequency ( f ) = 1000 Hz String length ( L ) = 1.5 m For 5th Overtone , no. Of nodes…
Q: The crests of a wave pass an observer 5 times every minute. If the crests are spaced 15 cm apart,…
A:
Q: be 0.701 m and the frequency is 42.4 A transverse wave travels across a string having a linear mass…
A: Speed of wave (V) = f×λ √(T/μ) = f×λ Now, tension T = f^2 × λ^2 × μ T = 42.4^2 × .701^2 × .063…
Q: A wave is moving at 9.4 m/s in the direction in which the waves on a lake are moving. Each time he…
A: Given: Velocity of jetskier with respect to ground, v = 9.4 m/s Frequency of bumping, f = 8.9 Hz…
Q: A string is attached - vertically - from one end to a vibrator and from the other end to a block of…
A:
Q: Waves of frequency 230 Hz and amplitude 1.2 cm move along a 20 m string that has a mass of 0.060 kg…
A:
Q: A string of length 0.367 m and mass 33.547 g is tightened with an unknown force. If it can produce a…
A: length = L =0.367 m mass = m = 33.547 g = 0.033547 kg frequency = f = 5.514 Hz wavelength = 3.881 m
Q: The third harmonic frequency of a standing wave is 391 Hz on a string of length 73 cm that is bound…
A: 3rd harmonic frequency of a standing wave, 3f=391 Hz where f is the fundamental frequency of the…
Q: A 5.0m string is oscillating in a third harmonicstanding wave. calculate the 1) Wavelength of the…
A: (1) Write the formula for the wavelength of the third harmonic wave in the string.
Q: A string of mass 35 g and length 3.0 m is clamped at the ends. It is found that standing waves can…
A: The mass of the string is, m=35 g=0.035 kg. The length of the string is, L= 3 m. The initial…
Q: A stretched piano wire, 0.8 m long has a fundamental frequency of 100 Hz. a) What is the speed of…
A: The given data are: λ=0.8 mf=100 Hz Here, λ is the wavelength and f is the frequency.
Q: The third harmonic frequency of a standing wave is 62 Hz on a string of length 50 cm that is bound…
A: Given data: The frequency of the third harmonic of a standing wave f3 = 62 Hz Length (L) = 50 cm =…
Q: The tension in a string is provided by hanging an object of mass m=3.00 kg at one end as shown in…
A: Given that, Mass m= 3.00 kg Length = 2.50 m Mass ms =50.0 g
Q: A string that is fixed at both ends has a length of 2.44 m. When the string vibrates at a frequency…
A: Given data: Length (L) = 2.44 m Number of loops (n) = 5 Frequency (f) = 92.7 Hz Required:…
Q: A string with a linear density of 7 kg/m is stretched to a length of 0.4 meters and fastened at both…
A: Speed for longitudinal wave in string is V=Tμ where T=tension μ=mass per unit…
Q: A bass guitar string is 89 cm long with a fundamental frequency of 30Hz. What is the wave speed on…
A: We have to find the wave speed of the string. We are aware that the string is 89 cm long.30 Hz is…
Q: Answer 4 (a)
A:
Q: One end of a horizontal string is attached to a smallamplitude mechanical 60.0 – Hz oscillator. The…
A:
Q: A string is attached – vertically – from one end to a vibrator and fron end to a block of mass m =…
A:
Q: A wave with a wavelength of 35 cm and an amplitude of 1.2 cm moves along a 15m rope which has a mass…
A: The wavelength of the wave, The amplitude of the wave, The length of the rope, The mass of the rope,…
Q: A stringed instrument has a maximum string length of 0.8 m and is tuned so that a wave travels along…
A: Given : L= 0.8 m v= 120m/s
Q: A wire is under tension due to a hanging mass. The observed wave speed is 24m/s when suspended mass…
A:
Q: Sinusoidal waves 5.00 cm in amplitude are to be transmitted along a string that has a linear mass…
A:
Q: A 28kg block is suspended from the ceiling using thin rope (0.009 kg/m). The rope is plucked,…
A: mass of block (m) = 28 kg linear mass density (μ) = 0.009kgm
Q: the wave velocity on a 3.0m string is 12.0 m/s. a standing wave of frequency f=8.0 Hz is created on…
A:
Q: A harmonic wave is traveling along a rope. It is observed that the oscillator that generates the…
A: Time period for a harmonic wave travelling along a rope is the time taken for one oscillation. It is…
Q: string of length 0.35 m and unknown mass is tightened with a force of 70.709 N. If it can produce a…
A: Given that------ Length of string L = 0.35 m. Tension in string T = 70.709 N. Frequency f = 7.366…
Q: A 12-m rope is pulled tight with a tension of 49 N. When one end is given a quick “flick,” a wave is…
A: The frequency of the wave is, f=1T=10.54 s=1.85 Hz The frequency of the string is,…
Q: The intensity of sound wave A is 100 times that of sound wave B. Relative to wave B the sound level…
A: Intensity of A = 100(Intensity of B)Relative to wave B the sound level of wave A is to be…
Q: A 0.500-m string is clamped at both ends. If the lowest standing wave frequency in the string is 300…
A: Given: L = 0.5 m f = 300 Hz
Trending now
This is a popular solution!
Step by step
Solved in 2 steps