A transverse wave on a string has an Amplitude A. A tiny spot on the string is colored red. As one cycle of the wave passes by, what is the total distance rraveled by the red spot
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A transverse wave on a string has an Amplitude A. A tiny spot on the string is colored red. As one cycle of the wave passes by, what is the total distance rraveled by the red spot
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- A transverse wave yields a 'y' value as a sine function of 'x' and 't'. The wave oscillates between +0.6 m and -0.6 m. The wavenumber for this transverse wave is 12.5 rad/m and the angular frequency is 3.2 rad/s. What is the minimum distance along the 'x' direction between a point on the wave that has a value of ya = +0.4 m and another point that has a value of yb = -0.25 m?A transverse sinusoidal wave is moving along a string in the positive direction of an x axis with a speed of 82 m/s. At t = 0, the string particle at x = 0 has a transverse displacement of 3.8 cm from its equilibrium position and is not moving. The maximum transverse speed of the string particle at x = 0 is 24 m/s. What is the frequency of the wave? What is the wavelength of the wave? If y(x, t) = ym sin(kx ± ωt + ϕ) is the form of the wave equation, what are ym, k, and ωA standing wave on a string is given by y(x,t) = 0.06 sin(4Tx)cos(10rt) Here x and y are in m. a) What is the length of the string if this function describes the 5th harmonic? b) What is the amplitude of the wave at x = 0.2 m ? %3D %3D O 0usin S4nx) cos (1ont)
- A transverse wave pulse on a string has the wavefunction phi (x,t) = 0.250 m^3 / 2.00m^2 + [x-(5.00 m/s)t]^2. a) what is the speed of the pulse? b) on the same plot, graph the waveform of the pulse at the instants when t=0s, 1.00s, and 2.00s to show that the pulse is moving toward increasing values of x at the speed you found in part (a). Let the domain of your graph be x= -10.0m to 20.0m. c) what is the maximum value of the disturbance? d) if you change the wavefunction to phi (x,t) = 0.250 m^3/ 2.00 m^2 + [x +(5.00 m/s)t]^2 show with another series of plots of the waveform when t=0 s, 1.00s, and 2s that the pulse is moving toward decreasing values of x. Let the domain of this plot be x= -20.0m to 10.0m.As shown history graphs of two different points on a string as a wave pulse moves along the string. The blue curve is the history graph for the point at x = 1.0 cm, and the green curve is for the point at x = -3.0 cm. What is the velocity (including the correct sign for its direction) of this wave?A harmonic wave is traveling along a rope. It is observed that the oscillator that generates the wave completes 36.0 vibrations in 26.0 s. Also, a given maximum travels 430 cm along the rope in 11.0 s. What is the wavelength? Cm
- A harmonic wave is traveling along a rope. It is observed that the oscillator that generates the wave completes 43.0 vibrations in 28.0 s. Also, a given maximum travels 422 cm along the rope in 14.0 s. What is the wavelength? cm Need Help? Read Ithey im a bit confused, i saw two different ways and formuals and I was wondering which way is the right way. I saw x = 2L/n = 5/8 = 1.25m or is it 1/2x = 10m Wave characteristics A standing transverse wave is formed in a string that is 5.0 m long. Both ends of the string are fixed. Eight loops are present in the standing wave. Answer the following questions about the wave. Make sure to show all work clearly Find the wavelength of the wave. Fully explain how you found the wavelengthΠ Two sinusoidal waves have the same wavelength and travel on the same string. If the amplitude of the first wave is 5.30mm, the amplitude of the second wave is 2.9 mm, and the phase constant for the second wave is rad greater than the first, what is the amplitude of the resultant wave? 6
- A wave travels at speed of 60 cm/s on a string. Its wave is described with the function: y = A sin(kx – wt + p). Here x and y are in cm. A snapshot of the wave is shown below. a) Find the phase difference between x1 = 4 cm and x2 = 10 cm at the time when the snapshot was taken. b) Find the wave function in the form of, y = A sin(kx – wt + p), if the snapshot was taken at t = 0.01 s y(cm) 4 3 1 x(cm) 20 -1 6. 8 10 12 14 16 18 -3 -4 -5A string is clamped at both ends and has a length of 8.4m and a mass of 120g. It also has a tension of 96N and is vibrating. a) What is the speed of the wave on the string? b) What is the longest possible wavelength of a standing wave on this string? c) What is the frequency of the wave?The speed of a wave on a string with a fixed end and a free end is 345 m/s. The frequency of the wave is 230 Hz. What length of string is necessary to produce a standing wave with the second harmonic? 1.13m 0.500m 0.375m 1.50m