Use the last expression for y(x,t) to find an expression for the transverse velocity vy of...
Use the last expression for y(x,t) to find an expression for the transverse velocity vy of a particle in the string on which the wave travels.
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Use the last expression for y(x,t) to
find an expression for the transverse velocity vy
of...
A transverse harmonic wave travels on a rope according to the following expression: y(x, t) =...
A transverse harmonic wave travels on a rope according to the
following expression:
y(x, t) = A cos(kx − ωt − φ)
The mass density of the rope is μ = 0.113 kg/m. x and y are
measured in meters and t in seconds. Using the graphs at of y vs t
at x=0 and y vs x at t=0 shown below, answer the following
questions:
(a) What is the value for the wave number, k, for the expression
y(x,t)?...
A transverse harmonic wave travels on a rope according to the following expression: y(x,t) = 0.14sin(2.3x...
A transverse harmonic wave travels on a rope according to the following expression: y(x,t) = 0.14sin(2.3x + 17.8t) The mass density of the rope is μ = 0.107 kg/m. x and y are measured in meters and t in seconds. I'm missing 6, 7 and 8 1) What is the amplitude of the wave? 0.14m 2) What is the frequency of oscillation of the wave? 2.8334Hz 3) What is the wavelength of the wave? 2.73m 4) What is the speed of the wave? 7.74m/s...
A transverse wave on a string is modeled with the wave function y(x, t) (0.80 m)sin[(0.85...
A transverse wave on a string is modeled with the wave function y(x, t) (0.80 m)sin[(0.85 m)x (1.70 s)t 0.20]. (Indicate the direction with the signs of your answers.) (a) Find the wave velocity (in m/s). m/s (b) Find the position (in cm) in the y-direction, the velocity (in cm/s) perpendicular to the motior of the wave, and the acceleration (in cm/s2) perpendicular to the motion of the wave of a small segment of the string centered at x 0.40...
A transverse sinusoidal wave on a string has a period T-17.0 ms and travels in the...
A transverse sinusoidal wave on a string has a period T-17.0 ms and travels in the negative x direction with a speed of 30.0 m/s. At t = 0, a particle on the string at x = 0 has a transverse position of 2.00 cm and is traveling downward with a speed of 3.50 m/s. (a) What is the amplitude of the wave? 2.9 Your response differs significantly from the correct answer. Rework your solution from the beginning and check...
A sinusoidal transverse wave of wavelength 19.0 cm travels along a string in the positive direction...
A sinusoidal transverse wave of wavelength 19.0 cm travels along a string in the positive direction of an x axis. The displacement y of the string particle at x = 0 is given in the figure as a function of time t. The scale of the vertical axis is set by ys = 4 cm. The wave equation is to be in the form of y = ym sin(kx - ωt + φ). (a) At t = 0, is a...
The equation describing a transverse wave on a string is y(x,t)=( 2.50mm )sin[( 168s?1 )t?( 42.1m?1...
The equation describing a transverse wave on a string is y(x,t)=( 2.50mm )sin[( 168s?1 )t?( 42.1m?1 )x]. A. Find the wavelength of this wave. B. Find the frequency of this wave. C. Find the amplitude of this wave. D. Find the speed of motion of the wave. E. Find the direction of motion of the wave. F. Find the transverse displacement of a point on the string when t = 0.160s and at a position x = 0.140m.
The equation that describes a transverse wave on a string is y = (0.0120 m)sin[(394 rad/s)t...
The equation that describes a transverse wave on a string is y = (0.0120 m)sin[(394 rad/s)t - (3.00 rad/m)x] where y is the displacement of a string particle and x is the position of the particle on the string. The wave is traveling in the +x direction. What is the speed v of the wave?
The transverse diaplacement for a wave on a string traveling in the +x direction is y(x,t)...
The transverse diaplacement for a wave on a string traveling in the +x direction is y(x,t) = (0.0090) sin (66.8m^-1)x-(310s^-1)t) what is it’s a) velocity b)wavelength c)frequency d)period e)amplitude (in units)
Wave equation
A transverse sine wave with an amplitude of 2.50mm and a wavelength of 1.80m travels from left to right along a long,horizontal stretched string with a speed od36.0m/s.Take the origin at the left end of the undisturbed string.At time t=0 the left end of the string has its maximum upward displacement .a) What are the frequency,angular frequency and wave number of wave?b) What is the function y(x,t) that describes the wave?c) What is y(t) for a particle at the left...
Consider the waveform expression. y(x, t) = Ymsin (3.38 + 261t + 0.129x) The transverse displacement...
Consider the waveform expression. y(x, t) = Ymsin (3.38 + 261t + 0.129x) The transverse displacement (y) of a wave is given as a function of position (x in meters) and time (t in seconds) by the expression. Determine the wavelength, frequency, period, and phase constant of this waveform. a= meters f = Hertz T = seconds ΦΟ = radians
A transverse harmonic wave travels on a rope according to the
following expression:
y(x, t) = A cos(kx − ωt − φ)
The mass density of the rope is μ = 0.113 kg/m. x and y are
measured in meters and t in seconds. Using the graphs at of y vs t
at x=0 and y vs x at t=0 shown below, answer the following
questions:
(a) What is the value for the wave number, k, for the expression
y(x,t)?...
A transverse wave on a string is modeled with the wave function y(x, t) (0.80 m)sin[(0.85 m)x (1.70 s)t 0.20]. (Indicate the direction with the signs of your answers.) (a) Find the wave velocity (in m/s). m/s (b) Find the position (in cm) in the y-direction, the velocity (in cm/s) perpendicular to the motior of the wave, and the acceleration (in cm/s2) perpendicular to the motion of the wave of a small segment of the string centered at x 0.40...
A transverse sinusoidal wave on a string has a period T-17.0 ms and travels in the negative x direction with a speed of 30.0 m/s. At t = 0, a particle on the string at x = 0 has a transverse position of 2.00 cm and is traveling downward with a speed of 3.50 m/s. (a) What is the amplitude of the wave? 2.9 Your response differs significantly from the correct answer. Rework your solution from the beginning and check...
Consider the waveform expression. y(x, t) = Ymsin (3.38 + 261t + 0.129x) The transverse displacement (y) of a wave is given as a function of position (x in meters) and time (t in seconds) by the expression. Determine the wavelength, frequency, period, and phase constant of this waveform. a= meters f = Hertz T = seconds ΦΟ = radians
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