This is from the suplemental S3 matter and interactions. The lenght given is 1.9 meters, y=.04 meters, v=83m/s, amplitude is .02m, wavelength is .633 meters. What is the period?
This is from the suplemental S3 matter and interactions. The lenght given is 1.9 meters, y=.04...
A ferris wheel is 30 meters in diameter and boarded from a platform that is 2 meters above the ground. The six o'clock position on the ferris wheel is level with the loading platform. The wheel completes 1 full revolution in 8 minutes. The function h = f(t) gives your height in meters above the ground t minutes after the wheel begins to turn. What is the Amplitude? meters What is the Midline? y = meters What is the Period? y = minutes...
8. A wave in a string has a wave function given by: y (x, t) = (0.0200m) sin [(6.35 m ^ -1) x + (2.63 s ^ -1) t] where t is expressed in seconds and x in meters. Determine: a) the amplitude of the wave b) the frequency of the wave c) wavelength of the wave d) the speed of the wave
8. A wave in a string has a wave function given by: y (x, t) = (0.0200m) sin [(6.35 m^-1) x + (2.63 s^-1) t] where t is expressed in seconds and x in meters. Determine: (10 points) a) the amplitude of the wave b) the frequency of the wave c) wavelength of the wave d) the speed of the wave
6. A wave is described by y = 0.020 8 sin(kx - wt), where k = 2.22 rad/m, w = 3.66 rad/s, x and y are in meters, and t is in seconds. (a) Determine the amplitude of the wave. (b) Determine the wavelength of the wave. (c) Determine the frequency of the wave. (d) Determine the speed of the wave. 7. When a particular wire is vibrating with a frequency of 3.00 Hz, a transverse wave of wavelength 64.0 cm is produced. Determine the...
A transverse wave is given by the following equation: y (x,t) = (2.45 cm) cos [(0.420 rad/cm)x + (5.20 rad/s)t] a) What are the wave's amplitude, frequency, period, and wavelength? b) What is the direction of wave travel, and what is the speed? c) What is the displacement of a particle at x = 5.00 m, at t = 1.00 min? Hint: pay attention to units!
Problem 5: Reading from a graph This is a snapshot of a harmonic wave y-A cos [2π (x-T)| taken at a time t -3s. A COS 2T y(m) 2 a) What is the amplitude A, wavelength A, period T (if there are more options, pick the biggest value) and the di- rection of the propagation of X(m) 4 the wave b) What is the speed of the prop- agation of the wave given λ and l from previous question! 2
The equation of a particular wave travelling along a wire is
given as
y=(0.47m)sin[(150s−1)t+(53m−1)x]y=(0.47m)sin[(150s−1)t+(53m−1)x]
Based on this equation, find the amplitude, wavelength,
frequency, and velocity of the wave. Be sure to include the correct
sign for the velocity.
Amplitude = m Wavelength = m Frequency = Hz Velocity = m/s
What is the displacement of the wire at x=0.29x=0.29 m
and t=0.26t=0.26 s?
Displacement = m
I got the first three right but can't figure out how to get the...
The transverse displacement of an harmonic wave on a stretched rope is y = 0.05 cos(2.9 x - 5.8 t), where x and y are in meters and t is in seconds. 1) What is the amplitude of this wave? A = m 2) What is the wavelength of this wave? l = m 3) What is the speed with which this wave travels? |v| = m/s 4) In what direction is this wave propagating? +x -x +y -y +z...
11.9
A sinusoidal wave is described by the wave function, y# (0.27 m) sin(0.22x-34t) where x and y are in meters and t is in seconds. Determine the following for this wave (a) the amplitude (b) the angular frequency rad/s (c) the angular wave number rad/m (d) the wavelength 25.56 What is the relationship between the wave number and the wavelength? m e) the wave speed The speed can be calculated from a number of quantities that involve the length...
4) The given wave is traveling in a rope to the right. t = 1 second de 18 m The wave Y= 1.5 sin(kx-wt) travels in the rope. *(1.5 is in cm) a) What is the amplitude of the wave? b) What is the frequency (f) (-in Hertz) of the wave ? ( see the above figure) How did you calculate it c) What is the period (T) (-in seconds) of the wave? (see the above figure). How did you...