The history graph below is for a wave travelling to the right (positive x-direction). Which of the following depicts the most correct snapshot graph?
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Q: 50 cm
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- Displacement, Y (m) to a) Determine the amplitude of the wave. b) Determine the wave length. MA Above figure shows the displacement versus distance graph at t=0s for a sinusoidal transverse wave which travel in positive x direction. After 5s (t=5s) the next time the displacement versus graph appears identical to the figure above. 6: Distance, x (m)The figure below indicates the position of a jet airplane along the x axis. O represents the position now, 1 indicates the position one second ago, 2 indicates the position two seconds ago, etc. The present locations S1, S2 and S3 of the sound wave fronts generated by the jet 1, 2 and 3 seconds ago are also shown. Assume a wave is generated each second. From the illustration, it is apparent that the jet is A. Traveling to the left at more than the speed of sound B. Traveling to the right at more than the speed of sound C. Traveling to the left at less than the speed of sound D. Traveling to the right at less than the speed of soundThe graph below shows how a single point on a rope moves as a series of waves pass through it. Use this graph to answer the following questions. DISPLACEMENT vs. TIME GRAPH disp (m) 20 10 -10 5 10 15 20 t (s) A.) How many waves are pictured? waves B.) State the amplitude of the waves. C.) Determine the period of the waves. D.) Determine the frequency of the waves.
- Can somebody show me how they got 91 as an answer please? Thank youWhat is the amplitude of the wave in the diagram below?(OPEN RESPONSE) 5. The diagram below represents one type of wave created on a guitar string when the string is plucked. The string has a length of 0.65 m and vibrates at a frequency of 880 Hz. In the space provided below, copy the wave diagram and label the wavelength of the a. wave. b. Calculate the velocity of this wave on the string. Show your calculations and include units in your answer. The wave on the guitar string also creates sound waves in the air. The speed of the sound waves is 340 m/s in air. The pitch created by the guitar string matches the pitch heard by an observer. c. Compare the frequency and wavelength of the wave on the guitar string to the frequency and wavelength of the sound waves in the air.
- A. On the right you see the result of waves A and B combining to produce BEATS. Explain what is going on. You may draw & label on the provided diagram to aid in your explanation. w АЛЛАА loud Win A + B faintThe figure below shoes displacement (y) caused by a traveling wave at a fixed position (0) as a function of time (t). Use the graph to determine the following wave properties: Amplitude: m Period: s Frequency: HzAssume that you have a traveling wave of the form y(x, t) - A sin(kx - wt), which is depicted at time Os below. If you know the vertical displacement at the position x-0.240 m indicated by the cyan vertical line in the graph is A/2, what is the wave vector (k) of this wave? (Provide your result in m1 with two decimal places, but do not include the units.) -1 3- y(x,t) 2 1 -1 -2 -3 -3 -2 Your Answer: A sin(kx - wt) at t = 0 y =A y=A/2 = -1 0 x(m) 1 2 3
- Please answer number 2.Two wave pulses on a string, each traveling 2 cm/s, are approaching each other. The first diagram below shows the shape of the string at time = 0 seconds. Draw what the string looks like at t = 1 second on the next graph. The axes are in cm.The figure (Figure 1)shows a snapshot graph of a wave traveling to the right along a string at 45m/s. Please help, trying to figure out what I did wrong for the first and third questions thank you.