![S5. At right is a snapshot at t 0 of a wave traveling to the right on a string. The string is tied to the wall at x-6 m. The wave moves at v 1 m/s. A point P is indicated on the axis. a) Sketch the appearance of the wave at t -4 s.(2 marks] b) Sketch the history graph for the point P. Show enough time that everything interesting that happens at Pa shown. [2 marks] S6. Two masses, m, and ma, are hung from identical springs (ie. the stiffnesses, k, of the two springs are the same and the unstretched lengths of the springs are also the same). However when we hang the two masses we find that m; hangs stationary at a lower height than m, does, k as shown. The position as a function of time for m, is shown on the following graph. Suppose that m, oscillates with the same amplitude. On the graph sketch what the position as function of time for m, might look like. Briefly explain your reasoning. [3 marks) m2 Short Answer Total: 24](http://img.homeworklib.com/questions/faa82e40-7265-11ea-8cd6-0d2e2ad39636.png?x-oss-process=image/resize,w_560)
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S5. At right is a snapshot at t 0 of a wave traveling to the right...
1. The left figure is a history graph that shows the displacement D of a traveling wave at a given position as a function of time. The right figure is a snapshot graph that shows the displacement...
1. The left figure is a history graph that shows the displacement D of a traveling wave at a given position as a function of time. The right figure is a snapshot graph that shows the displacement of the same wave as a function of position. D (cm) D (cm) -1 -2 2/3 4 67 8 -2 (a) Determine the period T, the frequency f, and the angular frequency o for this wave. (b) Determine the wavelength 2, wavenumber K,...
The graphs below show a snapshot of a wave on a string at time t =...
The graphs below show a snapshot of a wave on a string at time t = 0.00 ms on the left and the history of the piece of string at position x = 0.00 m on the right. The linear mass density of the string is 0.784 t/m. Is this wave moving to the right or to the left? Explain briefly. Assuming the wave may be represented mathematically by the equation y = A sin (kx plusminus omega t +...
y(cm) 1) Snapshots Make History. A snapshot graph of a wave at t 2 s is...
y(cm) 1) Snapshots Make History. A snapshot graph of a wave at t 2 s is shown to the right. If the wave travels at 1 m/s to the left, draw the history graph for this wave at x 3 m from t = 0 s to t 6 s. Your solution must contain at least 3 sketches of snapshot graphs at different times. 1 m/s x (m) 1 2 3 4 5 6 7 -1
Item 2 What is the snapshot graph of this wave at t = 0 s ?...
Item 2 What is the snapshot graph of this wave at t = 0 s ? Constants1 Periodic Table 0 m of a wave (Figure 1) shows a history graph at moving to the right at 1 m/s. y (cm) x (m) -2-| | i\2 3/ 4 5 6 -H Figure 1 of 1 y (cm) -6-5-4 13-21 y (cm) y (cm) 3-2-11 23 4 5 6
(1) A wave is traveling in the positive-y direction with wavelength λ f Hz. At t...
(1) A wave is traveling in the positive-y direction with wavelength λ f Hz. At t is 6m 12 m and frequency 0, there is no displacement of the medium at the origin, but its amplitude a) Write the equation for the displacement of this wave as a function of position and (b) Draw a quantitatively accurate history graph (at y 3m) and snapshot graph (at t 2s) (c) What is the speed of the wave?
Wave function You are observing a wave traveling along the x-axis. The first picture (y vs....
Wave function
You are observing a wave traveling along the x-axis. The first picture (y vs. x) shows a snapshot of the wave at t=0. The second picture dy vs. t) shows how the wave height varies in time from the perspective of an observer standing at fixed location x-0. From this information, determine if the wave is traveling to the left or right. Give a one-sentence explanation justifying your answer 2) 3) The wave function for a harmonic (i.e.,...
Adjacent antinodes of a standing wave of a string are 20.0 cm apart. A particle at...
Adjacent antinodes of a standing wave of a string are 20.0 cm apart. A particle at an antinode oscillates in simple harmonic motion with amplitude 0.600 cm and period 0.100 s. The string lies along the +x-axis and its left end is fixed at x = 0. The string is 70.0 cm long. At time t = 0, the first antinode is at maximum positive displacement. a. Is the right end of the string fixed or free? Explain. b. Sketch...
The figure on the left is a snapshot graph at t=0s of two waves on a string approaching each other at 1 m/s
The figure on the left is a snapshot graph at t=0s of two waves on a string approaching each other at 1 m/s Part AAt what time was the snapshot graph in the figure on the right taken?
(1) A wave is traveling in the positive y direction with wavelength λ = 12 m...
(1) A wave is traveling in the positive y direction with wavelength λ = 12 m and frequency f = 1/6 Hz. At t = 0, there is no displacement of the medium at the origin, but its amplitude is 6m. (a) Write the equation for the displacement of this wave as a function of position and time. (b) Draw a quantitatively accurate history graph (at y = 3m) and snapshot graph (at t = 2s). (c) What is the...
(1) A wave is traveling in the positive-y direction with wavelength λ “ 12 m and...
(1) A wave is traveling in the positive-y direction with wavelength λ “ 12 m and frequency f “ 1 6 Hz. At t “ 0, there is no displacement of the medium at the origin, but its amplitude is 6m. (a) Write the equation for the displacement of this wave as a function of position and time. (b) Draw a quantitatively accurate history graph (at y “ 3m) and snapshot graph (at t “ 2s). (c) What is the...
1. The left figure is a history graph that shows the displacement D of a traveling wave at a given position as a function of time. The right figure is a snapshot graph that shows the displacement of the same wave as a function of position. D (cm) D (cm) -1 -2 2/3 4 67 8 -2 (a) Determine the period T, the frequency f, and the angular frequency o for this wave. (b) Determine the wavelength 2, wavenumber K,...
The graphs below show a snapshot of a wave on a string at time t = 0.00 ms on the left and the history of the piece of string at position x = 0.00 m on the right. The linear mass density of the string is 0.784 t/m. Is this wave moving to the right or to the left? Explain briefly. Assuming the wave may be represented mathematically by the equation y = A sin (kx plusminus omega t +...
y(cm) 1) Snapshots Make History. A snapshot graph of a wave at t 2 s is shown to the right. If the wave travels at 1 m/s to the left, draw the history graph for this wave at x 3 m from t = 0 s to t 6 s. Your solution must contain at least 3 sketches of snapshot graphs at different times. 1 m/s x (m) 1 2 3 4 5 6 7 -1
Item 2 What is the snapshot graph of this wave at t = 0 s ? Constants1 Periodic Table 0 m of a wave (Figure 1) shows a history graph at moving to the right at 1 m/s. y (cm) x (m) -2-| | i\2 3/ 4 5 6 -H Figure 1 of 1 y (cm) -6-5-4 13-21 y (cm) y (cm) 3-2-11 23 4 5 6
(1) A wave is traveling in the positive-y direction with wavelength λ f Hz. At t is 6m 12 m and frequency 0, there is no displacement of the medium at the origin, but its amplitude a) Write the equation for the displacement of this wave as a function of position and (b) Draw a quantitatively accurate history graph (at y 3m) and snapshot graph (at t 2s) (c) What is the speed of the wave?
Wave function
You are observing a wave traveling along the x-axis. The first picture (y vs. x) shows a snapshot of the wave at t=0. The second picture dy vs. t) shows how the wave height varies in time from the perspective of an observer standing at fixed location x-0. From this information, determine if the wave is traveling to the left or right. Give a one-sentence explanation justifying your answer 2) 3) The wave function for a harmonic (i.e.,...
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