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The transverse displacement of a stretched string from equilibrium as a function of time and position is given by: y=0.13 cos(9 x - 81 t). x and y are in m; t is in s. (Q1-4QTrue or False or Greater than or Less than or Equal to) 1. The wave moves in the negative x direction. 2. The speed of the wave is ..... 10 m/s. 3. The wavelength is ..... 1 m. 4. The period is ..... 0.1 seconds....
The transverse displacement of a stretched string from equilibrium as a function of time and position is given by: y=0.13 cos(9 x + 45t). x and y are in m; t is in s. The wavelength is The period is ..... 0.1 seconds. The wave moves in the positive x direction. The speed of the wave is 1 m. Less than Greater than True 6 m/s. Less than A traveling, wave can be any function of (2*pi*x/lamda-2*pi*t/period). Calculate the various...
The transverse displacement of a stretched string from equilibrium as a function of time and position is given by: y=0.13 cos(9 x + 45 t). x and y are in m; t is in s. The wavelength is ..... 1 m. The period is ..... 0.1 seconds. The wave travels in the negative x direction. The speed of the wave is ..... 6 m/s. A traveling wave can be any function of (2*pi*x/lamda-2*pi*t/period). Calculate the various parameters where needed then...
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8. -0 points My Notes Ask Your Teacher A particle with a mass of 0.340 kg is attached to a horizontal spring with a force constant of 3.0ō N m At the moment t moving to the left. (Assume that the positive direction is to the right.) 0 the partice has s maximum speed of 75ms and s (a) Determine the particle's equation of motion, specifying its position as...
Use the graph below for questions 12 15 Velocity versus Time 10 1 23 456 789 10 Time (s) 2. What is the average acceleration of the particle fromt2s tot9s? 3. What is the instantaneous acceleration at t 5 s? what is the displacem ent from t = 4 s to 1 = 8 s? 14. 5. Sketch the acceleration versus time graph derived from the velocity versus time graph. Acceleration versus Time 3 -3 1 23 45 678 9...
12. A rubber ducky (located atx = 0 m) floats on a lake and bobs up and down due to one dimensional water waves Shown are a y() graph that depicts the vertical displacement of rubber ducky as a function of time and a y(x) graph that depicts the water wave as a function of position at the time t = 0 s What is the velocity of this water wave (both speed and direction)? y (in cm) at x...
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6. -0 points My Notes O Ask Your Teache A 10.1 kg object oscillates at the end of a vertical spring that has a spring constant of 2.20 x 104 N/m. The effect of air resistance is represented by the damping coefficient b = 3.00 N-s/m (a) Calculate the frequency of the dampened oscillation. H2 (b) By what percentage does the amplitude of the...
l0 0 1 2 3 4 5 6 7 8 9 10 time (s) The graph above gives the velocity versus time for some object. Which of the graphs below, of position versus time, is consistent with this graph? 01 2345678 9 10 012345678 910 time (s) E 45.0 5.0 15.0 0123 4567 8 910 0123456789 10 time (s) 30 01 23 45678910 time (s)
Use the following information to answer the next two questions Four histograms are displayed below. 2 0 1 2 345 67 89 10 0 2 45 6 789 10 123 4 5 6789 10 0 1 2 34 5 6 7 8 9 10 0 Match the description to the appropriate histogram. A distribution for the second to last digit of phone numbers sampled from students in a class (i.e., for the phone number 968-9667, the second to last digit...
Find the phase speed v for the wave whose snapshot and history
graphs are given below. Show your calculations for the wave crest.
[ans. -1.5 m/s]
Please show work :)
5. [5pt Find the phase speed v for the wave whose snapshot and history graphs are given below. Show your calculations for the wave crest. [ans. -1.5 m/s] 3-1 211 t = 8 0 1 2 3 5 6 78 9 10 11 12 X (m) 2x7 m -3 0...