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Two masses are connected with springs which is shown in the picture. Use this to find th equations of motion for the oscillations are.
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- Suppose that, for the graph shown below, each division on the time scale represents 2.50 10-3 s and divisions on the displacement scale are in 1 cm increments. The amplitude is 2 cm, the period is 5 ms, the frequency is 200 Hz Find the displacement at t = 0.03 s (this is all i need, ty)Pleae answer ALL PARTS, and label. Thank you! will give good rating.Pls solve this within 30-40 minutes pls it's important I'll rate it up. Thanks.
- Needs Complete typed solution with 100 % accuracy.The diagram below shows a mass that is oscillating on the end of a string at three different times t₁, t2, and t3 during a single cycle. At t, it is at maximum displacement in the negative direction. In the following questions we will disre- gard the centripetal acceleration of the bob due to its circular motion about the point O. a. Draw the velocity and acceleration vectors next to the pendulum bob at times t₁, t2, and t3 to show the direction and relative magnitude of those vector quantities at those positions. The vectors at time t₁ have already been drawn. Note: The centripetal acceleration that arises from the circular motion about O is neglected. Draw the forces acting on the bob at each of those instants. 11 a V At which instant t₁, t2, or t3 does the bob have the greatest velocity? What is the acceleration at that position? Explain. b. C. Figure 11-3Please show work and circle answer
- The diagram shos a horigontal spring attached to a block. The block's eguilibrium position is at C. and the block oscillates between the points A and Ewith no friction from the floor, Asume the block is at posibon A whent0, which of the following is the correct position-vs-time graph for the blockTwo equal forces , F, now pull on rod at the positions shown. Draw a FBD, Write 2nd Law equations and find the tension. Is the rod in STATIC EQUILIBRIUM? Explain If it moves describe the motion