College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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The position first time graph below is for a object that is exhibiting SHM . Rad options 0,pie/2, pie or 3pie/2
Transcribed Image Text:The position vs. time graph below is for an object that is exhibiting SHM. The position function le x(t) = Acos(at+0) & the velocity fo
graph to fill in the table.
x (m)
50
25
-50
0.5
(rad)
-Select-v
1 1.5 2 2.5 3
(m)
00
t(s)
DOD
000 F4
FS
MacBook Air
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- A pendulum with a bob of a 100 g is initially displalaced from its iquililibrium position an release from a heigh of 63 cm above the equilibriums harmonic motion (SHM) without any energy loses to its surroundings. a- what is the the type of energy the pendulum possess at the point of release b-what happens to this type of energy as the bob starts moving toward the equilibriumarrow_forwardThe graph shows the position ve. time for an object undergoing SHM D Choose the points that represent when the object was at equilibrium. ABCDEFGHI Choose the points that represent when the object was at its amplitude. ABCDEFGHIarrow_forwardReview I Constants One end of a stretched ideal spring is attached to an airtrack and the other is attached to a glider with a mass of 0.365 kg. The glider is released and allowed to oscillate in SHM. Part A For related problem-solving tips and strategies, you may want to view a Video Tutor Solution of SHM on If the distance of the glider from the fixed end of the spring varies between 1.89 m and 1.06 m, and the period of the oscillation is 2.15 s, find the force constant of the spring. an air track, IlI: Position vs. time. Express your answer with the appropriate units. ? k = Value Units Submit Request Answer Part B Find the maximum speed of the glider. Express your answer with the appropriate units. ? Value Units Umax =arrow_forward
- The figure to the right shows the position vs. time graph of a Simple Harmonic Motion (SHM). Calculate the exact position, velocity, and acceleration at a time of t = 9.35 s.arrow_forwardShown above a block is exiting SHM on a horizontal frictionless surface complete the table below by stating how much of each energy type of energy the block will have when it is at various points please note that points one and two are different points between equilibrium and amplitudearrow_forwardA uniform rod of length L is supported by a ball-and-socket joint at A and by a vertical wire CD Derive an expression for the period of oscillation of the rod if end B is given a small horizontal displacement and then released.arrow_forward
- MY NOTES ASK YOUR TEACHER A block on a horizontal frictionless surface is attached to a spring. The block is exhibiting SHM and has an amplitude of 0.94 m, Additionally, the block is moving et 29 m/s when it's at the equilibrium position. A.) Determine how far from equilibrium the block is when its PE is two-fourths of the total energy. (- B.) Determine the angular frequency. @=arrow_forwardvipMphvow7Jxcj5pBmcw/formResponse Choose the correct answer * A block of mass m = 3 kg attached to a spring with a spring constant k 150 N/m is set into vibration on a horizontal frictionless surface. At the equilibrium position, the block has a speed v 0.4 m/s. The speed v of the block when it passes through the point x = 0.04 m is equal to: %3D %3D O 0.283 m/s O 0.187 m/s ) 0.111 m/s O 0.353 m/s O 0.050 m/s Choose the corrert answer O O Oarrow_forwardA 48 kg block on a horizontal surface is attached to a 153 N/M Spring. The block is exhibiting SHM with an amplitude of 3.4 M. The surface is frictionless use this to fill in the table. Help plsarrow_forward
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