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The graphs of position and acceleration as function of time for an oscillating mass-spring apparatus are shown below. The mass of the apparatus is 40.0 kg. Position (cm) 34 2- + Time (s) -1 -2- -3- Acceleration (cm/s°

The graphs of position and acceleration as function of time for an oscillating mass-spring apparatus are shown below. The mass of the apparatus is 40.0 kg. Position (cm) 34 2- + Time (s) -1 -2- -3- Acceleration (cm/s°

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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The graphs of position and acceleration as function of time for an oscillating mass-spring apparatus are shown below. The mass of the apparatus is 40.0 kg. Position (cm) 2- 1 - Time (s) -1 Acceleration (cm/s?) - Time (s) The graphs of position and acceleration as functions of time for an oscillating simple pendulum are shown. The spring constant k is most nearly: 100 N/m 300 N/m 200 N/m 250 N/m 150 N/m 350 N/m 400 N/m 50 N/m
Transcribed Image Text:The graphs of position and acceleration as function of time for an oscillating mass-spring apparatus are shown below. The mass of the apparatus is 40.0 kg. Position (cm) 2- 1 - Time (s) -1 Acceleration (cm/s?) - Time (s) The graphs of position and acceleration as functions of time for an oscillating simple pendulum are shown. The spring constant k is most nearly: 100 N/m 300 N/m 200 N/m 250 N/m 150 N/m 350 N/m 400 N/m 50 N/m
Which of the following choices is an expression for the velocity v of the mass as a function of time t (in cm/s)? Your answer must be consistent with the position- time and acceleration-time graphs shown. -cos (nt) v = : v = cos 2 v = cos v = - sin(nt) 2 2 -sin V = 2
Transcribed Image Text:Which of the following choices is an expression for the velocity v of the mass as a function of time t (in cm/s)? Your answer must be consistent with the position- time and acceleration-time graphs shown. -cos (nt) v = : v = cos 2 v = cos v = - sin(nt) 2 2 -sin V = 2
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