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A particle starts from rest at x = -1.5 m and moves along the x-axis with the velocity history shown. Plot the corresponding acceleration and the displacement histories for the 1.6 seconds. Find the time t when the particle crosses the origin. After you have the plots, answer the questions. 1 m/s 3.6 0.4 0.8 t, s 1.2 1.6 -0.7

A particle starts from rest at x = -1.5 m and moves along the x-axis with the velocity history shown. Plot the corresponding acceleration and the displacement histories for the 1.6 seconds. Find the time t when the particle crosses the origin. After you have the plots, answer the questions. 1 m/s 3.6 0.4 0.8 t, s 1.2 1.6 -0.7

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Dynamics of Rigid Bodies

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Note: The tolerance is ±1 in the third significant digit.

A particle starts from rest at x = -1.5 m and moves along the x-axis with the velocity history shown. Plot the corresponding acceleration and the displacement histories for the 1.6 seconds. Find the time t when the particle crosses the origin. After you have the plots, answer the questions. 1 m/s 3.6 O Questions 0.4 Att = 0.15 s, X = Att = 0.56 s, X = Att 1.01 s, X = 0.8 t, s i 1.2 -1.23 -0.204 1.2974 1.6 -0.7 m, m, The particle will cross the origin when t = 0.6166 m, 3 V= 1.35 V= 3.6 V= 2.471 S. m/s, a = m/s, a = m/s, a = O 0 -5.375 m/s² m/s² m/s²
Transcribed Image Text:A particle starts from rest at x = -1.5 m and moves along the x-axis with the velocity history shown. Plot the corresponding acceleration and the displacement histories for the 1.6 seconds. Find the time t when the particle crosses the origin. After you have the plots, answer the questions. 1 m/s 3.6 O Questions 0.4 Att = 0.15 s, X = Att = 0.56 s, X = Att 1.01 s, X = 0.8 t, s i 1.2 -1.23 -0.204 1.2974 1.6 -0.7 m, m, The particle will cross the origin when t = 0.6166 m, 3 V= 1.35 V= 3.6 V= 2.471 S. m/s, a = m/s, a = m/s, a = O 0 -5.375 m/s² m/s² m/s²
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