The acceleration of a particle is given by a = C1 + C2v, where a is in millimeters per second squared, the velocity v is in millimeters pe second, and the constants c1 = 0.320 mm/s2 and c2 = 0.300 s1. If the particle position and velocity at t = 0 are so = 59.0 mm and vo = 10.0 mm/s, respectively, determine (a) the position s when t 2.40 s and (b) the position s when v = 17.0 mm/s. + s, m + 3 -1 1 Answers: 2-
The acceleration of a particle is given by a = C1 + C2v, where a is in millimeters per second squared, the velocity v is in millimeters pe second, and the constants c1 = 0.320 mm/s2 and c2 = 0.300 s1. If the particle position and velocity at t = 0 are so = 59.0 mm and vo = 10.0 mm/s, respectively, determine (a) the position s when t 2.40 s and (b) the position s when v = 17.0 mm/s. + s, m + 3 -1 1 Answers: 2-
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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Transcribed Image Text:The acceleration of a particle is given by a = c1+ C2v, where a is in millimeters per second squared, the velocity v is in millimeters per
second, and the constants c = 0.320 mm/s? and c2 = 0.300 s1. If the particle position and velocity att = 0 are so = 59.0 mm and vo =
10.0 mm/s, respectively, determine (a) the position s when t = 2.40 s and (b) the position s when v = 17.0 mm/s.
+
+
--+ s, m
-1
1
Answers:
(a) When t = 2.40 s,
S =
i
mm
(b) When v = 17.0 mm/s,
S =
i
mm
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