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 c₁ = 0.340 mm/s² and c₂ = 0.200 s¹. If the particle position and velocity at t = 0 are so = 31.0 mm and vo= 9.00 mm/s, respectively, determine (a) the positions when t = 4.50 s and (b) the positions when v = 22.0 mm/s. -1 Answers: + 0 (a) When t = 4.50 s, + 1 H 2 S= (b) When v = 22.0 mm/s, s = + 3 i 70.438 i 152.362 -+s, m mm mm
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 c₁ = 0.340 mm/s² and c₂ = 0.200 s¹. If the particle position and velocity at t = 0 are so = 31.0 mm and vo= 9.00 mm/s, respectively, determine (a) the positions when t = 4.50 s and (b) the positions when v = 22.0 mm/s. -1 Answers: + 0 (a) When t = 4.50 s, + 1 H 2 S= (b) When v = 22.0 mm/s, s = + 3 i 70.438 i 152.362 -+s, m mm mm
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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 c₁ = 0.340 mm/s² and c₂ = 0.200 s1. If the particle position and velocity at t = 0 are so = 31.0 mm and vo=
9.00 mm/s, respectively, determine (a) the positions when t = 4.50 s and (b) the positions when v = 22.0 mm/s.
-1
Answers:
+
0
(a) When t = 4.50 s,
+
1
2
S=
+
3
i 70.438
(b) When v = 22.0 mm/s, S= i 152.362
-+s, m
mm
mm
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