11.25 The acceleration of a particle is defined by the relation a = -kv².5, where k is a constant. The particle starts at t 0, with a velocity of 16 mm/s, and when x = 6 mm, the velocity is observed to be 4 mm/s. Determine (a) the velocity of the particle when x = 5 mm, (b) the time at which the velocity of the particle is 9 mm/s. Answer (a) 4.76 mm/s. (b) 0.171 ş.
11.25 The acceleration of a particle is defined by the relation a = -kv².5, where k is a constant. The particle starts at t 0, with a velocity of 16 mm/s, and when x = 6 mm, the velocity is observed to be 4 mm/s. Determine (a) the velocity of the particle when x = 5 mm, (b) the time at which the velocity of the particle is 9 mm/s. Answer (a) 4.76 mm/s. (b) 0.171 ş.
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![-kv².5, where k is a constant. The particle
11.25 The acceleration of a particle is defined by the relation a =
starts at t = : 0, with a velocity of 16 mm/s, and when x = 6 mm, the velocity is observed to be 4 mm/s.
Determine (a) the velocity of the particle when x = 5 mm, (b) the time at which the velocity of the particle is
9 mm/s.
Answer
(a) 4.76 mm/s.
(b) 0.171 ş.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F9c0e6610-2ae5-4d3c-adc7-0c42fefaffb0%2F2b3489e4-37c8-4dd6-ad6d-7b3ed1857ef0%2Fo9o7wn_processed.png&w=3840&q=75)
Transcribed Image Text:-kv².5, where k is a constant. The particle
11.25 The acceleration of a particle is defined by the relation a =
starts at t = : 0, with a velocity of 16 mm/s, and when x = 6 mm, the velocity is observed to be 4 mm/s.
Determine (a) the velocity of the particle when x = 5 mm, (b) the time at which the velocity of the particle is
9 mm/s.
Answer
(a) 4.76 mm/s.
(b) 0.171 ş.
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