QUESTION 2 A particle moves through 3-space in such a way that its acceleration is a(t)=8sin 2ri +8cos 2rj+e'k. where t is time measured in seconds. The initial velocity of the particle is v, = 2i – 3j+k. At time t=r, find i) the velocity vector of the particle. ii) the scalar tangential and normal components of acceleration.
QUESTION 2 A particle moves through 3-space in such a way that its acceleration is a(t)=8sin 2ri +8cos 2rj+e'k. where t is time measured in seconds. The initial velocity of the particle is v, = 2i – 3j+k. At time t=r, find i) the velocity vector of the particle. ii) the scalar tangential and normal components of acceleration.
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![QUESTION 2
A particle moves through 3-space in such a way that its acceleration is
a(t)=8 sin 2ri + 8cos 2rj +e'k.
where t is time measured in seconds. The initial velocity of the particle is v, = 2i – 3j+k.
At time t=r, find
i)
the velocity vector of the particle.
ii)
the scalar tangential and normal components of acceleration.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb3b16398-bd69-44ab-b077-fb6458b18cc2%2F884197a0-713e-421e-ad87-f33fdf0d693e%2F90fqubd_processed.jpeg&w=3840&q=75)
Transcribed Image Text:QUESTION 2
A particle moves through 3-space in such a way that its acceleration is
a(t)=8 sin 2ri + 8cos 2rj +e'k.
where t is time measured in seconds. The initial velocity of the particle is v, = 2i – 3j+k.
At time t=r, find
i)
the velocity vector of the particle.
ii)
the scalar tangential and normal components of acceleration.
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