12. A particle starts from a point with velocity Vo and moves with an acceleration a (t). as indicated in the equations below. v 6.0-2.0j 1.5k a(t) = 24.02-9.0;+ 5.0rk Taking velocity and acceleration in their SI units, respectively. Calculate the (i) acceleration in unit vector notation at t=3.0 s. (ii) velocity in unit vector notation at t=3.0 s. (iii) speed at t 3.0 s. (iv) magnitude of the displacement after 3.0 s. (v) distance travelled after 3.0 s.
12. A particle starts from a point with velocity Vo and moves with an acceleration a (t). as indicated in the equations below. v 6.0-2.0j 1.5k a(t) = 24.02-9.0;+ 5.0rk Taking velocity and acceleration in their SI units, respectively. Calculate the (i) acceleration in unit vector notation at t=3.0 s. (ii) velocity in unit vector notation at t=3.0 s. (iii) speed at t 3.0 s. (iv) magnitude of the displacement after 3.0 s. (v) distance travelled after 3.0 s.
Related questions
Question
100%
Either solve all parts or none!!
Dont use chat gpt I vll downvote
Transcribed Image Text:12. A particle starts from a point with velocity Vo and moves with an acceleration a (t).
as indicated in the equations below.
v
6.0-2.0j
1.5k
a(t) = 24.02-9.0;+ 5.0rk
Taking velocity and acceleration in their SI units, respectively. Calculate the
(i)
acceleration in unit vector notation at t=3.0 s.
(ii) velocity in unit vector notation at t=3.0 s.
(iii) speed at t 3.0 s.
(iv) magnitude of the displacement after 3.0 s.
(v) distance travelled after 3.0 s.
Expert Solution
This question has been solved!
Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.
Step by step
Solved in 2 steps with 2 images
