When the particle changes direction, v(t) then changes its sign.
Find distance covered in between two time :
If tc is the time point between the time points t1 and t2 (t1 < tc 2) where the particle changes direction then the total distance travelled from time t1 to time t2 is calculated as
A particle moves along a line according to the law
s(t) = 2t 3 -9t 2 +12t-4 , where t ≥ 0 .
(i) At what times the particle changes direction?
(ii) Find the total distance travelled by the particle in the first 4 seconds.
(iii) Find the particle’s acceleration each time the velocity is zero.
Let us find when the particle is at rest. So, v(t) = 0
s(t) = 2t 3 -9t 2 +12t-4
v(t) = s'(t) = 6t 2 -18t+12
So, when t = 1 and when t = 2 the particle is at rest.
So, the particle its direction between 1 to 2.
(ii) Distance travelled by the particle in 4 seconds :
s(t) = 2t 3 -9t 2 +12t-4
s(0) = -4, s(1) = 1, s(2) = 0, s(3) = 5, s(4) = 28
Applying in D, we get
D = |-4-1| + |1-0| + |0-5| + |5-28|
(iii) v(t) = s'(t) = 6t 2 -18t+12
The velocity becomes zero at t = 1 and t = 2.
A(1) = 12(1) - 18 ==> -6 m/sec 2
A(2) = 12(2) - 18 ==> 6 m/sec 2
Apart from the stuff given above , if you need any other stuff in math, please use our google custom search here.
Kindly mail your feedback to v4formath@gmail.com
We always appreciate your feedback.
© All rights reserved. onlinemath4all.com
