Velocity time equation of a particle mov...

Velocity time equation of a particle moving in a straight line is `v=2t-4` for `tle2s` and `v=4-2t` for `tgt2`.The distance travelled by the particle in the time interval from `t=0` to `t=4s ` is (Here `t` is in second and `v` in m/s)

`12m`

`16m`

`4m`

`8m`

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

KINEMATICS 1
DC PANDEY|Exercise MCQ_TYPE|27 Videos
KINEMATICS 1
DC PANDEY|Exercise COMPREHENSION_TYPE|19 Videos
KINEMATICS
DC PANDEY|Exercise INTEGER_TYPE|11 Videos
LAWS OF MOTION
DC PANDEY|Exercise Medical entrances gallery|39 Videos

If S=2t^(3)-4t^(2)+12t , then distance travelled during the time -interval [0,1] is

4 units

9 units

8 units

10 units

If the distance s travelled by a particle in time t is s=a sin t +b cos 2t , then the acceleration at t=0 is

`a`

`-a`

`4b`

`-4b`

The velocity 'v' of a particle moving along straight line is given in terms of time t as v=3(t^(2)-t) where t is in seconds and v is in m//s . The distance travelled by particle from t=0 to t=2 seconds is :

`2m`

`3m`

`4m`

`6m`

Similar Questions

Explore conceptually related problems

Velocity (in m/s) of a particle moving in a straight line given by v=(t^(2)-2t_1) . Match Table-1 with Table -2

The position of a particle moving along the straight line is given as s= (t^(2)-4t+3)m where t is time in s .The magnitude of displacement of the particle during time interval t=0 to till its velocity becomes zero

The displacement of a particle moving in a straight line is described by the relation s=6+12t-2t^(2) . Here s is in metre and t in second. The distance covered by the particle in first 5s is

The velocity v of a particle at any instant t moving in a straight line is given by v=s +1 where s meter is the distance travelled in t second what is the time taken by the particle to cover a distacne of 9m ?

A particle moves along a straight line its velocity dipends on time as v=4t-t^(2) . Then for first 5 s :

DC PANDEY-KINEMATICS 1-INTEGER_TYPE

Velocity time equation of a particle moving in a straight line is v=2t...
02:45
|
A stone is dropped form certain height which can reach the ground in 5...
04:39
|
A car starts moving along a line, first with acceleration a=5m//s^(2) ...
08:33
|
Two particles P and Q simultaneously start moving from point A with ve...
04:01
|
If a particle takes t second less and acquire a velocity of vms^(-1) m...
09:32
|
Speed time graph of two cars A and B approaching towards each other is...
04:14
|
The acceleration-time graph of a particle moving along a straight line...
01:46
|
A lift performs the first part of its ascent with uniform acceleration...
08:20
|
A small electric car has a maximum constant acceleration of 1m//s^(2),...
03:20
|
The diagram shows the variatioin of 1//v (where v is velocity of the p...
04:03
|
Two particles are moving with velocities v(1)=hati+thatj+hatk and v(2)...
02:29
|
A particle A moves with velocity (2hati-3hatj)m//s from a point (4,5m)...
05:39
|
A ball is thrown upwards with a speed of 40m//s. When the speed become...
07:34
|
Figure shows the velocity time graph for a particle travelling along a...
03:29
|
Two bodies A and B are moving along y-axis and x -axis as shown. Find ...
11:11
|
The 1//v versus positions graph of a particle is shown in the figure, ...
03:32
|

Home

Profile

Velocity time equation of a particle moving in a straight line is `v=2t-4` for `tle2s` and `v=4-2t` for `tgt2`.The distance travelled by the particle in the time interval from `t=0` to `t=4s ` is (Here `t` is in second and `v` in m/s)

Text Solution

Topper's Solved these Questions

Similar Questions

Knowledge Check

If S=2t^(3)-4t^(2)+12t , then distance travelled during the time -interval [0,1] is

If the distance s travelled by a particle in time t is s=a sin t +b cos 2t , then the acceleration at t=0 is

The velocity 'v' of a particle moving along straight line is given in terms of time t as v=3(t^(2)-t) where t is in seconds and v is in m//s . The distance travelled by particle from t=0 to t=2 seconds is :

Similar Questions

DC PANDEY-KINEMATICS 1-INTEGER_TYPE