The distance f(t) in metres ived by a pa...

The distance `f(t)` in metres ived by a particle travelling in a straight line in `t` seconds is given by `f(t)=t^2+3t+4`. Find the speed of the particle at the end of 2 seconds.

Similar Questions

Explore conceptually related problems

He distance f(t) in metres ived by aparticle travelling in a straight line in t second is given by f(t)=t^(2)+3t+4. Find the speed of the particle at the end of 2seconds.

The distance S metres moved by a particle traveling in a straight line in t second is given by S = 45t +11t^2-t^3 . Find the time when the particle comes to rest.

The distance s meters moved by a particle travelling in a straight line t seconds is given by s = 45t + 11t^(2) - t^(3) . Find the acceleration when the particle comes to rest.

The displacement s of a particle travelling in a straight line in t seconds is given by s=45t+11t^(2)-t^(3) . Find the time when the particle comes to rest.

The distance x cm traversed by a particle along a straight line in t seconds is given by x = 2t^3 - 15t^2+36t+6 At what time will the velocity of the particle is minimum?

The distance travelled s in metres by a particle in t second is given by s=t^(3)+2t^(2)+t . The speed of the particle after 1s will be

The distance traversed by a particle moving along a straight line is given by x = 180 t + 50 t^(2) metre. Find the velocity at the end of 4s.

The distance `f(t)` in metres ived by a particle travelling in a straight line in `t` seconds is given by `f(t)=t^2+3t+4`. Find the speed of the particle at the end of 2 seconds.

Similar Questions

Recommended Questions