The position of a moving car at time t i...

The position of a moving car at time t is given by `f(t)=at^(2) + bt+c, t gt 0` , where a ,b and c are real numbers greater than 1. Then the average speed of the car over the time interval `[t_1,t_2]` is attained at the point :

Similar Questions

Explore conceptually related problems

The position of a point in time t is given by x=a+bt-ct^(2),y=at+bt^(2) . Its acceleration at time t is

The position of a particle as a function of time t, is given by x(t)=at+bt^(2)-ct^(3) where a,b and c are constants. When the particle attains zero acceleration, then its velocity will be :

The position of a point in time 't' is given by x = 1 + 2t + 3t^(2) and y = 2 - 3t + 4t^(2) . Then its acceleration at time 't' is

The position of a body moving along x-axis at time t is given by x= (t^(2)-4t+6)m . The distance travelled by body in time interval t = 0 to t = 3 s is

A force is given by F= at + bt^(2) where , t is the time .The dimensione of a and b are

Find average speed in time interval t= 2 to t=10s

The average value of a.c. voltge E =E_(0) sin omega t over the time interval t = 0 to t = pi//omega is

The coordinates of a moving particle at any time t are given by x = ct and y = bt. The speed of the particle at time t is given by

The position of a moving car at time t is given by `f(t)=at^(2) + bt+c, t gt 0` , where a ,b and c are real numbers greater than 1. Then the average speed of the car over the time interval `[t_1,t_2]` is attained at the point :

Similar Questions

Recommended Questions