The position vector of car w.r.t. its starting point is given as `vecr="at" hati+bt^(2)hatj` where a and b are positive constants. The icus of a particle is :-

Path traced by a moving particle in space is called trajectory of the particle. Shape of trajectiry is decided by the forces acting on the particle. When a coordinate system is associated with a particle motion, the curve equation in which the particle moves [y=f(x)] is called equation of trajectory. It is just giving us the relation among x and y coordinates of the particle i.e. the locus of particle. To find equation of trajectory of a particle, find first x and y coordinates of the particle as a function of time eliminate the time factor. The position vector of car w.r.t. its starting point is given as vec(r)=at hat(i)- bt^(2) hat(j) where a and b are positive constants. The locus of a particle is:-

A car starts moving from rest on a horizontal ground such that the position vector of car with respect to its starting point is given as vec(r) = b t hat(i) - c t^(2) hat(j) , where a and b are position constants, direction (x and y axes) intersect at the starting point of car (origin). Find: (a) The equation of the trajectory of car y = f(x) . (b) The angle between direction of velocity and acceleration of car as a function of time theta = f (t) . (c) Average velocity of car over first t seconds of motion

A particle of mass m moves in xy plane such that its position vector, as a function of time, is given by vec(r) =b(kt-sinkt)hati+b(kt+cos kt) hatj . where b and k are positive constants. (a) Find the time t_0 in the interval o le t le (pi)/k when the resultant force acting on the particle has zero power. (b) Find the work done by the resultant force acting on the particle in the interval t_(o) le t le (pi)/4

The position of a particle is given as vecr=at hati+bt^(2)hatj Find the equation of trajectory of the particle.

Differentiate a^x w.r.t. x, where a is a positive constant.

The position vector of a particle is given by vecr=(3t^(2)hati+4t^(2)hatj+7hatk)m at a given time t .The net displacement of the particle after 10 s is

The position vector of a particle at time t is given by vecr=2t hati+5t hatj+4sin omegat hatk where omega is a constant.Answer the following questions Velocity vector of the particle is

The position vector of a particle at time t is given by vecr=2t hati+5t hatj+4sin omegat hatk where omega is a constant.Answer the following questions Velocity vector is perpendicular to …….vector

The position vector of a particle at time t is given by vecr=2t hati+5t hatj+4sin omegat hatk where omega is a constant.Answer the following questions Acceleration of the particle is

The position vector of a particle is given by vecr=vecr_(0) (1-at)t, where t is the time and a as well as vecr_(0) are constant. After what time the particle retursn to the starting point?