A particle projected from origin moves in x-y plane with a velocity `vecv=3hati+6xhatj`, where `hati" and "hatj` are the unit vectors along x and y axis. Find the equation of path followed by the particle :-

hati and hatj are unit vectors along x and y axis. What is the magnitude and direction of the vector hati + hatj ?

A particle moves in the plane xy with velocity v=ai+bxj , where i and j are the unit vectors of the x and y axes, and a and b are constants. At the initial moment of time the particle was located at the point x=y=0 . Find: (a) the equation of the particle's trajectory y(x) , (b) the curvature radius of trajectory as a function of x.

A particle is projected from ground with velocity 3hati + 4hati m/s. Find range of the projectile :-

A particle is moving in a plane with a velocity given by, vecu=u_(0)hati+(omegacosomegat) hatj, are unit vectors along x and y-axes respectively. If the particle is at the origin an t=0, then its distance from the origin at time t=3pi//2omega will be

If hati,hatj and hatk are unit vectors along X,Y & Z axis respectively, then tick the wrong statement:

A particle moves in plane with acceleration veca = 2hati+2hatj . If vecv=3hati+6hatj , then final velocity of particle at time t=2s is

A charged particle having charge 2q and mass m is projected from origin in X-Y plane with a velocity v inclined at an angle of 45^@ with positive X-axis in a region where a uniform magnetic field B unit exists along +z axis. The coordinates of the centre of the circular path of the particle are

Three particles starts from origin at the same time with a velocity 2 ms^-1 along positive x-axis, the second with a velocity 6 ms^-1 along negative y-axis, Find the velocity of the third particle along x = y line so that the three particles may always lie in a straight line.

A particle is moving with velocity vecv = k( y hat^(i) + x hat(j)) , where k is a constant . The genergal equation for its path is