Trajectory followed by a particle moving in xy plane is given by `y= 4x-3x^(2)`, where x and y are in meter. find the distance between the points where its y co-ordinate is zero.

The potential energy of a particle of mass 1 kg moving in X-Y plane is given by U=(12x+5y) joules, where x an y are in meters. If the particle is initially at rest at origin, then select incorrect alternative :-

Equation of trajectory of a projectile is given by y = -x^(2) + 10x where x and y are in meters and x is along horizontal and y is vericall y upward and particle is projeted from origin. Then : (g = 10) m//s^(2)

Find the distance between the point (0,3,0) and the plane 2x + y + 2x - 5

x and y co-ordinates of a particle moving in x-y plane at some instant of time are x=2t and y=4t .Here x and y are in metre and t in second. Then The path of the particle is a…….

x and y co-ordinates of a particle moving in x-y plane at some instant of time are x=2t and y=4t .Here x and y are in metre and t in second. Then The distance travelled by the particle in a time from t=0 to t=2s is ……… m

Find the distance between the pair of parallel lines x^2+4x y+4y^2+3x+6y-4=0

Find the distance between the pair of parallel lines x^2+4x y+4y^2+3x+6y-4=0

Find the distance between the pair of parallel lines x^2+4x y+4y^2+3x+6y-4=0

The potential energy of a particle of mass 2 kg moving in a plane is given by U = (-6x -8y)J . The position coordinates x and y are measured in meter. If the particle is initially at rest at position (6, 4)m, then

A particle of mass 5 kg moving in the x-y plane has its potential energy given by U=(-7x+24y)J where x and y are in meter. The particle is initially at origin and has a velocity vec(i)=(14 hat(i) + 4.2 hat (j))m//s