In the above question what will be the displacement of particle in x-direction when its velocity makes `60^(@)` angle with initial velocity?

A particle is projected horizontally with speed (20)/(sqrt(3))m//s , from some height at t=0. At what time its velocity will make 60^(@) angle with initial velocity ?

The relation 3t=sqrt(3x)+6 describe the displacement of a particle in one direction where x is in metres and t in sec. The displacement, when velocity is zero is

A particle is projected at an angle of 60^(@) above the horizontal with a speed of 10m//s . After some time the direction of its velocity makes an angle of 30^(@) above the horizontal. The speed of the particle at this instant is

The displacement x of a particle at the instant when its velocity v is given by v = sqrt(3x +16) . Find its acceleration and initial velocity

A particle moves along the x-axis obeying the equation x=t(t-1)(t-2) , where x is in meter and t is in second a. Find the initial velocity of the particle. b. Find the initial acceleration of the particle. c. Find the time when the displacement of the particle is zero. d. Find the displacement when the velocity of the particle is zero. e. Find the acceleration of the particle when its velocity is zero.

A particle is projected from the ground at an angle of 60^@ with the horizontal with a speed by 20 m/s. The radius of curvature of the path of the particle, when its velocity makes an angle of 30^@ with horizontal is 80/9.sqrt(x) m Find x .

What will be the effect on horizontal range of a projectile when its initial velocity is doubled, keeping the angle projection same ?

A body is projected with a velocity 60 ms ^(-1) at 30^(@) to horizontal . Its initial velocity vector is

A particle is projected horizontally with a velocity 10m/s. What will be the ratio of: de-Broglie wavelengths of the particle, when the velocity vector makes an angle 30^(@) and 60^(@) with the horizontal

A particle is executing SHM given by x = A sin (pit + phi) . The initial displacement of particle is 1 cm and its initial velocity is pi cm//sec . Find the amplitude of motion and initial phase of the particle.