STATEMENT-1 `:` If a particle is projected from the ground with some velocity (not very large a) at an angle with horizontal, path of the particle is assumed parabolic, although it is not exactly parabolic.
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STATEMENT-2`:` Magnitude of acceleration due to gravity at all places is assumed to be the constant, although is it not so.

A particle is projected from the ground with an initial velocity of 20 m//s at angle fo 30^@ with the horizontal. What is the magnitude of chang in velocity in 0.5 scond ? ( g= 10 m//s^2) .

A particle is project d from point A with velocity u at an angle alpha with horizontal. In its parabolic path, at point P the particle is moving at right angles to its initial direction of projection. Its velocity at P is:

STATEMENT-1: A body is projected from the ground with a velocity v at an angle with the horizontal direction, it reaches a maximum height (H) and reaches the ground after a time T = 2u sin theta//g because STATEMENT-2: The vertical and horizontal motions can be treated independently

A particle is projected from the ground with an initial speed of 5 m s^(-1) at an angle of projection 60° with horizontal. The average velocity of the particle between its time of projection and the time it reaches highest point of trajectory

A particle is projected from ground with speed 80 m/s at an angle 30^(@) with horizontal from ground. The magnitude of average velocity of particle in time interval t = 2 s to t = 6 s is [Take g = 10 m//s^(2)]

A particle is projected with a velocity v so that its range on a horizontal plane is twice the greatest height attained. If g is acceleration due to gravity, then its range is

A particle is projected from ground with speed u and at an angle theta with horizontal. If at maximum height from ground, the speed of particle is 1//2 times of its initial velocity of projection, then find its maximum height attained.

STATEMENT-1: A body is projected from the ground with kinetic energy K at an angle of 60° with the horizontal. If air resistance is neglected, its K.E. When it is at the highest point of its trajectory will be K/4 because STATEMENT-2: At the highest point of the trajectory, the direction of velocity and acceleration of the body are perpendicular to each other

A particle A is projected from the ground with an initial velocity of 10m//s at an angle of 60^(@) with horizontal. From what height should an another particle B be projected horizontally with velocity 5m//s so that both the particles collide in ground at point C if both are projected simultaneously g=10 m//s^(2) .

STATEMENT-1 : A particle is projected with a velocity 0.5sqrt(gR_(e )) from the surface of the earth at an angle of 30^(@) with the vertical (at that point ) its velocity at the highest point will be 0.25sqrt(gR_(e )) because STATEMENT-2 : Angular momentum of the particle earth system remains constant.