Find the horizontal velocity of the particle when it reach the point Q. Assume the block to be frictionless. Take `g=9.8 m//s^(2)`.

A particle is projected from ground with velocity 40 m//s at 60^@ from horizontal. (a) Find the speed when velocity of the particle makes an angle of 37^@ from horizontal. (b) Find the time for the above situation. (C ) Find the vertical height and horizontal distance of the particle from the starting point in the above position. Take g= 10m//s^2 .

A small block of mass m=2kg is at rest point P of the stationary wedge having frictionless hemispherical track of radius R=4m . The minimum constant acceleration 'a_(0)' ( in m//s^(2) ) is to be given to the wedge in horizontal direction, so that the small block just reaches the point Q as shown in figure. Assume all the contacts are frictionless and g=10m//s^(2) . If a_(0)=2xm//s^(2) . Find the value of x

A particle slides with a speed of 3m s^(-1) at P. When it reaches Q ,it acquires a speed of 4m s^(-1) after describing an angle of 60^(@) at O as shown in figure .Find the changes in the velocity of the particle between P and Q . Assume that the path followed by the particle is circular from P to Q

A particle is projected from the bottom of an inclined plane of inclination 30^@ with velocity of 40 m//s at an angle of 60^@ with horizontal. Find the speed of the particle when its velocity vector is parallel to the plane. Take g = 10 m//s^2 .

F_max such that block moves together (g = 9.8 m/s^2 )

A particle is placed at the point "A" of a frictionless track "ABC" as shown in figure.It is gently pushed towards right.The speed of the particle when it reaches the point "B" is: (Take g=10m"/"s^(2)

A particle is projected vertically upward in vacum with a speed 40m//s then velocity of particle when it reaches at maximum height 2s before, is (Take g=10m//s )

The length of a simple pendulum of 0.4 m. The bob of the pendulum is drawn aside till the string is horizontal, it is then released from this horizontal position, What will be its velocity when it reached the lowest point in its swing ? (g = 9.8 m//s^(2)) [Hint : Loss in potential energy = gain in kinetic energy]

A body is thrown horizontally from the top of a tower and strikes the ground after three seconds at an angle of 45^@ with the horizontal. Find the height of the tower and the speed with which the body was projected. (Take g = 9.8 m//s^2)