Two particles A and B are moving as shown in the figure. At this moment of time
Sahay Sir > Question Answers > Two particles A and B are moving as shown in the figure. At this moment of time
On a frictionless horizontal surface , assumed to be the x-y plane , a small trolley A is moving along a straight line parallel to the y-axis( see figure) with a constant velocity of sqrt 3 m/s . At a particular instant, when the line OA makes an angle of 45 degree with the x – axis, a ball is thrown along the surface from the origin O. Its velocity makes an angle phi with the x -axis and it hits the trolley . (a) The motion of the ball is observed from the frame of the trolley . Calculate the anglethetamade by the velocity vector of the ball with the x-axis in this frame . (b) Find the speed of the ball with respect to the surface , if phi = 4 theta / 3
28
Aug
On a frictionless horizontal surface , assumed to be the x-y plane , a small trolley A is moving along a straight line parallel to the y-axis( see figure) with a constant velocity of sqrt 3 m/s . At a particular instant, when the line OA makes an angle of 45 degree with the x [...]
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A large heavy box is sliding without friction down a smooth plane of inclination θ. From a point P on the bottom of the box ,
a small trolley A is moving along a straight line parallel to the y-axis( see figure) with a constant velocity of (sqrt(3)-1) m//s . At a particular instant ,
assumed to be the x-y plane ,
On a frictionless horizontal surface ,
the angular speed of A with respect to B is: ,
Two particles A and B are moving as shown in the figure. At this moment of time ,
when the line OA makes an angle of 45(@) with the x - axis ,
A large heavy box is sliding without friction down a smooth plane of inclination θ. From a point P on the bottom of the box, a particle is projected inside the box. The initial speed of particle with respect to the box is u and the direction of projection makes an angle α with the bottom as shown. Find the distance along the bottom of box between the point of projection P and point Q where the particle lands. (Assume that the particle does not hit any other surface of the box. Neglect air resistance)
28
Aug
A large heavy box is sliding without friction down a smooth plane of inclination θ. From a point P on the bottom of the box, a particle is projected inside the box. The initial speed of particle with respect to the box is u and the direction of projection makes an angle α with the [...]
Two guns situated on the top of a hill of height 10 m fire one shot each with the same speed 5 root 3 m/s at some interval of time. One gas fires horizontally and other fires upwards at an angle of 60 with the horizontal. The shots collide in air at point P find I. The time interval between the firings and II. The coordinates of the point P. Take origin of the coordinate system at the foot of the hill right below the muzzle and trajectories in x-y plane (take g = 10m/s 2 )
28
Aug
Two guns situated on the top of a hill of height 10 m fire one shot each with the same speed 5 root 3 m/s at some interval of time. One gas fires horizontally and other fires upwards at an angle of 60 with the horizontal. The shots collide in air at point P find [...]
Two towers AB and CD are situated at distance d apart as shown in Fig. AB is 20 m high and CD is 30m high from the ground. An object of mass m is thrown from the top of AB horizontally with a velocity of 10 m/s towards CD. Simultaneously, another object of mass 2m is thrown from the lay of CD at an angle 60 to the horizontal towards AB with the same magnitude of initial velocity us that of the first object. The two objects move in the same vertical plane, collide in mid-air, and stick to each other. a. Calculate the distance d between the towers. b. Find the position where the objects hit the ground.
28
Aug
Two towers AB and CD are situated at distance d apart as shown in Fig. AB is 20 m high and CD is 30m high from the ground. An object of mass m is thrown from the top of AB horizontally with a velocity of 10 m/s towards CD. Simultaneously, another object of mass 2m [...]
A particle is projected at angle theta with horizontal with velocity v_0 at t = 0. Find (a) tangential and normal acceleration of the particle at t = 0 and at highest point of its trajectory. (b) the radius of curvature att = 0 and highest point.
28
Aug
A particle is projected at angle theta with horizontal with velocity v_0 at t = 0. Find (a) tangential and normal acceleration of the particle at t = 0 and at highest point of its trajectory. (b) the radius of curvature att = 0 and highest point. the angular speed of A with respect to [...]
Two particles A and B are moving as shown in the figure. At this moment of time, the angular speed of A with respect to B is:
28
Aug
Two particles A and B are moving as shown in the figure. At this moment of time, the angular speed of A with respect to B is: the angular speed of A with respect to B is: Two particles A and B are moving as shown in the figure. At this moment of time August [...]