Question The figure shows the velocity and acceleration of a point like body at the initial moment of its motion. The acceleration vector of the body remains constant. The minimum radius of curvature of the trajectory of the body is Vo= 4 m/sec 120° a=3 m/sec? 2 meter

Figure shows the velocity and acceleration of a point line body at the initial moment of its motion. The acceleration vector of the body remains constant. The minimum radius of curvature of trajectory of the body is

The figure shows the velocity and acceleration of a point like body at the initialy moment of its motion. The acceleration vector of the body remains constant. The minimum radius of curvature of trajectory of the body is :

The figure shows th velocity and acceleration of a point like body at the initial moment of its motion. The acceleration vector of the body remain constant. The minimum radius of curvature of trajectory of the body is

The figure shows the velocity and acceleration of a point-like body at the initial Moment of its Motion. The acceleration vector of the body remains constant. The MINIMUM radius of curvature of the trajectory of the body is vo= 4 m/sec 120° 2 a= 3 m/sec

Initial velocity and acceleration of a particles are as shown in the figure. Acceleration vector of particle remain constant. Then radius of curvature of path of particle :

The figure shows the velocity and the accelerationl of a point-like body at the initial moment of its motion. The direction and the absolute value of the acceleration remain constant.Find the time in seconds when the velocity reach its minimum value? ("Data" : a=6m//^(2), v_(0)=24m//s,phi=143^(@))

A body covers 4.9m, 14.7 m, 24.5 m and 34.3m in the successive seconds of motion. The acceleration of the body is

Find the initial velocity and acceleration of a body if the distance traveled by that body in nth second is (5.69+0.008n) m

A stone is thrown horizontally with a velocity of 10m//sec . Find the radius of curvature of it’s trajectory at the end of 3 s after motion began. (g=10m//s^(2))