[" The figure shows the positions and velocities of two particles.If the particles move under the mutual "],[" attraction of each other,then find the position of centre of mass at "t=1" s."]

The figure shows the positions and velocity of two particle. If the paritcle move under the mutual attraction of each other, then the position of centre of mass at t = 1 s is :-

The figure shows the positions and velocity of two particle. If the paritcle move under the mutual attraction of each other, then the position of centre of mass at t = 1 s is :-

The figure shows the positions and velocity of two particle. If the paritcle move under the mutual attraction of each other, then the position of centre of mass at t = 1 s is :-

Figure shows position and velocities of two particles moving under mutual gravitational attraction in space at time t = 0 . The position of centre of mass after one second is '"*"'m . Fill "'*"' .

Figure shows position and velocities of two particles moving under mutual gravitational attraction in space at time t = 0 . The position of centre of mass after one second is '"*"'m . Fill "'*"' .

Figure shows position and velocities of two particles moving under mutual gravitational attraction in space at time t = 0 . The position of centre of mass after one second is '"*"'m . Fill "'*"' .

At t = 0 , the positions and velocities of two particles are as shown in the figure. They are kept on a smooth surface and being mutually attracted by gravitational force. Find the position of centre of mass at t = 2s . .

At t = 0 , the positions and velocities of two particles are as shown in the figure. They are kept on a smooth surface and being mutually attracted by gravitational force. Find the position of centre of mass at t = 2s . .

At t = 0 , the positions and velocities of two particles are as shown in the figure. They are kept on a smooth surface and being mutually attracted by gravitational force. Find the position of centre of mass at t = 2s . .

Figure shows the position-time graph of a particle of mass 4 kg. What is the:-force on the particle for t 4 s, 0