A particle of mass m moving with velocity u makes an elastic one-dimentional collision with a stationary particle of mass `m`. They come in contact for a very small time `t_0`. Their force of interaction increases from zero to `F_0` linearly in time `0.5t_0`, and decreases linearly to zero in further time `0.5t_0` as shown in figure. The magnitude of `F_0` is

A body of mass 1 kg moving with velocity 1 m//s makes an elastic one dimesional collision with an identical stationary body. They are in contact for brief time 1 sec . Their force of interaction increases form zero to F_(0) linearly in time 0.5s and decreases linearly to zero in further time 0.5 sec as shown in figure. Find the magnitude of force F_(0) in newton.

A body of mass 1 kg moving with velocity 1 m//s makes an elastic one dimesional collision with an identical stationary body. They are in contact for brief time 1 sec . Their force of interaction increases form zero to F_(0) linearly in time 0.5s and decreases linearly to zero in further time 0.5 sec as shown in figure. Find the magnitude of force F_(0) in newton.

A particle of mass m moving with a velocity u makes an elastic one-dimensional collision with a stationary particle of mass m establishing a contact with it for extermely small time. T . Their force of contact increases from zero to F_0 linearly in time T//4 , remains constant for a further time T//2 and decreases linearly from F_0 to zero in further time T//4 as shown. The magnitude possessed by F_0 is. .

A particle of mass m moving with a velocity u makes an elastic one-dimensional collision with a stationary particle of mass m establishing a contact with it for extermely small time. T . Their force of contact increases from zero to F_0 linearly in time T//4 , remains constant for a further time T//2 and decreases linearly from F_0 to zero in further time T//4 as shown. The magnitude possessed by F_0 is. .

A particle of mass m moving with a velocity u makes an elastic one-dimensional collision with a stationary particle of mass m establishing a contact with it for extermely small time. T . Their force of contact increases from zero to F_0 linearly in time T//4 , remains constant for a further time T//2 and decreases linearly from F_0 to zero in further time T//4 as shown. The magnitude possessed by F_0 is. .

A particle of mass m, moving with velocity 'u' makes head on collision with identical stationary particle, which is elastic. The force of interaction increases to maximum and then becomes zero in time T as shown in graph. What is the maximum value F_0 of interaction force ?

particle of mass m, moving with velocity 'u' makes head on collision with identical stationary particle, which is elastic. Theforce of interaction increases to maximum and then becomes zero in time 'T' as shown in graph. What is the maximum value F_(0) of interaction force ?