A particle of mass m moving with velocity u makes an elastic one dimensional collision with a stationary particle of mass m. They are in contat for brief time T. Their force of interaction increases from zero to `F_(0)` linearly inn time `T/2` and decreases linearly to zero in further time `T/2`. the magnitutde of `F_(0)` is

A particle of mass m moving with velocity u makes an elastic one-dimensional 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 particle of mass m moving with velocity u makes an elastic one-dimensional 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 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_(1) makes an elastic one dimensional collision with a stationary particle of mass m_(2) .What fraction of the kinetic energy of m_(1) is carried away by m_(2) ?