A body of a 2.0 kg mass makes an elastic collision with another at rest and continues to move in the original direction but with 1\4 of its original speed. What is
![26 the applied force, explain by diagram. Discuss elastic collision in one dimension Obtain expression velocities of two bodies after such a collision Prove that the total mechanical energy remains constant a 26 the applied force, explain by diagram. Discuss elastic collision in one dimension Obtain expression velocities of two bodies after such a collision Prove that the total mechanical energy remains constant a](https://toppr-doubts-media.s3.amazonaws.com/images/4937444/fc65e84d-c825-4794-974d-2cc409592810.jpg)
26 the applied force, explain by diagram. Discuss elastic collision in one dimension Obtain expression velocities of two bodies after such a collision Prove that the total mechanical energy remains constant a
![newtonian mechanics - What are the implicit assumptions that make it okay to model a satellite fly-by of the Earth as a 1D elastic collision? - Physics Stack Exchange newtonian mechanics - What are the implicit assumptions that make it okay to model a satellite fly-by of the Earth as a 1D elastic collision? - Physics Stack Exchange](https://i.stack.imgur.com/WVSN8.png)
newtonian mechanics - What are the implicit assumptions that make it okay to model a satellite fly-by of the Earth as a 1D elastic collision? - Physics Stack Exchange
![Prove that in one dimensions elastic collinsion between two bodies the energy transfer is maximum when their masses are equal... 12:03 pm Prove that in one dimensions elastic collinsion between two bodies the energy transfer is maximum when their masses are equal... 12:03 pm](https://toppr-doubts-media.s3.amazonaws.com/images/5374971/48d2df26-3f4d-4d42-815a-b53b2b7eccff.jpg)
Prove that in one dimensions elastic collinsion between two bodies the energy transfer is maximum when their masses are equal... 12:03 pm
![SOLVED: Impulse and Momentum Formula Summary T = 4p p' = p p' = p + [ I = F AvE'At mv' = mv + F AVE P = MV Area F SOLVED: Impulse and Momentum Formula Summary T = 4p p' = p p' = p + [ I = F AvE'At mv' = mv + F AVE P = MV Area F](https://cdn.numerade.com/ask_images/af178b18431b497f964e0849c1126eaa.jpg)