Saturday, November 29, 2014

EJSS collision model by Dave Lommen

EJSS collision model by Dave Lommen, is an artifact of learning by a Physics Hwa Chong Institution  teacher who attended the EJS-OSP Singapore workshop.

Add caption
author: Dave Lommen
author of EJS: Francisco Esquembre (Paco)
There also already a model made

One Dimension Collision JS Model
author: lookang
author EJS: Francisco Esquembre (Paco)


The motion of a body of mass m and velocity v is described by a vector quantity known as momentum p where

$ p = mv $

When objects collide, whether trains, cars, billiard balls, shopping carts, or your foot and the sidewalk, the results can be complicated. Yet even in the most chaotic of collisions, as long as there are no net external forces acting on the colliding objects, one principle always holds and provides an excellent tool for understanding the collision. That principle is called the conservation of linear momentum which states that

The total momentum of a system remains constant provided that no external resultant force acts on the system.

For two bodies colliding linearly, it is written mathematically as a vector equation

Total initial momentum = total final momentum

 $ m_{1}u_{1}+m_{2}u_{2} = m_{1}v_{1}+m_{2}v_{2} $

If external forces (such as friction) are ignored, the total momentum of two carts prior to a collision (left side of equation) is the same as the total momentum of the carts after the collision (right side of equation).

Collisions can be generally classified into these categories:

perfectly inelastic, e= 0
inelastic, e is a value from 0 to 1
perfectly elastic, e=1

There is also a concept of kinetic energy of a moving body is stated mathematically by the following equation:

$ KE_{1} = \frac{1}{2} m_{1}v^{2}_{1} $

Main Simulation View

The simulation has 2 collision carts on friction-less floor.
Explore the sliders allows varying the variables .

mass of cart ONE, mass_1, $m_{1}$  in kg
initial velocity of cart ONE, $u_{1}$ in m/s
mass of cart TWO, mass_2, $m_{2}$  in kg
initial velocity of cart TWO, $u_{2}$  in m/s