Collision Carts JavaScript HTML5 Applet Simulation Model

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Translations

Code	Language		Translator	Run

Credits

This email address is being protected from spambots. You need JavaScript enabled to view it.; Lye Sze Yee

http://iwant2study.org/lookangejss/02_newtonianmechanics_3dynamics/ejss_model_Momentum1D01/Momentum1D01_Simulation.xhtml

Apps

https://play.google.com/store/apps/details?id=com.ionicframework.collisioncartapp170147

https://itunes.apple.com/us/app/collision-carts-simulator/id1177377945?mt=8

Description

Momentum One Dimension Collision Model

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

p = m v

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

m₁.u₁ + m₂.u₂ = m₁.v₁ + m₂.v₂

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 are classified into elastic (or perfectly elastic), inelastic and completely inelastic.

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

KE1 = ½ m₁.v₁²

Main Simulation View
The simulation has 2 collision carts on frictionless floor and wheels.
Sliders

Explore the sliders allows varying the variables .

   * mass of cart ONE, mass_1, m₁ in kg
   * initial velocity of cart ONE, u₁ in m/s
   * mass of cart TWO, mass_2, m₂ in kg
   * initial velocity of cart TWO, u₂ in m/s

DropDown Menu
Allows for selecting what kind of collision is simulated.

A Perfectly elastic collision is defined as one in which both conservation of momentum and conservation of kinetic energy are observed
A Perfectly Inelastic collision is defined as one in which conservation of momentum is observed but the colliding carts stick together after collision with kinetic energy loss

DropDown Menu
show: velocity, for visualizing the velocity vector
plot momentum vs time graph, for different representation of data for momentum of cart 1, 2 and both.
plot kinetic energy vs time graph, for different representation of data for kinetic energy of cart 1, 2 and both.
hint: COM, for the equation of conservation of momentum
hint: COKE, or the equation of conservation of kinetic energy

Buttons
Play
Step Forward
Reset
have their usual meaning.

Credits:
The Momentum 1D JavaScript Collision model was created by created by lookang using the Easy Java Simulations (EJS) version 5.2 authoring and modeling tool. Shout our thanks to the Ejs community namely, Francisco Esquembre, Félix J. García Clemente , Fu-Kwun Hwang and Wolfgang Christian for their professional learning community support. You can examine and modify this compiled EJS model if you run the model (double click on the model's jar file), right-click within a plot, and select "Open EJS Model" from the pop-up menu. You must, of course, have EJS installed on your computer. Information about EJS is available at: http://www.um.es/fem/Ejs/ and in the OSP comPADRE collection http://www.compadre.org/OSP/.

ScreenShots

Collision Carts JavaScript HTML5 Applet Simulation Model

Collision Carts JavaScript HTML5 Applet Simulation Model
direct link Android free Android pro iOS free iOS pro

Video

Astro Academy: Principia - Collisions by National Space Academy

Ejs open source java applet 1D collision carts Elastic and Inelastic Collision by lookang lawrence wee

Ejs open source java applet 1D collision carts Elastic and Inelastic Collision v2 by lookang lawrence wee

https://www.facebook.com/AskMencom/videos/10153205007388723/

Worksheets

Versions

http://weelookang.blogspot.sg/2013/09/one-dimension-collision-js-model.html JavaScript version of EJSS One Dimension Collision JS Model by
http://weelookang.blogspot.sg/2012/02/ejs-open-source-collision-carts-model.html Java version of the Ejs Open Source Collision Carts Model with AJC and RVHS
http://iwant2study.org/lookangejss/02_newtonianmechanics_3dynamics/ejs/ejs_model_Momentum1DForceModel09.jar Java version of simulation on Digital Library

Research

arXiv:1204.4964 [pdf, other]

One-dimensional collision carts computer model and its design ideas for productive experiential learning

Loo Kang Wee

Comments: 6 pages, 8 figures, 1 table, 1 L. K. Wee, Physics Education 47 (3), 301 (2012); ISSN 0031-9120

Journal-ref: Physics Education, 47(3), 301 (2012)

Subjects: Physics Education (physics.ed-ph); Classical Physics (physics.class-ph); Computational Physics (physics.comp-ph)

Other Resources

http://www.walter-fendt.de/html5/phen/collision_en.htm Collision Carts by Walter Fendt
http://www.physicsclassroom.com/Physics-Interactives/Momentum-and-Collisions/Collision-Carts Collision Carts by Physicsclassroom
http://weelookang.blogspot.sg/2014/11/ejss-collision-model-by-dave-lommen.html EJSS collision model by Dave Lommen
http://weelookang.blogspot.sg/2014/07/ejs-1d-collision-model-with-virtual.html EJS 1D collision model with virtual spring model by Fu-Kwun Hwang and Loo Kang Wee
https://phet.colorado.edu/en/simulation/collision-lab Collision Lab by PhET
http://www.mrmont.com/games/carcollision.html
http://www.opensourcephysics.org/items/detail.cfm?ID=14162 International Space Station: Collisions Video Analysis with Tracker by Tim Peake, Robin Mobbs, Anu Ojha, Andy McMurry, and Sophie Allan
https://www.geogebra.org/m/n3X5njnT Elastic & Inelastic Collisions by ukukuku
https://www.geogebra.org/m/gSmRe62s The Ballistic Pendulum by ukukuku
https://www.geogebra.org/m/Ks939X8m Conservation of Momentum and Energy by ukukuku

Links

https://sites.google.com/moe.gov.sg/ictinstem/resources/science?authuser=1

https://library.opal.moe.edu.sg/ictc&func=view&rid=289

Specific Instructional Objectives

Students will be able to:

1) apply the principle of conservation of momentum to solve simple problems including elastic and inelastic interactions between two bodies in one dimension; and
2) show an understanding that, whilst the momentum of a system is always conserved in interactions between bodies, some change in kinetic energy usually takes place.

Lesson Outline

Level: JC 1

brief lesson plan.
teacher briefly explain how today's lesson is useful in everyday science.
teacher to demonstrate how Computer Model can be used
allow students to self direct inquiry with worksheets of different scenarios with Computer Model
end with a student survey of the lesson for improvement and teacher reflections.

ICT equipment & resources needed
Java Runtime installed.

Pedagogy or strategies used:
pedagogy is learner centeacheric education of inquiry learning

Duration:
1 hour 30 mins

Assessment of Students' Learning

Worksheets

Year of Implementation

2012

Subjects

Dynamics

Keywords

Computer Model

Language

Education Level

Post-Sec

Cluster

Used By

Creator

Lim Ai Phing River Valley High Sch

Owner

Lim Ai Phing River Valley High Sch

Name of Co-Creator(s)

Eugene Yap Swee Huat/River Valley High Sch
Tan Yong Yi/ River Valley High Sch
Wee Loo Kang/ This email address is being protected from spambots. You need JavaScript enabled to view it./ Educational Technology Division

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Details: Parent Category: 03 Motion & Forces; Category: 02 Dynamics; Published: 29 April 2018; Created: 20 August 2015; Last Updated: 14 May 2019; Hits: 39732