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Gravity Field Potential Lab icône

0.0.3 by Open Source Physics Singapore


Jan 21, 2017

À propos de Gravity Field Potential Lab

Gravity Force du champ et potentiel 1D Lab, une physique open source Singapour

About

an open source physics at Singapore simulation based on codes written by Anne Cox, Wolfgang Christian, Francisco Esquembre and Loo Kang WEE.

more resources can be found here

http://iwant2study.org/ospsg/index.php/interactive-resources/physics/02-newtonian-mechanics/08-gravity

Introduction

Every object sets up a gravitational field and thus potential around itself due to its mass. When two objects enter each other’s gravitational fields, they will be attracted towards each other.

Hence, a gravitational field is a region of space in which any object that lies in it experiences a gravitational force towards the object that creates the field, due to its mass.

The intent of these activities is to allow students be like a student-scientists and collect their own data to form an understanding of potential energy.

The test mass (green) is at r = 100 m, observe and record the value for U r=100 = -6.67 x10-11 J

Click play and pause the model when r = 90 m, record the value of U r=90 = ____________ J

Click play and pause the model when r = 80 m, record the value of U r=80 = ____________ J

Click play and pause the model when r = 70 m, record the value of U r=70 = ____________ J

Click play and pause the model when r = 60 m, record the value of U r=60 = ____________ J

Click play and pause the model when r = 50 m, record the value of U r=50 = ____________ J

Click play and pause the model when r = 40 m, record the value of U r=40 = ____________ J

Click play and pause the model when r = 30 m, record the value of U r=30 = ____________ J

Click play and pause the model when r = 20 m, record the value of U r=20 = ____________ J

Calculate the change in U from r = 100 to r = 50.

Answer is about ΔU=-[6.67x10-11(1)(100)50-6.67x10-11(1)(100)100]=-6.67x10-9J

Check the "your model" checkbox and a teal color line appear. For example if the model is , U=-GmMr, key in -6.67*1*100/abs(r) and observe the closeness of fit of the orange color line (data collected) versus the teal color line (model proposed).

Suggest with reason why you think the model -6.67*1*100/abs(r) is accurate.

Note that the model already has a multiple of x10-11 so there is no need to key it.

This is a Lab that allows the exploration of this in a one dimensional space.

Interesting Fact

This app produce real numbers to coincident with the real world data.

Acknowledgement

My sincere gratitude for the tireless contributions of Francisco Esquembre, Fu-Kwun Hwang, Wolfgang Christian, Félix Jesús Garcia Clemente, Anne Cox, Andrew Duffy, Todd Timberlake and many more in the Open Source Physics community. I have designed much of the above based on their ideas and insights.

This research is supported by the eduLab project NRF2015-EDU001-EL021 , awarded by the Prime Minister Office, National Research Foundation (NRF), Singapore in collaboration with National Institute of Education (NIE), Singapore and the Ministry of Education (MOE), Singapore.

reference:

http://edulab.moe.edu.sg/edulab-programmes/existing-projects/nrf2015-edu001-el021

Network Learn together?

FaceBook Fan Page: https://www.facebook.com/Open-Source-Physics-Easy-Java-Simulation-Tracker-132622246810575/

Twitter: https://twitter.com/lookang

YouTube: https://www.youtube.com/user/lookang/videos

Blog: http://weelookang.blogspot.sg/

Digital Library: http://iwant2study.org/ospsg/

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Informations Application supplémentaires

Dernière version

Demande Gravity Field Potential Lab mise à jour 0.0.3

Telechargé par

Brandy Hunter

Nécessite Android

Android 4.1+

Voir plus

Quoi de neuf dans la dernière version 0.0.3

Last updated on Jan 21, 2017

v3
icon added

v2:
landing page is now the simulation
images are set to width = "100%"
better drawing for objects with radial SVG
smaller layout for iOS iPad and iOS, Android remains the best user experience

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