APS Excellence in Physics Education Award
November 2019

Education Prize Logo
Science SPORE Prize
November 2011

NSF Logo
The Open Source Physics Project is supported by NSF DUE-0442581.

Search Results

You may use the options below to change your display:
Alter display preferences

The following options can help you tailor your search display:

results per page
Restricted to OSP Type: JavaScript Model
Restricted to General Topic: Relativity
Close your folders

Refine your search


Narrow your results

By Subject:

By OSP Type:

By OSP Category:

By Resource Type:

By Context:
  • (4)
  • (8)
  • (13)
  • (6)

By Collection:


|  Next >>   
Results #1-#10 of 13
sort by: relevance | subject | date | title | author
  
Match Score:
100
Byline:
M. Belloni, W. Christian, and A. Cox
Post a comment | Relations
Physlet Quantum Physics 3E contains a collection of exercises about concepts from modern and quantum physics, facilitated by computer animations. Topics include special relativity,…
  
Match Score:
100
Byline:
M. Belloni, W. Christian, and A. Cox
Post a comment | Relations
Physlet Quantum Physics Section 1: Introduction illustrates the technology used in the Physlet Quantum Physics interactive text. In this text, javascript simulations are used to…
  
Match Score:
100
Byline:
M. Belloni, W. Christian, and A. Cox
Post a comment | Relations
Physlet Quantum Physics Section 2: Special Relativity provides simulation-based interactive resources that illustrate the basic concepts of special relativity. The chapters in this…
General Relativity Orbits JS  [ Computer Program ]
  
Match Score:
100
Byline:
S. Tuleja, E. Taylor, W. Christian, and R. Hanson
Post a comment | Relations
The General Relativity Orbits JavaScript simulation in intended to be used to accompany the text written by Edwin F. Taylor, John A. Wheeler, and Edmund Bertschinger, Exploring Black…
  
Match Score:
100
Byline:
K. Papamichalis
Post a comment | Relations
The Spatial Geometry of a Uniformly Rotating Reference Frame JS Model explores the spatial geometry of the relativistic and the Newtonian reference frames. The left window depicts a…
  
Match Score:
100
Byline:
K. Papamichalis
Post a comment | Relations
In this work we solve the Kepler problem in the context of two theories: a) the Special Theory of Relativity and b) the Newtonian Mechanics. We simulate the motion of a particle…
  
Match Score:
100
Byline:
K. Papamichalis
Post a comment | Relations
The Relativistic Plane-Oscillator JS Model compares the motion of a Newtonian and a relativistic plane oscillator. The comparison of the two motions shows that the path of the…
  
Match Score:
100
Byline:
K. Papamichalis
Post a comment | Relations
The Relativistic and Classical Particle Collision Comparison JS Model shows a two-particles collision, according to two models: a) a relativistic model and b) a Newtonian model. The…
  
Match Score:
100
Byline:
K. Papamichalis
Post a comment | Relations
The Relativistic and Newtonian World Lines JavaScript model simulates the motion of a particle in two inertial frames, and in the context of two different theories: a) the Einstein's…
  
Match Score:
100
Byline:
K. Papamichalis
Post a comment | Relations
The Uniformly Accelerated Reference Frames JavaScrip model shows the world lines for six particles. The these point mass particles move in a Cartesian, inertial coordinate system in…
|  Next >>   
Results #1-#10 of 13

OSP Projects:
Open Source Physics - EJS Modeling
Tracker
Physlet Physics
Physlet Quantum Physics
STP Book