Swinging Atwood's Machine Model DocumentsThis material has 8 associated documents. Select a document title to view a document's information. Main DocumentSwinging Atwood's Machine Model
written by
Leah Ruckle The Swinging Atwood's Machine Model is an extension of the traditional Atwood's machine where one hanging mass is allowed to swing like a pendulum. One assumes that all motions for the swinging mass are possible including positions above the second peg which requires that the string remains rigid at all times. Unlike the traditional Atwood's machine, orbits or cycles are possible. In other words, for certain conditions, the motion of the Atwood's machine can continue indefinitely. In changing the ratio of the two masses and the initial angle of displacement, the trajectory of the swinging mass changes. The object of this simulation is to model that system and allow the user a large amount of control over initial conditions so that they may fully explore the system.
Last Modified June 12, 2014
This file is included in the full-text index. Supplemental Documents (6)Computational Poster PresentationPhysics 200 computational poster presented during the 2011 Davidson College student research symposium.
Published June 15, 2011
This file is included in the full-text index. Experimental Poster PresentationPhysics 335 (advanced laboratory) experimental poster presented during the 2011 Davidson College student research symposium.
Published June 15, 2011
This file is included in the full-text index. Frictional Swinging Atwood's Machine ModelThe Frictional Swinging Atwood's Machine Model simulates an extension of the Swinging Atwood's machine which adds radial friction. One assumes that all motions for the swining mass are possible including positions above the second peg which requires that the string remains rigid at all times. The object of this simulation is to model the real (experimental) swinging Atwood's machine that was constructed for PHY 200: Advanced Laboratory at Davidson College. This system exhibits the most friction in the radial direction. In other words, the most friction occurs when the string length over one or the other pegs changes.
Published June 19, 2011
This file is included in the full-text index. Tracker Video Analysis Files: 1These files are from an advanced laboratory experiment for the swinging Atwood's machine from the Spring semester 2011 Advanced Laboratory class at Davidson College.
Published June 19, 2011
This file is included in the full-text index. Tracker Video Analysis Files: 2These files are from an advanced laboratory experiment for the swinging Atwood's machine from the Spring semester 2011 Advanced Laboratory class at Davidson College.
Published June 19, 2011
This file is included in the full-text index. Tracker Video Analysis Files: 3These files are from an advanced laboratory experiment for the swinging Atwood's machine from the Spring semester 2011 Advanced Laboratory class at Davidson College.
Published June 19, 2011
This file is included in the full-text index. Source Code DocumentsSwinging Atwood's Machine Model Source CodeSource Code for the Swinging Atwood's Machine Model program.
Released under a This material is released under the GNU General Public License Version 3.
Published June 15, 2011
This file has previous versions. |