Versions Compared

Old Version 7

changes.mady.by.user Andrew E Pawl

Saved on

compared with

New Version 8

changes.mady.by.user David E Pritchard

Saved on

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.
Wiki Markup
h2. Description

{table:align=right|cellspacing=0|cellpadding=1|border=1|frame=box|width=40%}
{tr}
{td:align=center|bgcolor=#F2F2F2}*[Model Hierarchy]*
{td}
{tr}
{tr}
{td}
{pagetree:root=Model Hierarchy|reverse=true}
{td}
{tr}
{table}

|| Page Contents ||
| {toc:style=none|indent=10px} |

----
h2. Assumed Knowledge


h4. Prior Models

* [Point Particle Dynamics]
* [One-Dimensional Motion with Constant Acceleration|1-D Motion (Constant Acceleration)]

h4. Vocabulary

* [system]
* [force]
* [impulse]
* [momentum]
* [acceleration]

----
h2. Model Specification


h4. Keys to Applicability


Can be applied to any system for which [external forces|external force] are known, especially useful for systems where they are absent (momentum conserved for that system) or act only for a short time (Impulse) as in collisions.

h4. System Structure

Internal Constituents:  System is composed of [Point particles|point particle].
\\
Environment:   Only [external forces|external force] need be considered, since [internal forces|internal force] do not change the system's momentum.\\

h4. Descriptors

Object Variables:  Mass for each object (_m{_^j^}{^}j^), unless momentum is given directly.

State Variables:   Velocity (_v{_^j^}{^}j^) or momentum (_p{_^j^}{^}j^) for each object.

Interaction Variables:   External forces (_F{_~ext}{~}ext,k~) or, alternately, impulses may be specified (_J{_~ext}{~}ext,k~).

h4. Laws of Interaction

{latex}\begin{large}\[ \vec{J}_{ext,k} = \int \vec{F}_{ext,k}\:dt \]
\[ \frac{d\vec{p}_{\rm system}}{dt} = \:\sum_{k=1}^{N_{F}} \vec{F}_{ext,k} \]\end{large}{latex}

where the system momentum is the vector sum of the constituent momenta:

{latex}\begin{large}\[ \vec{p}_{\rm system} = \sum_{j=1}^{N} \vec{p}^{j} \]\end{large}{latex}

where _N_ is the number of system constituents.  The integral form involves

<B>Impulse<\B>&nbsp; {latex}\begin{large}\[ \vec{J}_{ext,k} = \int \vec{F}_{ext,k}\:dt \]\end{large}

h4. Laws of Change

{latex}\begin{large}\[ \vec{p}_{\rm system,f} = \vec{p}_{\rm system,i} + \sum_{k=1}^{N_{F}} \vec{J}_{ext,k} \]\end{large}{latex}

----
h2. Relevant Examples

{contentbylabel:example_problem,momentum_force|showSpace=false|showLabels=true|excerpt=true|operator=AND|maxResults=50}
{contentbylabel:example_problem,constant_momentum|showSpace=false|showLabels=true|excerpt=true|operator=AND|maxResults=50}
{contentbylabel:example_problem,impulse|showSpace=false|showLabels=true|excerpt=true|operator=AND|maxResults=50}


----
{search-box}
\\
\\
| !copyright and waiver^copyrightnotice.png! | RELATE wiki by David E. Pritchard is licensed under a [Creative Commons Attribution-Noncommercial-Share Alike 3.0 United States License|http://creativecommons.org/licenses/by-nc-sa/3.0/us/]. |
\\