package dynamics
The dynamics
package contains example applications for continuous
simulation models based on Ordinary Differential Equations 'ODE's
or Partial Differential Equations 'PDE's.
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object
Newtons2nd extends App
The
Newtons2nd
object is used to illustrate theRungeKutta
'RK' andDormandPrince
'DP' ODE solvers by applying them to Newton's Second Law of Motion, 'f = ma = -gm'.The
Newtons2nd
object is used to illustrate theRungeKutta
'RK' andDormandPrince
'DP' ODE solvers by applying them to Newton's Second Law of Motion, 'f = ma = -gm'. The flight of a golf ball is simulated from impact until the ball hits the ground. Note, a more realistic simulation would take additional forces into account: drag, lift and spin.- See also
claymore.engineer.gvsu.edu/~lait/312/golfball.pdf The accuracies of 'RK' and 'DP' versus the exact solution (EX) are compared. > runMain apps.dynamics.Newtons2nd
Diff%20Q/pdfscreen/projectoutline.pdf
home2.fvcc.edu/~dhicketh/DiffEqns/Spring11projects/Brett_Burglund_Ryan_Street/
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object
Pathway extends App
The
Pathway
object is used to simulate a simple chemical pathway for making H2O.The
Pathway
object is used to simulate a simple chemical pathway for making H2O.- See also
the KINSOLVER Paper: cobweb.cs.uga.edu/~thiab/paper25.pdf > runMain apps.dynamics.Pathway
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object
Pathway2 extends App
The
Pathway2
object is used to simulate a simple plant metabolic pathway.The
Pathway2
object is used to simulate a simple plant metabolic pathway.- See also
Phytochemistry Vol. 68 (2007) pp. 2351–2374, Elsevier Science Direct > runMain apps.dynamics.Pathway2
Experimental and mathematical approaches to modeling plant metabolic networks