1. Statics: Bureau drawers on inclined plane     MotionGenesis: F=ma Software, textbooks, training, consulting.
Student problem
statement
Instructor problem
statement
MotionGenesis
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MotionGenesis
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Frictionless plane Frictionless plane F = 0 Program responses
Constant speed uphill Constant speed uphill F = 0 Program responses
Static friction Static friction F = 0 Program responses
MotionGenesis Bureau (chest of drawers) on inclined plane schematic

2. Rocket sled (2D static/dynamics equilibrium)
Student problem
statement
Instructor problem
statement
MotionGenesis
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MotionGenesis
responses
Constant speed Constant speed F = 0 Program responses
MotionGenesis: Rocket sled static equilibrium

3. Design cable length to keep beam horizontal (2D static equilibrium)
Problem statement
MotionGenesis input
MotionGenesis responses
  WindowWasherBeamPublicDomainFromPxHereComCroppedE.jpg   MotionGenesis: Cable length to keep beam horizontal

4. Distance measurements for a beam supported by two cables (2D static equilibrium)
Problem statement
MotionGenesis input
MotionGenesis responses
  MotionGenesis: Cable length to keep beam horizontal   MotionGenesis: Statics for a beam on two cables

5. Design cable lengths to keep aircraft stationary and horizontal (3D static equilibrium)
Problem statement (instructor)
Problem statement (student)
MotionGenesis input
MotionGenesis response
 
MotionGenesis: MGAircraftTrifilarPendulumAltRoofNoVectors.jpg
Enlarge image

  6. Stick-slip of mass-spring-damper pulled by harmonic force
Problem statement (.pdf)
F = m*a Program responses
MGStickSlipMassSpringDamperPulledBySpecifiedForce.png
MGStickSlipMassSpringDamperPulledBySpecifiedForceXVsT.png

7. Stick-slip of mass-spring-damper pulled by specified motion
Problem statement (.pdf)
F = m*a Program responses
MGStickSlipMassSpringDamperPulledBySpecifiedMotion.png
MGStickSlipMassSpringDamperPulledBySpecifiedMotionVvsT.png