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| http://weelookang.blogspot.com/2014/05/tracker-dianielleteo-student-video.html physics of squash ball model x = if(t<0.168,-1.216E-2-9.791E0*t,-1.59+2.669E0*(t-0.168)+3.257E-1*(t-0.168)^2) y = if(t<0.168,-9.744E-4+3.769E0*t,0.61+1.308E0*(t-0.168)-4.001E-1*(t-0.168)^2) https://www.dropbox.com/s/qdrc1kxtzcj6hqi/DanielleTeo312pic_00352model.trz author of video: dianielleteo author of model: lookang |
Mentoring
video
video is well taken, fixed camera view point.tracker
well tracked by student,calibration done, but changed to 1.6 m from 160 cm.
recommendation
To analyse the motion after hit by racket to wall and projectile awayphysics that can be illustrated
Physics Performance Question:
What model(s) can be used to describe the motion of the squash ball after hit by racket and is subsequent motion bouncing off the squash court wall and what physics can be suggested-discovered from this analysis and model?you can try to build kinematics model using the equations as follow
x = if(t<0.168,-1.216E-2-9.791E0*t,-1.59+2.669E0*(t-0.168)+3.257E-1*(t-0.168)^2)
y = if(t<0.168,-9.744E-4+3.769E0*t,0.61+1.308E0*(t-0.168)-4.001E-1*(t-0.168)^2)
Logic of model
where the logic of the if statement(model) isif ( test , true do this, false do that)
contextually speaking
if ( t less than 0.168 s, the model is $ x = x_{0} + u_{x}t $, else t > 0.168 s, the model is $ x = x2_{0} + u2_{x}t_{2} + a_{x2}t_{2}^{2}$,
where $ t_{2} = (t -0.168) $ because this part 2 of the model requires a shift in the t axis.
similarly for y you can follow the logic.
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