Navigate [[..:..:activities:link|back to the activity]]. ===== Linear Acceleration: Instructor's Guide ===== ==== Main Ideas ==== Accelerating reference frames cause simple motion to appear complicated. ==== Students' Task ==== //Estimated Time: 20 minutes, including wrap-up// Students are asked to draw the trajectory of a ball thrown straight up on the station platform as seen from a train accelerating through the station, for several values of the (constant) acceleration. ==== Prerequisite Knowledge ==== Basic familiarity with Newtonian mechanics for constant acceleration. Know the definition of trajectory (can be defined quickly). Optional but helpful: motion diagrams (object is represented as a dot for equal time intervals) ==== Props/Equipment ==== * [[:props:start#whiteboards|Small whiteboards]] with markers * [[http://www.physics.oregonstate.edu/~tevian/COURSES/ph429/2010/log/atrain.html|Pictures]] (transparencies or electronic) of several sample trajectories to show as solutions to students ==== Student Conversations ==== * Some students draw motion diagrams, other draw trajectory graphs, but the students who draw motion diagrams seem to have a better understanding that the coordinate system is changing position in a time dependent way. * Some students don't recognize the parabolic shape is preserved (just rotated) - some students don't want to call this a parabola because it does not pass the vertical line test. ==== Activity: Wrap-up ==== * First discuss the case of zero acceleration, but nonzero velocity, that the trajectory a parabola (the same as if the train is not moving but the ball has a non-zero horizontal component to the velocity). * Then slowly increase the acceleration (opposite to the velocity) (the parabola rotates so that the symmetry line is no longer vertical). * Is a boomerang trajectory possible? (Boomerang here means stops at the same location that it started - it actually looks like a line rather than a loop.) * Show prepared pictures/graphs if appropriate. See [[http://www.physics.oregonstate.edu/~tevian/COURSES/ph429/2010/log/atrain.html|this page]] for further discussion. ==== Extensions ==== Which way does gravity (appear to) point on the train?