We describe a new undergraduate mechanics laboratory experiment that illust
rates principles of linear and angular momentum conservation. Students obse
rve that angular momentum is conserved in systems where the initial conditi
ons involve only translational motion, and yet the final conditions include
rotational motion. To do this, students make a digital video of a two-obje
ct collision on an air table. One object has an asymmetric mass distributio
n and gains rotational kinetic energy as a result of the collision. Using t
heir digital video, students create a stroboscopic image of the two objects
' trajectories and show that both linear and angular momentum are conserved
to within a few percent, the limit of experimental uncertainty. Students a
lso show that angular momentum conservation is independent of the choice of
origin, that the center of mass of the asymmetric object follows a linear
trajectory, and that the center of mass of the whole system follows a linea
r trajectory. (C) 2000 American Association of Physics Teachers.