This paper reviews the construction of an inexpensive motion tracking and data logging system, which can be used for a wide variety of teaching experiments ranging from entry-level physics courses to advanced courses. The system utilizes an affordable infrared camera found in a Nintendo Wiimote to track IR LEDs mounted to the objects to be tracked. Two quick experiments are presented using the motion tracking system to demonstrate the diversity of tasks this system can handle. The first experiment uses the Wiimote to record the harmonic motion of oscillating masses on a near-frictionless surface, while the second experiment uses the Wiimote as part of a feedback mechanism in a rotational system. The construction, capabilities, demonstrations, and suggested improvements of the system are reported here.

Topics
Sonar, Measuring instruments, Control equipment, Machining, Tracking devices, Cameras, Batteries, Educational aids, Educational assessment, Teaching
1.
The original VI we used as a foundation for our VI was posted by JoHannS of the National Instruments forum and can be obtained here: forums.ni.com/ni/attachments/ni/170 /249598/1/ wiimote.zip.
2.

One can also access the button control and light indicators on the Wiimote to allow users to switch modes or identify which mode they are in, solely using the remote.

3.
Romulo
Ochoa
,
Frank G.
Rooney
, and
William J.
Somers
, “
Using the Wiimote in introductory physics experiments
,”
Phys. Teach.
49
,
16
18
(
Jan. 2011
).
https://doi.org/10.1119/1.3527747
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4.
Multiple human-computer interfacing projects featuring the Wiimote by Johnny Chung Lee can be found at johnnylee.net/ projects/wii/.
5.

A Throwie consists of a lithium battery, a 10-mm diffused LED, and a rare-earth magnet taped together. By Graffiti Research Lab.

© 2012 American Association of Physics Teachers.
2012
American Association of Physics Teachers
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