The phenomenon of electric polarization is crucial to student understanding of forces exerted between charged objects and insulators or conductors, the process of charging by induction, and the behavior of electroscopes near charged objects. In addition, polarization allows for microscopic-level models of everyday-life macroscopic-level phenomena. Textbooks may adequately discuss polarization, but there is little material in active learning labs and tutorials on this topic. Since polarization of materials is a microscopic phenomenon, instructors often use diagrams and figures on the classroom board to explain the process in a lecture setting. In this paper I will describe a classroom activity where the students play the role of electrons as an alternative option.

1.
For an example, please see Problem P40 in Chap. 14 of the
R. W.
Chabay
and
B. A.
Sherwood
,
Matter & Interactions: Electric and Magnetic Interactions
, Vol.
III
, 4th ed. (
Wiley
,
2015
).
2.
D. R.
Sokoloff
,
R. K.
Thornton
, and
P. W.
Laws
,
RealTime Physics: Active Learning Laboratories
(
Wiley
,
2012
).
3.
L. C.
McDermott
,
P. S.
Shaffer
, and the
Physics Education Group
,
Tutorials in Introductory Physics
(
Prentice Hall
,
2002
).
4.
E.
Petridou
,
D.
Psillos
,
E.
Hatzikraniotis
, and
J.
Viiri
, “
Design and development of a microscopic model for polarization
,”
Phys. Educ.
44
(
6
),
589
(
Nov.
2009
).
5.
Carlos
Furió
,
Jenaro
Guisasola
, and
José M.
Almudi
, “
Elementary electrostatic phenomena: Historical hindrances and students’ difficulties
,”
Can. J. Sci. Math. Tech. Educ.
4
(
3
),
291
313
(
July
2004
).
6.
Randal
Harrington
, “
Discovering the reasoning behind the words: An example from electrostatics
,”
Am. J. Phys.
67
(
S1
),
S58
S59
(
July
1999
).
7.
Jongwon
Park
, “
Analysis of students’ processes of confirmation and falsification of their prior ideas about electrostatics
,”
Int. J. Sci. Educ.
23
(
12
),
1219
1236
(
2001
).
8.
Rachel E.
Scherr
,
Hunter G.
Close
,
Eleanor W.
Close
, and
Stamatis
Vokos
, “
Representing energy. ii. Energy tracking representations
,”
Phys. Rev. ST Phys. Educ. Res.
8
,
020115
(
Oct.
2012
).
9.
Ted
Richards
, “
Using kinesthetic activities to teach Ptolemaic and Copernican retrograde motion
,”
Sci. Educ.
21
,
899
910
(
June
2012
).
10.
Pauline M.
Ross
,
Deidre A.
Tronson
, and
Raymon J.
Ritchie
, “
Increasing conceptual understanding of glycolysis & the Krebs cycle using role-play
,”
Am. Biol. Teach.
70
(
3
),
163
168
(
March
2008
).
11.
Vandana
Singh
, “
The electron runaround: Understanding electric circuit basics through a classroom activity
,”
Phys. Teach.
48
,
309
311
(
May
2010
).
12.
Brooke A.
Whitworth
,
Jennifer L.
Chiu
, and
Randy L.
Bell
, “
Kinesthetic investigations in the physics classroom
,”
Phys. Teach.
52
,
91
93
(
Feb.
2014
).
13.
Corinne A.
Manogue
,
Philip J.
Siemens
,
Janet
Tate
,
Kerry
Browne
,
Margaret L.
Niess
, and
Adam J.
Wolfer
, “
Paradigms in physics: A new upper-division curriculum
,”
Am. J. Phys.
69
(
9
),
978
990
(
Sept.
2001
).
14.
15.
Arnold B.
Arons
,
Teaching Introductory Physics
(
Wiley
,
1996
).
16.
C. J.
Hieggelke
,
Steve
Kanim
,
D. P.
Maloney
, and
T. L.
O’Kuma
,
TIPERs: Sensemaking Tasks for Introductory Physics
(
Pearson
,
2015
).
17.
CSE was one of the two tests, along with the Conceptual Survey for Magnetism, that eventually resulted in the Conceptual Survey of Electricity and Magnetism.
See David P.
Maloney
,
Thomas L.
O’Kuma
,
Curtis J.
Hieggelke
, and
Alan
Van Heuvelen
, “
Surveying students’ conceptual knowledge of electricity and magnetism
,”
Am. J. Phys.
69
(
S1
),
S12
S23
(
July
2001
).
AAPT members receive access to The Physics Teacher and the American Journal of Physics as a member benefit. To learn more about this member benefit and becoming an AAPT member, visit the Joining AAPT page.