The Atwood machine is a simple device used for centuries to demonstrate Newton's second law. It consists of two supports containing different masses joined by a string. Here we propose an experiment in which a smartphone is fixed to one support. With the aid of the built-in accelerometer of the smartphone, the vertical acceleration is registered. By redistributing the masses of the supports, a linear relationship between the mass difference and the vertical acceleration is obtained. In this experiment, the use of a smartphone contributes to enhance a classical demonstration.

1.
Thomas B.
Greenslade
 Jr.
, “
Atwood's machine
,”
Phys. Teach.
23
,
24
(Jan.
1985
),
2.
Alexsandra
Siqueira
,
Aparecida do C.S.
Almeida
, and
Jaime
Frejlich
, “
Máquina de Atwood
,”
Rev. Bras. Ens. Fis.
21
,
95
(
1999
).
3.
Gordon O.
Johnson
, “
Making Atwood's machine ‘work,’
Phys. Teach.
39
,
154
(March
2001
).
5.
Patrik
Vogt
and
Jochen
Kuhn
Analyzing free fall with a smartphone acceleration sensor
,”
Phys. Teach.
50
,
182
(March
2012
).
6.
Martin
Monteiro
,
Cecilia
Cabeza
, and
Arturo C
Martí
, “
Acceleration measurements using smartphone sensors: Dealing with the equivalence principle
,”
Rev. Bras. Ens. Fís.
37
,
1303
(
2015
).
7.
Jochen
Kuhn
, “
Relevant information about using a mobile phone acceleration sensor in physics experiments
,”
Am. J. Phys.
82
,
94
(Feb.
2014
).
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.