Most two-wheel motorcycle riders know that, at highway speeds, if you want to turn left you push on the left handlebar and pull on the right handlebar. This is called countersteering. Countersteering is counterintuitive since pushing left and pulling right when the front wheel is not spinning would turn the wheel to the right. All good motorcycle instructors teach countersteering but few understand the physics of why it works, even though there is considerable discussion about it among motorcycle riders. This paper gives a simplified explanation of gyroscopic precession and then applies this to the front wheel of a motorcycle using two steps: 1) explaining how the wheel’s lean is initiated, and 2) explaining how the lean will cause the wheel to turn. To assist with this discussion and to demonstrate the conclusions, a “wheel” was constructed using copper pipe, a bicycle wheel hub, and one pound of lead in each of four “balls” at the end of the spokes (see Fig. 1).

1.
Ernest F.
Barker
, “
Elementary analysis of the gyroscope
,”
Am. J. Phys.
28
,
808–810
(
Sept.
1960
).
2.
Harvey
Kaplan
and
Andrew
Hirsch
, “
Gyroscopic motion: Show me the forces!
Phys. Teach.
52
,
30–33
(
Jan.
2014
).
3.
J.
Fajans
, “
Steering in bicycles and motorcycles
,”
Am. J. Phys.
68
,
654–659
(
July
2000
).
4.
A demonstration wheel with four masses added
is available from http://www.pasco.com.
5.
Personal experience and observation of the authors.
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.