PASCO ME-8930 SMART TIMER User Manual

Smart Timer

012–06734A

26

I =

τ

α

To find the rotational inertia experimentally, a known torque is applied to the object and the

resulting angular acceleration is measured. Since

t = Ia,

where

a is the angular acceleration, which is equal to a/r, and t is the torque caused by the

weight hanging from the thread that is wrapped around the base of the apparatus.

τ

= rT

where r is the radius of the 3-Step Pulley about which the thread is wound and T is the

tension in the thread when the apparatus is rotating.

Applying Newton’s Second Law for the hanging mass, m, gives (See Figure 4.2)

Σ

F = mg – T = ma

Figure 4.2

Rotational Apparatus and Free-Body Diagram

rotational
disk

"A" base

hanging
mass

mg

T

a

Solving for the tension in the thread gives:

Once the linear acceleration of the mass (m) is determined, the torque and the angular

acceleration can be obtained for the calculation of the rotational inertia.

T = m g – a

Smart Pulley