Exp. 12: simple machines-the lever, Theory, Setup – PASCO ME-9502 Statics System User Manual

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M o d e l N o . M E - 9 5 0 2

E x p . 1 2 : S i m p l e M a c h i n e s – T h e L e v e r

0 1 2 - 1 2 8 7 6 B

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Exp. 12: Simple Machines–The Lever

Equipment Needed

Theory

The workings of a lever can be understood using the
concept of torque. When the torque produced by the
applied force (called the “effort”) becomes greater than
the torque of the object being lifted (called the “load”),
the lever will rotate about its pivot point (sometimes
called the “fulcrum”), raising the load. However, levers
can also be explained in terms of work and the conser-
vation of energy.

In physics, the precise mathematical definition of work is the force applied to an object multiplied by the distance
over when that force acts, or W = Fd where W is the work, F is the applied force, and d is the displacement of the
object in the direction of the force. (If a force is applied to an object, but the object does not move in the direction
of the force, then, technically, no work is done.) Whenever work is done on an isolated system, the energy of the
system will change by exactly the amount of work that was performed, or



E = W where



E is the change of

energy.

In this experiment, you will apply a measurable amount of work to a lever and observe the change in the gravita-
tional potential energy of the load.

Setup

1.

Put a Protractor at each end of the Balance Arm beam and mount the Balance Arm on the Statics Board with
the beam centered in the pivot.

Item

Item

Statics Board

Mounted Spring Scale

Mass and Hanger Set

Balance Arm and Protractors

Large Pulley

Thread

Pencil or Dry Erase Marker Pen

Figure 12.1: Lever

Figure 12.2: Equipment Setup

Spring

Scale

Pivot

Balance

Arm

Protractor

Protractor

Large

Pulley

Hanging

Mass

Thread

M

1