Experiment 4: oscillations on an incline, Purpose, Theory – PASCO ME-9429B 1.2 m Classic Dynamics System User Manual

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1 . 2 m C l a s s i c D y n a m i c s S y s t e m

E x p e r i m e n t 4 : O s c i l l a t i o n s o n a n I n c l i n e

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Experiment 4: Oscillations on an Incline

Purpose

In this experiment, you will measure the period of oscillation of a spring and mass
system on an incline at different angles and compare it to the theoretical value.

Theory

For a mass attached to a spring, the theoretical period of oscillation is given by

where T is the time for one complete back-and-forth cycle, m is the mass that is oscil-
lating, and k is the spring constant.

According to Hooke’s Law, the force exerted by the spring is proportional to the dis-
tance, x, by which the spring is compressed or stretched, F = kx, where k is the pro-
portionality constant. The spring constant can be experimentally determined by
applying different forces to stretch the spring different distances. When the force is
plotted versus distance, the slope of the resulting straight line is equal to k.

Procedure

Measurements to Find the Spring Constant and Theoretical Period

1.

Measure the mass of the cart and record it in Table
4.1.

2.

Instal the end stop on the track near one end.

3.

Set the cart on the track and attach a spring to one
end. Attach the other end of the spring to an the end
stop (see Figure 4.1).

4.

Incline the track by raising the end of the track where the spring attached. As the
end of the track is raised the spring will stretch. Keep the angle of inclination of
the track small enough so the spring is not stretched more than about 50 cm. Use

Required Equipment from Dynamics System

Track with End Stop

Cart

Pivot Clamp

Harmonic Spring

Other Required Equipment

Suggested Model Number

Base and support rod

ME-9355

Mass hanger and mass set

ME-9348

Stopwatch

ME-1234

Mass balance

SE-8723

T

2

 m

k

----

=

q

Figure 4.1: Equipment Setup