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The following presentation provides a summary of the work covered in this chapter. Although the presentation is titled waves, the presentation covers pulses only.

Graphs of position and velocity (not in caps - included for completeness)

When a pulse moves through a medium, there are two different motions: the motion of the particles of the medium and the motion of the pulse. These two motions are at right angles to each other when the pulse is transverse. Each motion will be discussed.

Consider the situation shown in [link] . The dot represents one particle of the medium. We see that as the pulse moves to the right the particle only moves up and down.

Motion of a particle of the medium

First we consider the motion of a particle of the medium when a pulse moves through the medium. For the explanation we will zoom into the medium so that we are looking at the atoms of the medium. These atoms are connected to each other as shown in [link] .

Particles in a medium.

When a pulse moves through the medium, the particles in the medium only move up and down. We can see this in [link] which shows the motion of a single particle as a pulse moves through the medium.

Positions of a pulse in a rope at different times. The pulse moves to the right as shown by the arrow. You can also see the motion of a point in the medium through which the pulse is travelling. Each block is 1 cm.
A particle in the medium only moves up and down when a transverse pulse moves through the medium. The pulse moves from left to right (or right to left). The motion of the particle is perpendicular to the motion of a transverse pulse.

If you consider the motion of the particle as a function of time, you can draw a graph of position vs. time and velocity vs. time.

Investigation : drawing a position-time graph

  1. Study [link] and complete the following table:
    time (s) 0 1 2 3 4 5 6 7 8 9
    position (cm)
  2. Use your table to draw a graph of position vs. time for a particle in a medium.

The position vs. time graph for a particle in a medium when a pulse passes through the medium is shown in [link]

Position against Time graph of a particle in the medium through which a transverse pulse is travelling.

Investigation : drawing a velocity-time graph

  1. Study [link] and complete the following table:
    time (s) 0 1 2 3 4 5 6 7 8 9
    velocity (cm.s - 1 )
  2. Use your table to draw a graph of velocity vs time for a particle in a medium.

The velocity vs. time graph far a particle in a medium when a pulse passes through the medium is shown in [link] .

Velocity against Time graph of a particle in the medium through which a transverse pulse is travelling.

Motion of the pulse

The motion of the pulse is much simpler than the motion of a particle in the medium.

A point on a transverse pulse, eg. the peak, only moves in the direction of the motion of the pulse.
Position of the peak of a pulse at different times (since we know the shape of the pulse does not change we can look at only one point on the pulse to keep track of its position, the peak for example). The pulse moves to the right as shown by the arrow. Each square is 0,5 cm .

Given the series of snapshots of a transverse pulse moving through a medium, depicted in [link] , do the following:

  • draw up a table of time, position and velocity,
  • plot a position vs. time graph,
  • plot a velocity vs. time graph.
  1. [link] shows the motion of a pulse through a medium and a dot to indicate the same position on the pulse. If we follow the dot, we can draw a graph of position vs time for a pulse. At t = 0 s the dot is at 0 cm . At t = 1 s the dot is 1 cm away from its original postion. At t = 2 s the dot is 2 cm away from its original postion, and so on.

  2. time (s) 0 1 2 3 4 5 6 7 8 9
    position (cm) 0 1 2 3 4 5 6 7 8 9
    velocity (cm.s - 1 ) 1 1 1 1 1 1 1 1 1 1

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Source:  OpenStax, Physics - grade 10 [caps 2011]. OpenStax CNX. Jun 14, 2011 Download for free at http://cnx.org/content/col11298/1.3
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