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By the end of this section, you will be able to:
  • Create and interpret graphs of potential energy
  • Explain the connection between stability and potential energy

Often, you can get a good deal of useful information about the dynamical behavior of a mechanical system just by interpreting a graph of its potential energy as a function of position, called a potential energy diagram    . This is most easily accomplished for a one-dimensional system, whose potential energy can be plotted in one two-dimensional graph—for example, U ( x ) versus x —on a piece of paper or a computer program. For systems whose motion is in more than one dimension, the motion needs to be studied in three-dimensional space. We will simplify our procedure for one-dimensional motion only.

First, let’s look at an object, freely falling vertically, near the surface of Earth, in the absence of air resistance. The mechanical energy of the object is conserved, E = K + U , and the potential energy, with respect to zero at ground level, is U ( y ) = m g y , which is a straight line through the origin with slope m g . In the graph shown in [link] , the x -axis is the height above the ground y and the y -axis is the object’s energy.

The energy, in units of Joules, is plotted as a function of height above the ground in meters. The graph of potential energy U is a straight red line through the origin, where y sub zero equals zero. The equation of the line is given as U of y equals m g y.  The graph of the total energy E which is equal to K plus U is a constant, which appears as a black horizontal line. The height above the ground where  the E and U graphs intersect is y sub max. The energy between the red U line and the horizontal axis us U sub A. The energy between the red U of y line and the black E line is K sub A.
The potential energy graph for an object in vertical free fall, with various quantities indicated.

The line at energy E represents the constant mechanical energy of the object, whereas the kinetic and potential energies, K A and U A , are indicated at a particular height y A . You can see how the total energy is divided between kinetic and potential energy as the object’s height changes. Since kinetic energy can never be negative, there is a maximum potential energy and a maximum height, which an object with the given total energy cannot exceed:

K = E U 0 , U E .

If we use the gravitational potential energy reference point of zero at y 0 , we can rewrite the gravitational potential energy U as mgy . Solving for y results in

y E / m g = y max .

We note in this expression that the quantity of the total energy divided by the weight ( mg ) is located at the maximum height of the particle, or y max . At the maximum height, the kinetic energy and the speed are zero, so if the object were initially traveling upward, its velocity would go through zero there, and y max would be a turning point in the motion. At ground level, y 0 = 0 , the potential energy is zero, and the kinetic energy and the speed are maximum:

U 0 = 0 = E K 0 , E = K 0 = 1 2 m v 0 2 , v 0 = ± 2 E / m .

The maximum speed ± v 0 gives the initial velocity necessary to reach y max , the maximum height, and v 0 represents the final velocity, after falling from y max . You can read all this information, and more, from the potential energy diagram we have shown.

Consider a mass-spring system on a frictionless, stationary, horizontal surface, so that gravity and the normal contact force do no work and can be ignored ( [link] ). This is like a one-dimensional system, whose mechanical energy E is a constant and whose potential energy, with respect to zero energy at zero displacement from the spring’s unstretched length, x = 0 , is U ( x ) = 1 2 k x 2 .

Figure a is an illustration of a glider between springs on a horizontal air track. Figure b is a graph of energy in Joules as a function of displacement from unstretched length in meters. The potential energy U of x is plotted as a red upward opening parabola. The function U of x is equal to one half k x squared. The equilibrium point is at the minimum of the parabola, where x sub zero equals zero. The total energy E which is equal to K plus U and is constant is plotted as a horizontal black line. The points where the total E line meets the potential U curve are labeled as turning points. One turning point is at minus x sub max, and the other is at plus x sub max.
(a) A glider between springs on an air track is an example of a horizontal mass-spring system. (b) The potential energy diagram for this system, with various quantities indicated.

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Source:  OpenStax, University physics volume 1. OpenStax CNX. Sep 19, 2016 Download for free at http://cnx.org/content/col12031/1.5
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