6.4: Analyzing Railgun Data Using For Loops
This example requires an understanding of the relationships between acceleration and velocity of an object moving in a straight line. A clear discussion of this relationship can be found in "Acceleration" (http://cnx.org/content/m13769/latest/); the Wikipedia article "Motion Graphs and Derivatives" (http://en.wikipedia.org/wiki/Motion_graphs_and_derivatives) also has an explanation of this relationship as well as a discussion of average and instantaneous velocity and acceleration and the role derivatives play. Also, in this example, we will compute approximate integrals using the trapezoidal rule; the Wikipedia article "Trapezium rule" (http://en.wikipedia.org/wiki/Trapezoidal_rule) has an explanation of the trapezoidal rule.
Velocity Analysis of an Experimental Rail Gun
A railgun is a device that uses electrical energy to accelerate a projectile; information about railguns can be found at the Wikipedia article "Railgun" (http://en.wikipedia.org/wiki/Railgun). The paper "Effect of Railgun Electrodynamics on Projectile Launch Dynamics" by Zielinski shows the current profile of a railgun launch. The acelleration
where
Exercise 23
Download the data set of current values in the file Current.txt (available at http://cnx.org/content/m14031/latest/Current.txt) onto your computer. The file is formatted as two columns: the first column is time in miliseconds, and the second column is current in kA.
The following sequence of commands will load the data, create a vector
t
of time values, create a vector
c
of current values, and plot the current as a function of time.

load Current.txt ascii

t = Current(:,1);

c = Current(:,2);

plot(t,c)

xlabel('time (msec)')

ylabel('current (kA)')
The plot should be similar to that in Figure 6.
Plot of railgun current versus time
Exercise 24:
Compute the projectile velocity as a function of time. Note that velocity is the integral of acceleration.
Notes/Highlights Having trouble? Report an issue.
Color  Highlighted Text  Notes  

Show More 