Microworld Title Page:
How to Draw a Star
Individual and Institutional Members may sign in. Click here to join the Library

Requires the Java MathwrightWeb ActiveX Control to read in your Browser.
For proper viewing, be sure to use Version 2.007 or later, dated Sept 26, 2002

Download free MathwrightWeb to view Microworlds in your browser, then press

Or, if you prefer to read any of these off line, download the free Mathwright32 Reader, then press

For proper viewing, be sure to use Version 2.007 or later, dated Sept 26, 2002

Once you download our free Mathwright32 Reader above, then simply click Get This Microworld, and it will be downloaded to your machine and installed in a directory there. You may find it whenever you want to view it, by going to the Start, Programs, Mathwright32 Reader menu.

• "Run ActiveX Controls and Plugins" set either to enable or prompt.
• "Initialize and Script ActiveX Controls not marked as safe" set either to enable or prompt

 

Note: This Microworld requires Version 2.007 or later, dated Sept 26, 2002. Please download and use a player (Mathwright32 Reader) at least as recent as that.

 

Microworld: How to draw a star
Click the Hyperlink above to visit the Microworld in your Browser.
Author: Dan Kalman

User's Guide for How to draw a star

Overview

The Star mathwright microworld provides opportunities to explore the geometry of stars.  There are three activities pages.  On the first you can explore the relationship between the number of points in a star and the size of the angle formed at each point.  The second allows you to construct stars by drawing polygons with vertices regularly spaced around a circle.  The third automates this process according to a user defined pattern for drawing the sides of the polygon.  Specific suggestions for using each page are included in this User's Guide.

Page 1

This is the title page.

Page 2

This is an overview about stars, and an introduction to the following activity page.

Page 3

On this page you specify the number of points and the size in degrees of the angle for each point.  Click the Draw button to see the result.  If that result is a star, then a point is added to the graph showing angle (y) versus number of points (x).  A proposed equation relating those variables can be entered to the right of the graph.  Use the Graph Equation button to see how the proposed equation relates to the data points.

You can control the speed at which the figure is drawn with the Faster  and Slower buttons. 

Here are two suggestions for using this page. 

First, try to draw a star with a specified number of points.  For example, try to make a nine pointed star.  Enter 9 in the box labeled How many points? and guess an angle for each point.  If you are successful, try again with a different number of points.  On the other hand, if your first guess does not create a nine pointed star, can you tell whether you should make the angle smaller or larger?  Try to refine the angle through a process of trial and error, until you find the correct angle to make a none pointed star.

Second, put a very large number in for the number of points, say 90 or 100.  Now try various angles.  The computer will start drawing lines and making angles, and if a closed star results, the drawing will stop.  In this way you can discover many different kinds of stars. 

Each time you find a star, a new data point will be added to the graph in the lower part of the  screen.  One goal here is to find an equation that relates the number of points (x) and the angle at each point (y).  If you think you see a pattern that fits the data (or part of the data), enter an equation for your pattern in the white equation box and then use the Graph Equation button.

Page 4

 

On this page you can draw stars with the computer's help.  First decide how many points you would like, and enter that number in the white box.  Next, click Mark Points to see where the points should be.  Finally, to draw a star, click points in the graph. As you click the points, the computer will draw lines between them, creating a figure.  The goal is to click the points to produce a star.  The colored block in the lower right corner of the graph shows the color that will be used to draw the lines.  Use the Change Color button before you start drawing the lines to select the color for the star.

Specific activies:

1.      Try drawing stars with 11 points.  How many different stars can you draw?  Try again for 7 points.  How many stars can you draw?  How about for 13 points.

2.      Try drawing stars with 6, 8, 10, or 12 points.  Can you create stars like the ones shown below?

 

Page 5

 

This page is similar to the preceding page.  However, on this page, the computer will draw the lines for you.  You have to tell the total number of points, and must also indicate the pattern for drawing the lines.  For example, if you say to draw the lines skipping ahead 3 points each time, the lines will be drawn as if you had used the mouse to click every third point.  This way you can easily create star patterns without actually doing all the clicking.  As before, you can speed up or slow down the drawing, and you can change the color.

Specific Questions to consider:

1.      For 10 pointed stars, how many different stars can you find?  Which skip ahead numbers lead to 10 pointed stars and which do not?

2.      Repeat question 1 for 12 pointed stars.  Repeat again for 15 pointed stars.

3.      Can you guess the general rule which tells when a star will be formed, and when it will not?

4.      Can you see a pattern that indicates how many different stars are possible for a given number of points?

5.      Try combining different stars with different colors to create interesting patterns.  Here is an example:

 

Return to the listing of MathwrightWeb Microworlds

---

		- James E. White, Ph.D. , Library Director,
		author of this website, Mathwright 2000, MindScapes,
		MathwrightWeb, and Mathwright32