Image Processing in Your Classroom

This page features lesson plans and images for doing image processing projects with K-12 students. These lessons were developed by educators as part of an image processing course, EDTC 680: Image Processing for Educators at Eastern Michigan University. They were selected and edited by Dr. Mike Charles, currently an Assistant Professor in the College of Education, Pacific University. They are posted here to make them available to other educators who are using visualization tools to help their students explore science and mathematics.

All of these activities require NIH Image, a public domain image processing program for the Macintosh developed by Wayne Rasband at the National Institutes of Health (NIH). You may also use Scion Image, another public domain program developed by the Scion Corporation.

Click the thumbnail image to see a larger version of the image. Click on the text to download the lesson plan and images. Some images or folders are compressed using Stuffit Deluxe and can be expanded using Stuffit Expander, free for Windows and Macintosh users from the Aladdin Systems site. The lesson plans can be viewed by using Adobe Acrobat.



Image Magic: Do you look like your parents?

How much do you really look like your parents? Begin with an image of your mother, your father, and yourself, all at about the same age. Line up your parent's images and use NIH Image's ability to average them. Then compare this average image to your own and look for the amazing resemblance! (Activity courtesy of Panan Tantrakul, Eastern Michigan University).



Dueling Dunks: Measuring the speed of a dunked basketball

Who dunks a basketball the fastest? Is it Michael Jordan (formerly of the Chicago Bulls,) Antonio McDyess (formerly of the Phoenix Suns) or someone in a local gym. In this activity you will use NIH Image's ability to measure distances to determine the answer to this question. You will analyze video footage downloaded from the NBA's site or capture video of your own. (Activity courtesy of Dr. Mike Charles, Eastern Michigan University).



Measuring the area of asymmetry of a Maple Leaf

Does an asymmetrical leaf fall from a maple tree before a more symmetrical leaf? In this activity you measure the area of a scanned in leaf. Then you digitally "fold" the leaf in half, and measure the area of the parts of the leaf that are not symetrical. Perform this same operation for typical leaves that were collected on five consecutive days from the same maple tree to determine if more symmetrical leaves stay on the tree longer. (Activity courtesy of Dr. Mike Charles, Eastern Michigan University. Original activity idea courtesy of Catherine Russell, Anderson High School, Southgate, Michigan).



Find the Titanic!

Create an ocean floor surface in a shoebox using salt dough and hide a plastic model boat on the ocean floor. Create a color-coded contour map of that surface using a chopstick calibrated into one-centimeter increments. Make that map into a color-coded contour map of the inside of the shoebox. Generate a 3-D view of that map using NIH Image software. (Activity courtesy of Dr. Mike Charles, Eastern Michigan University).



Making a 3D image of a park

Convert a topographic map of a local park into a 3D image using NIH Image's ability to project a stack of images. (Activity courtesy of Kathe Blue Hetter, Community High School in Ann Arbor, Michigan).



More Animal Hands

What animal does this x-ray hand belong to, and why do you think so? In this introductory biology lesson, you will examine x-rays of hands, wings, hooves and flippers to compare their structures and functions as you identify the animal. Image Processing lets you to change the way the information in the x-rays is displayed, allowing you to see details you would never see even if you had the original x-ray in hand.