The videos on television show some of the massive destruction and the human toll of the recent earthquake in Haiti. It is difficult to imagine the suffering of the Haitian people. It is an unfortunate example of the devastation of a magnitude 7 earthquake.

It is natural to wonder why or how. When students are ready, teachers may want to discuss  earthquakes and their causes.

The folks at IRIS have a website with a PowerPoint presentation and Quicktime movie that explain a lot of details associated with this particular earthquake and earthquakes in general. The PowerPoint has excellent pictures of the destruction to buildings, without presenting images of human suffering that would be difficult for some students. The image to the right is taken from the PowerPoint.

IRIS (AKA the Incorporated Research Institutes for Seismology) has lots of resources for learning about earthquakes including SeisMac 2.0 which allows Macintosh computers to become seismographs.

In the quest for Science Literacy, we strive to give students an understanding of natural events before they happen. Adaptive Curriculum has two strong Activity Objects, one is on determining the magnitude of an earthquake and the other is determining the location of the earthquake. The image below is from “Earthquakes: Measuring Magnitude.“

When I was doing my sabbatical at the University of San Carlos (Cebu, Philippines), Ed Van den

Berg (one of the really great guys in science education), would have the undergraduate secondary education science students put on physics and chemistry demonstrations for the local school children. It was a delightful way to give them experience teaching and expose children to the interesting world of science. In the picture, two of my students demonstrate their fire tornado. (See http://www.west.asu.edu/rillero/philippines.htm for more of my photographs from the Philippines.)

In this YouTube video below, a similar program is described called “The Little Shop of Physics.”

I had the good fortune last week of being a conference presider for Irfan Kula, a talented educational designer. His session was “I Love Symbiosis.” He emailed me his PowerPoint presentation, and I am presenting this here:  i-love-symbiosis-kula.

We all want to avoid having children get hurt doing school science. We also don’t want teachers to avoid doing hands-on science because of fears related to safety issues in the science classroom. For the elementary school classroom there are a couple of valuable resources that can help teachers and administrators develop safer practices for science instruction.

These are:

Science and Safety: It’s Elementary (http://www.csss-science.org/downloads/scisaf_cal.pdf)

And

Safety in the Elementary (K-6) Science Classroom (http://membership.acs.org/c/ccs/pubs/K-6_art_2.pdf)

Many of these practices have been written with common sense in mind. And if you are safety minded, you are on the lookout for all the potential things that can go wrong and ways to prevent these accidents. Unfortunately, K-5 classrooms would not have some of this safety equipment, such as eyewash fountains, fume hoods, and safety showers, and probably most middle school science classrooms would come up short in these areas.

While going all virtual to avoid safety problems may be tempting, a more pragmatic solution is to avoid dangerous hands-on materials and be very careful to try science activities before hand, and monitor student behavior.

Technology For K-6 Science Safety

While technology is often thought of as electronic stuff, a better and wider view is that it is any human made products that make our lives better or safer. With this in mind, I present my top ten safety technologies.

1. Teacher Developed Safety Rules Contract: A teacher and students who are safety minded is probably the best defense against accidents. There should be no toleration of inappropriate behavior when doing hands-on science.

2. Goggles: Chemical splash safety goggles should be worn whenever what you are working with has the potential to hurt or damage eyes. Please don’t adopt the view, such as, “I use ammonia at home without goggles, so it is okay to use it in school without goggles.” An adult can decide not to use goggles at home and it is at their peril. If a teacher decides not to have students wear goggles with materials that could harm eyes, and eyes are damaged, the teacher will probably be held culpable, as will the administrators, the school, and the district.

3. Disposable Nitrile Gloves: From dissections to handling chemicals, these can prevent problems. And if a student is bleeding for any reason, an adult should put on gloves to help with the situation.

4. Locked Chemical Cabinet

5. Fire blanket and extinguisher

6. First aid kit

7. Proper waste containers

8. Rubber covered muslin aprons

9. Safety posters and signs

10. Non-mercury thermometers

Teachers should be urged to provide hands-on experiences for their students. But teachers are also responsible for the safety of their students.

I am at the NYSCATE Metro Conference, in Rye, NY. I grew up about 45 minutes from here but I forgot that it is still cold in mid-May. But of course, everything is relative, and relative to Arizona almost everywhere else is cooler.

This is the nyscate-critical-thinking  presentation I am  doing today. 

Video game flying the Wright brother's glider

It is always exciting to experience the sites and sounds of an NSTA conference. From my first science teacher conference, it was an awakening for me to find out that there are others like me who share my passion for science and education but who did not have an abundance of money to buy materials and who feel time compressed—despite perceptions that teaches have a lot of free time.

I brought my family along for this trip because it corresponded with my sons’ spring break from school. Okay, I admit, I probably wouldn’t have taken them to New Orleans if not for these reasons. I do think, however, exposure to other cultures is a good thing, and New Orleans’ has more than its share of culture. We were even able to go to a locals only crawfish boil (see photo). That my sons might be too young to appreciate New Orleans culture could be suggested by both of them liking the cool stuff in the conference exhibitor’s hall better than any other part of their visit. They were particularly taken by the science curiosities of “Steve Splangler Science” store, where the energetic folks did some intriguing square bubble demonstrations for them and then they were able to activities including tossing bubbles with gloves and making gummy worms. They also liked Flinn Scientific where they watched an engaging rep make foam, just like the stuff I use to close holes in and around my house. Now, they are flying home with a bag full of free materials from Insect Lore including two butterfly larvae that should form a chrysalis in two weeks.

It seems that the giving of t-shirts has achieved greater popularity. I don’t recall, in my first ten years of conference going, ever getting a t-shirt. Then the tech folks started giving away t-shirts and now so are the science folks. My wife doesn’t understand my interest in getting t-shirts, and she has already placed two of them (from Learning.com) in the piles of stuff to give to our son’s teachers. But there is one shirt I intend to keep; it is by far the nicest t-shirt I received, and it was a gray-background and white lettering SPARK t-shirt. I received it from Pasco when I attended a presentation on their SPARK system. Pasco seems to have a great understanding of the needs of a science teacher! So often science technology companies seem like they are devoted to the AP physics or chemistry teacher, who doesn’t have a family, social life, and is not pursing coursework. These rare folks might be able to take the time to figure out how to use complicated tech stuff to do one lab, but most regular teachers find it daunting. SPARK appears to be a solution that is easy to implement, cost effective, and has lots of uses. It acts like a mini-computer with a monitor, and it has its primary function—using probeware. So the yearbook teacher won’t want to borrow your class set!

“Ribosomes make protein.                                                                        A GUEST BLOG

Lysosomes keep it clean.

Endoplasmic Reticulum

transports things to and from. 

Nucleus runs the show.

Keeps control don’t you know!”

The kids wouldn’t stop rapping “Made of Cells”, an educational song I threw together to reinforce vocabulary, even a week after the exam.  It actually got to the point where I had to settle them down each time they walked into my classroom. 

Auditory comprises the “A” in Fleming’s VARK model for different styles of learning (others are Visual, Reading and Kinesthetic) and can explain why we remember things more easily if it encompasses a rhyme or a melody.   Recall when you were first introduced to the alphabet song: “a, b, c, d, eee, eff, geeee…”   It was easy to memorize 26 separate sequence specific letters as a preschooler when it took the form of music.  This technique is also implemented in learning the names of the continents (sung to the tune of “Frère Jacques” a.k.a. “Where is Thumbkin?”):

“There are se-ven, there are se-ven,

con-tin-ents, con-tin-ents:

Europe Asia Af-ri-ca

 North and South Amer-i-ca

Austral-i-a, Antarc-tic-a.

Advertisers have been using the power of jingles for decades in both private

“You deserve a-break-to-daaayy.”

and public sectors:

 “Be…All That You-Can-Be.”

Many scientists credit neuro-linguistic programming (NLP) for how the mind processes information.  The theory states that we can potentially incorporate all of our senses during cognition of a word, idea, or set of specific tasks.  The more senses bombarded through VARK when attaining that piece of information, the easier for it to “stick” in the brain and recall later.

Whether you call it an earworm, a jingle, or a catchy tune, using educational rap in the classroom is extremely effective.  This is especially true in a subject area like science where much of the terminology is derived from Greek and Latin.  So start formulating rhymes in your classroom today so your students can memorize that:

“All plants and animals are made up of cells.

Each is made up of parts called organelles.

So tiny you need a microscope to see.

About 100 trillion cells make up you and me.”   

Guest Post by Joseph Ocando, who was an 8^th grade science teacher in New York City as a member of Teach for America.  He has started a business called Rhyme ‘n Learn.  His raps can be ordered from http://cdbaby.com/cd/rhymenlearn

With a partner, my secondary science methods students selected a tree and then combined their ample knowledge, creativity, and critical thinking and came up with several methods to determine the height of the tree.

Linda Dee and Karen Schedler were helping my students learn about Project Learning Tree (PLT) and its many science activities. My students now have the assignment to develop a lesson plan using a PLT activity and then teach a high school or middle school class using this lesson plan.

This class of students has already earned my respect for their knowledge, abilities, and great attitudes, but it was still exciting to see them apply what they know with their creativity and critical thinking. Indeed the process was just as important as the result. Their tree-height-measurement methods included (a) having a partner of known height stand by the tree and estimating how many of them it would take to reach the top of the tree; (b) measuring the shadow length of the partner and the tree and using ratios; (c) holding a vertical ruler up, with the partner at the tree, and using the marking of the ruler to determine ratios for the heights, and (d) comparing the tree height to a building and then counting brick segments on the building to determine height. Of course, if a protractor was on hand we could have used the distance from the tree, angle to the top of the tree, and some trigonometry to make this estimate.

The tree height estimates were compared to a value found by using clinometers. These nifty devices, we were told, give a pretty accurate reading. You measure off 66 feet and look through the viewer with one eye and line up a horizontal line with the other eye. There were two scales for viewing the height of the tree, one in feet and the other in meters.  In many cases, my students’ estimates were pretty close to the clinometers’ readings.

I was glad to see my students using metric measurements because we had talked about this before our spring break. My advice is to have their future students do all their measurements using the metric system and NEVER convert back into the imperial system. But with the “66 feet” distance and foot scale on the clinometer, it seems like our forestry colleagues, at least in the US, are not fully metrified. Prior to this, I had thought that the only people of science who were not completely immersed in the metric system were US meteorologists. It is obvious that some science traditions don’t change easily. 

This activity series on weather is presented by PBS, and it has a great feature–you can add the activities directly to your school web site. I present the activities and what this would look like on your website below.

Resources:

Adaptive Curriculum’s “Hurricane Formation” (which allows students to learn that humidity, water temperature, and wind speed are important factors in hurricane development).

PBS Teachers Activity Packs

The Texas Computers in Education Association conference just ended and I am on the plane heading home. It is a nice conference, with lots of exhibitors, presenters, and attendees. I am going to infer that Texas loves science, because at my presentation, which had a narrow niche of middle school science, critical thinking, and state standards, I estimate there were 300+ people.  I posted the PowerPoint for this presentation on the last blog.

I also was filmed three times, twice for video blogs and one for a web page.  In all three cases I was discussing the Activity Objects of Adaptive Curriculum. Two of these are already available at District Administration – Product Posts and Scholastic Administrator – The Royal Treatment

 I thank District Administration’s Kurt Dyrli and Scholastic Administrator’s Ken Royal, who did one of the first articles about Adaptive Curriculum after interviewing me about two years ago at FETC. Ken really enjoyed the Activity Object on Francisco Redi, who helped disprove the idea of spontaneous generation. When Ken was a former science teacher he did this science experiment in class, replete with decaying meat and putrid smells. 

It will be interesting to see if the idea of video blogging takes off. I suspect that it will do well as a medium, as long as it has either more attractive or loquacious people than me!