As a child of the ’80s, I saw Short Circuit more times than I can count. To this day whenever I take something apart I hear the terrified Number 5 yelling, "Disassemble?! No!!" as he realizes what it would mean for him. But I still take things apart, because it is fun.
There have been many things I've collected (okay, maybe call it hoarded) over the years for use in my classroom. Some I have specific and immediate uses for .... some not so much. I still have part of the framing from a holiday light lawn sculpture of a snowman that I just know will be perfect for something, someday.
I finally got the time this year to disassemble an old toaster, hair dryer and space heater. I reference these appliances when I teach electricity as a practical example of the conversion of electric energy to thermal energy. By the time we get to that, students have often had personal experience with that conversion when they leave their circuits on too long and touch hot resistors.
Even though we've talked about the dissipation of heat from electrical circuits I don't think my students believed me until they saw all those coils of wire. It was a simple thing to take them apart (they weren't working anyway) but many of my students were just in awe of seeing the inside of something. Little do they know they get to do it next week.
Now that our current electricity unit has come and gone we have moved on to electromagnetism. I have my students make a speaker out of paper using a paper template I made (pdf or google doc), a doughnut magnet and a coil of magnetic wire. Its a simple build based on Modesto Tamez's activity from the Exploratorium, but the students love it every year. It can be expanded by asking students to improve the design, increase the volume or efficiency. I've also seen a headphone project follow this for which students have to make their own working headphones based on this speaker design. (NGSS Science & Engineering Practice right there!)
This year I'm adding a "Dissecting Headphones" lab to my unit. Thanks to RAFT I scored a gross of cheap ear bud headphones several years ago that I've been holding on to (hoarding again). Each pair of students will get a set of headphones so that they each get to dissect one ear bud. The instructions go step by step for these particular headphones and lead students all the way to the small magnet and coil. I've done it with high school aged students before and despite building the paper speaker only a few minutes before, they are shocked—shocked—that their ear buds work the same way. They use classroom scissors and a straight pin; they can use wire cutters too, but they are not required.
Suddenly they all start making connections. "This is how a microphone works, too!" and "That's why my headphones attract paperclips!" are heard all over the room. And it's magical.
The lab my students will do this week includes both the "Make A Speaker" and "Dissecting Headphones" labs in one file available as a pdf or google doc.
High school physics education issues as seen by some American teachers: From content standards to critical thinking
Monday, April 20, 2015
Thursday, April 16, 2015
ExploratoRio 2015 time lapse videos
We set up ExploratRio 2015 on Tuesday, April 14. That process looked like this.
ExploratoRio 2015 Setup
The following day we opened our doors to Rio physics students and local elementary school students. It looked like this.
ExploratoRio 2015 Day
ExploratoRio 2015 Setup
The following day we opened our doors to Rio physics students and local elementary school students. It looked like this.
ExploratoRio 2015 Day
Sunday, April 05, 2015
Canvas to Keynote conversion update
It began in October, 2012. Full story here.
At the outset, it looked like this.
In June, 2013, it looked like this.
Last year (April 2014), it looked like this.
Now (April 2015) it looks like this.
Progress. As sure as it is slow.
At the outset, it looked like this.
In June, 2013, it looked like this.
Last year (April 2014), it looked like this.
Now (April 2015) it looks like this.
Progress. As sure as it is slow.
Sometimes demos go wrong—that doesn't make demos wrong
If you're hip enough to have tuned into this blog, you've probably seen the viral video of the cinder-block smash demo gone wrong. I'm not linking to it directly, because it's not any fun to watch. Of course, in this modern era, you can find versions of this incident from multiple angles.
I have mixed feelings about this demo and have never done it, myself. But I think Greg Schwanbeck makes a powerful argument against the knee-jerk reaction that will likely follow.
Please Don't Ban My … Physics Demos From Schools
And despite the date, this was no April Fool's joke.
Paly teacher burned in science experiment accident
Details are sketchy, so I'm not sure what conclusions can be drawn. No matter how often we've done some of these demos, it's imperative to remember the risk involved.
We wish speedy and full recoveries for both injured teachers.
And, OK; I'll give you a bed of nails blooper—direct from my talented and enthusiastic colleague, The Skeptical Teacher Matt Lowry. (Things get real at about 5:25.) He has recovered!
I have mixed feelings about this demo and have never done it, myself. But I think Greg Schwanbeck makes a powerful argument against the knee-jerk reaction that will likely follow.
Please Don't Ban My … Physics Demos From Schools
And despite the date, this was no April Fool's joke.
Paly teacher burned in science experiment accident
Details are sketchy, so I'm not sure what conclusions can be drawn. No matter how often we've done some of these demos, it's imperative to remember the risk involved.
We wish speedy and full recoveries for both injured teachers.
And, OK; I'll give you a bed of nails blooper—direct from my talented and enthusiastic colleague, The Skeptical Teacher Matt Lowry. (Things get real at about 5:25.) He has recovered!
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