Playdough For Fun and Profit 70
morgan_greywolf writes with this snippet from Wired:"You're never too young (or too old) to start learning the joys of electronics. You don't need to know how to solder, or even how to plug circuit components into a breadboard. As long as you're past the 'I'm going to stick this up my nose' phase, this homemade playdough circuit project is a great way to introduce kiddos and adults alike to basic circuits and electricity."
yeah (Score:2, Interesting)
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We MUST put a halt to this immediately. We can't have children messing about with this kind of thing.
Hell, terrorists might even try to build the electronics for a bomb using this in the middle of a flight, because the TSA still lets you have playdough. Combining this with the C4 they have stuffed inside body cavities, it's like manna from heaven.
Re:yeah (Score:4, Interesting)
I'm surprised they let you have paydough on planes.
What would be better than powering the circuit with batteries would be to make the batteries, too. You can make a battery from a lemon, a galvanized roofing nail, and a piece of thick copper wire. Not sure if it would power an LED (Although I'm pretty sure it would) but I suppose you could have a six (or more) lemon battery. A single lemon will power an LCD calculator, I did that with my kids when they were little. You can get around a volt from a lemon, not sure how many milliamps. And I don't remember if the copper side or the zinc side was positive; the kids are grown now and it was a long time ago.
The LED is good for demonstrating the workings of a diode, since it is a diode and lights up. A red/green diode is great for that, one of the ones that light red with one polarity, green with the opposite polarity, and yellow with AC.
Seems you could make a playdough capacitor, too. You could conceivably make playdough resistors by mixing the conductive and nonconductive doughs. I wish I'd known the conductive properties of playdough when my kids were little. Maybe if one of them makes me a grandpa...
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I'm imagining a 3 year old filling the holes on an electric socket with the blue (conductive) playdoh. ZAP.
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That, and learning how hard playdough is to remove from carpet, is why you always make your kids play with it at the table.
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I think the idea here is to use it with very young kids, maybe down to three years old. Save the breadboarding until they're old enough to use wirecutters without removing an earlobe. It's like training wheels or tee ball. Obviously inferior to the real thing, but an accessible start. Little kids are used to playing with playdough. If you can sneak in some learning, all the better.
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Who said anything about breadboarding? If the things GP's referring to are like the one I had, the components are on little mounts that bolt into place on a precut predrilled PCB.
PROFIT IS PHASE 3 !! (Score:1)
Everyone knows that !!
Re:PROFIT IS PHASE 3 !! (Score:4, Funny)
oh yeah! (Score:1)
looks like a bomb better send in the FBI (Score:3, Insightful)
Now this is some that if left in the open will look alot more bomb / C4 like then the Aqua Teen Hunger Force ad's.
Re:looks like a booger better send in the Tissue (Score:3, Funny)
As long as you're past the 'I'm going to stick this up my nose' phase
It's narrow minded people like you that hold back scientific progress, the smelloscope is a fantastic invention.
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Mix in a little saltpeter and you do have an incendiary device. Saltpeter mixed with sugar will burn through a concrete block once lit.
Power it with enough lemons and it won't even look like a bomb, although a saltpeter bomb has to be under pressure (pipe bomb).
I should've known this when I was young (Score:1)
I used to rip apart all toys and wire up motors, blinken lights and stuff using clay. (I used clay to keep the connections in place)
See also AnnMarie Thomas' TED talk (Score:2)
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not that I choose videos based on the attractiveness of the woman in the video...
Christina has 68 likes, wonder how many she'll have after
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Semiconductor playdough (Score:1)
Needs P and N type dough!
Alligator Clips (Score:1)
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yeah, but because of the decline in alligator population, the clips are becoming rare. plus PETA kept picketing Radio Shacks
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Also they make great roach clips. Playing with kids and simple electronics is even more fun when you're stoned!
Alligator clips have a multitude of uses, most of which have nothing to do with electronics.
4 year old? (Score:2)
Re:4 year old? (Score:5, Interesting)
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Not at all. I started doing kitchen experiments with my daughter when she was 3. Once she gets how one conducts and the other doesn't, she'll be able to try different combinations and see how the current moves, degrades, etc. She may not learn the technology, but a four year old's ability to learn through experience is incredible. Don't forget, she learned English in less than two years using observation alone.
oops... I meant to say, she may not learn the terminology
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I think my father made me some LEGO bricks with LEDs and lamps when i was four and i remember that i was very fascinated by the fact that some devices which have a polarity, and some don't. I for sure expressed that in another way, but testing how to attach the red/black wires to batteries to make the LEDs shine kept me busy and quiet for some time. And my development was completely average.
My theory is: give children many kinds of toys. You will figure out if its to early if they don't play with it.
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It depends on the kid. My oldest would have been five before she would grasp it (she's learning disabled), my youngest could have handled it at two (she's gifted).
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Kids are all so different that it's hard for anyone but you (and her parents of course!) to answer that question. I say just give it a shot under extra-close supervision and see what happens, you can always put it away if you think she's not ready.
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would it kill you fucks to use google?
I'll make you a deal: I'll start using Google to filter submissions if you start using even a token amount of civility.
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Good luck on that.
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I found it interesting. Just because you've seen a similar article doen't mean everybody has. I see you were modded flamebait, if I were moderating today your comment would be at a -1.
Bad comment! Bad bad bad! *swats comment on nose with rolled up newspaper*
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it already is -1 dink, and I thought this was a news site, not the same old shit everyone else it reposting site
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If you haven't seen it before it's news. And, are book reviews news? Nope. Yes, this is news for nerds, but not all stuff that matters is news. If you don't like a topic, ignore it, there are lots more where they came from.
If you'd worded you comment like below you would have been modded up:
+3 informative.
It makes no sense to word a comment is such a way that it's sure to be at a -1. If nobody is going to see it,
It is almost like.... (Score:3)
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actually given the way a diode is made you MIGHT be able to actually do a diode by making dough with a varied mix of salt/tartar
along the length of your dough
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I don't see how. There are only three ways I know of to make a diode. You can use semiconductors, quantum tunneling, or the old vacuum tube method. I can't see how varying the resistivity of the dough could replicate any of those.
What you could do is make a moderately resistive dough, and create a potentiometer. Battery+ -> wire -> dough -> LED -> Battery-. Roll the dough into a thin strand, and the light gets dim. Clump it into a big ball, and the light gets bright. Bonus points if you e
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Which of these three do Selenium rectifiers [wikipedia.org] fall under?
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Under the "ways I do not know of" heading. However, wikipedia says they're an early type of semiconductor diode, so I'll go with that.
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lemme correct things before my semi conductor teacher whacks me upside the head
you would actually make a nonconductive dough and then mix in gallium or antimony depending on which type you need (i think those are the least toxic of the possible options) so a "proper" diode would have gallium on one end and antimony on the other end
you could maybe get a sort of bipolar junction transistor by making a blob with Npn sections but this would just about be stone knifes and bearskins level of operation.
Yet inconceivable... (Score:2, Interesting)
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What am I missing here? What on Earth do Egyptians have to do with anything??
Conductive Playdoh? (Score:2)
Oh great. Just wait till the TSA hears about THAT....
Kirkchoff's law fail (Score:5, Informative)
It makes me sad to read the following snippet from the article:
Now a bunch of kids are going to go through life thinking that current gets used up as it goes through the circuit. The same current will be flowing through every component of the circuit; it's only got one path, after all.
Don't get me wrong, I love this article and I'm probably going to try this with my kids, too. It's just that I'm going to teach them Kirchoff's laws [wikipedia.org] while I'm at it.
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The article is a wiki, so you can fix it. I'd do it myself, but I haven't actually made the playdough (yet!) and I want to see for myself if the LEDs further along in the circuit don't shine as bright. My gut says that the current author didn't actually try it and was just writing what he expected to happen, since I can't think of any reason for it to be true, but it wouldn't be the first time a circuit has surprised me.
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No, LEDs are only full brightness or off. To make an LED dim you pulse the current through it. It isn't actually dimmer, it just looks dimmer because it's turning on and off faster than you can see.
Re:Kirkchoff's law fail (Score:4, Insightful)
No, LEDs are only full brightness or off. To make an LED dim you pulse the current through it. It isn't actually dimmer, it just looks dimmer because it's turning on and off faster than you can see.
Nonsense. You can make an LED anything from barely lit to full tilt by nothing more than controlling the current via the loading resistor. Try it yourself.
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When I unplug the power supply for my netbook, the LED decays quickly, but not instantaneously.
Which is more likely?
a) A capacitor that's there for some other reason (smoothing?) is discharging. I know they are they, I've been zapped by one.
b) The manufacturer went to the time, effort and expense to add pulsing circuitry that 99.99% of people won't even notice the effect of.
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I'd say a). Big caps can hold a charge for a while. Most people don't realize you can be fatally electrocuted by a CRT TV that isn't even plugged it if you put your fingers in the wrong place.
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You are correct that the voltage (as referenced from the negative battery terminal) drops by 0.7V across each LED, but that doesn't make the next one in the series dimmer. Kirchoff comes to the rescue again: his voltage law states that the sum of voltage around a closed circuit is zero.
For our case, that means that the sum of forward voltage across your LEDs plus the voltage drop across your current-limiting resistor will equal the battery voltage. Each LED will have the same voltage drop across it (put a
Cool idea, but seems rather limited (Score:2)
Can't make a zero-resistance connection; this is going to constrain things quite a bit. But as a stepping stone to get kids interested, it's great!
My introduction to electronics back in the day was a Radio Shack "65-In-One" electronics project kit. Bunch of discrete components, meter, speaker, photocell, electromagnetic relay, etc. with spring clips that allowed for easy interconnection. It's sad that this sort of thing is no longer widely available.
Better than breadboard? (Score:2)
How is it better/easier to use/more educational than a breadboard?
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