High Speed Photography

With this device you’ll be able to:
take pictures from anything you can sense or detect:
- movement
- sound
- …
You don’t need to modify your camera or flash for this.
It’s compatible with the old High Voltage flashes and the new TTL ones.

Why I did this project?
A friend of me who's really passionate about photography showed me some high speed photography examples. And how expensive the equipment you need is.
I said there must be a DIY solution for that and I started tinkering.
We've done some experiments and you can see the results in the pictures below.
for more pictures from Sanne
see here http://www.flickr.com/people/sannegovaert/

After following this instructable you'll be able to make such pictures too!!

What I would do with the zing
If I win the zing laser cutter then my lab is complete, and will I be able to go crazy.
I'll make: robots, enclosures, front panels, puzzles, build kits, moose heads, etch some cool things
I've been waiting a long time to make this instructable so I could join the zing contest and here I'm

• a phototransistor / photodiode
• just a resistor like 10k

• A led laser diode (ebay)
• LM317
• 1 x Resistor

You can connect everything to an arduino
Or you can make a pcb (see next step) to do the job so you have your arduino free for other projects

connect your lcd to the arduino see the circuit

connect the output of the sensor circuit to the analog pin 0

connect your digital pin 12 to the flash trigger circuit

connect 4 buttons with a pull down resistor to:
- pin6 (delay+)
- pin7 (delay-)
- pin8 (sens+)
- pin9 (sens-)


You can also make a pcb for this i've included the EAGLE files I've used

Upload the code to your Arduino

Use a pipette or a bottle with a hole in the top to make droplets.
Make sure they cross the laser beam.

X = the distance between your pipette and the laser beam
Y = the distance between the laser beam and the surface (in this case a saucer of milk)

the external flash is connected to the arduino with a pc link cable (ebay)

Now we want to know how long it takes from when the droplet start falling till it hit the surface.
U can use this formula (see picture)
(y*2)/(sqrt(2*x*A)+sqrt(2*A*(x+y)))*1000

X = the distance between your pipette and the laser beam
Y = the distance between the laser beam and the surface (in this case a saucer of milk)

A = Gravitational acceleration
to find yours just use wolframalpha
search for: "Gravitational acceleration your country"
(replace your country)
http://www.wolframalpha.com/input/?i=Gravitational+acceleration+belgium

You don't have to make the calculations, because I've made an excel sheet to calculate the time.

After some experimenting
this is what we got :D

Post your results in the comments ;)