I know but the library of the thermocouple sensor throw out celsius values so we still have to convert so I can sum. I can also convert my sensor values from °C to °K that's not the problem :)
@berkeman: I'd like something more professional/accurate and which make me feel a genius :D I think my...
No way; the PCB isn't mine. It's a commercial router (It's called "banana pi bpi-r1" which is a cool piece of hardware but cool in the wrong way eheheh...) so it's multilayer (don't know how many but surely 2 at least: top and bottom). Also some ICs are BGA so drilling is a no go :( It's an...
Homework Statement
Hi all,
I have a question about using peltier cells for both cooling and reading temperature in the same moment.
I need to cool down a couple of Integrated Circuits so I'll put put a 20mmx20mm peltier cell over them but I cannot read the cold side of the cell because it's...
I know. if so it wouldn't be a "double slit experiment" but a "single slit experiment".
It was an example to try to explain what I wish to achieve and how I get to that.
but waves have to "communicate" if "mixed". one of the main feature of a wave is to "interfere" with another wave (even of...
but what's the resulting frequency of the interference wavelength using different wavelength at the source? but first off: using 2 different lightsource (one for each slit) still produce interference? or maybe polarize the shined light only in one of the two slit to obtain an armonic wave and to...
in fact I said "for example" because I don't actually know what is the result of shining two different wavelength on the same spot. anyway I wouldn't do that. I actually think that shining two different armonic wavelength in each slit (so hitting different spot) would produce a sum of those...
I looked at that material but it doesn't invalidate my thought: if I'm right using a source light with a frequency in a slit, armonic to another light in another slit on a surface, the interference stripes would show a sum of those frequency.
for example: shooting in the first slit a 700nm (red)...
and what about if they were like bullet shoot on a thiny foil? they would actually be particles but produces a wave effect. so when you look at them they are particles but the seen effect is wave... could this be an explanetion?
and about the noisy stuff: I confirm that. I read that...
hi!
first of all: I take the opportunity to introduce myself and to say hello to every member of this forum.
now. I'm not a pro-physicist: I'm a programmer/3d graphic artist/musician/and everything else curious; so go easy on me :)
I was seeing a BBC's documentary about "what is reality"...