Thanks for sharing the video. I am interested in experimenting with a CCTV camera that has a varifocal lens instead of a Canon camera. Could you please tell me the magnification level (X) of the Canon camera you used, taking into consideration the distance from the camera to the diffraction grating?
One potential problem I found is that, you didn't have a collimated beam before it hit the grating. I would guess there was some spectral crosstalk, and thus reduced the resolving power.
Is this video showing how to make a spectrophotometer or is it showing how to make the part of a spectrophotometer that is referred to as a “spectrometer”?
You got the video and all the basic principles; now it's pretty simple to adjust to your own specification. He use a larger sensor, so he could get a better resolution. The real problem is the diffraction grating. A cd is not as precise as high resolution grating. So... the limiting factor is the grating, not the camera sensor here.
Great video! I also want to build one of these, but I'm confused with the Tracker physics. Could you do a tutorial on it and show how to use this software and, for example, correlate the spectra to the wavelengths?
@@kinnblee The software maps the sensor and uses the pixel position and brightness as the spectrum axes. The position of the pixel on the sensor is mapped to a wavelength of light due to the gradient splitting the coherent light (in SMA mode). That's why it needs to be calibrated using a known source. This gives the software the correct "zero point". It would display a different spectrum each time if the light diffracted to a different position on the sensor. each peak would be in it's correct position relative to each other ( unique to the source) just plotted at the wrong wavelength. Then the program uses the forward voltage on the sensor pixel to determine the intensity. Boom bam your picture became a graph. I'm sure there's a Fourier transform in there somewhere too.
@@chemistry4all520 Could you give further info on how to calibrate the wavelength-position? I have read through all the documents in the link in the description and still cannot find how to do the calibration in software
not a better solution unless you only want to view one minuscule portion of the spectrum at ultra high resolution with insanely long exposure times. you have to use the lens to see the whole visible range.
I agree with you@@markhahn0 . It's all in the imaginary band. And it use a different higher precision unit called Bovis. The same unit used in the best pseudoscience field. I'm pretty sure you can also use Bovis units to calculate the volume of the flat earth too.
Very, very nice job. Thanks for taking the time to post and for making the PDF. Greatly appreciated!
Superb work. I wonder if I could use it at my high school here in Japan as an extracurricular project. I miss the joy of doing science!!
Great job !
could you make a video explaining How to process the data obtained by a spectrometer
Thanks for sharing the video. I am interested in experimenting with a CCTV camera that has a varifocal lens instead of a Canon camera. Could you please tell me the magnification level (X) of the Canon camera you used, taking into consideration the distance from the camera to the diffraction grating?
One potential problem I found is that, you didn't have a collimated beam before it hit the grating. I would guess there was some spectral crosstalk, and thus reduced the resolving power.
download link does not work
Is this video showing how to make a spectrophotometer or is it showing how to make the part of a spectrophotometer that is referred to as a “spectrometer”?
Why not tunning it to use with a cell phone camera? Everybody has one.
You got the video and all the basic principles; now it's pretty simple to adjust to your own specification.
He use a larger sensor, so he could get a better resolution.
The real problem is the diffraction grating. A cd is not as precise as high resolution grating. So... the limiting factor is the grating, not the camera sensor here.
Great video! I also want to build one of these, but I'm confused with the Tracker physics. Could you do a tutorial on it and show how to use this software and, for example, correlate the spectra to the wavelengths?
i dont understand how the software cuantifies the amount of intensity.
@@kinnblee The software maps the sensor and uses the pixel position and brightness as the spectrum axes. The position of the pixel on the sensor is mapped to a wavelength of light due to the gradient splitting the coherent light (in SMA mode). That's why it needs to be calibrated using a known source. This gives the software the correct "zero point". It would display a different spectrum each time if the light diffracted to a different position on the sensor. each peak would be in it's correct position relative to each other ( unique to the source) just plotted at the wrong wavelength. Then the program uses the forward voltage on the sensor pixel to determine the intensity. Boom bam your picture became a graph. I'm sure there's a Fourier transform in there somewhere too.
The "Veritassium music"
Nice! Are there any updates on the setup?
Isn't the DVD closer than the minimum FL of the lens (0.38 m aka14.96″)? Doesn't this cause blurriness? Great video. Thanks for sharing.
debe restar la longitud del objetivo, del dvd a sensor. Aunque tampoco parece que hayan 38 cm.
Would it work if you used a BluRay?
Yes, I not sure but I think the bluRay disc his resolution is more high.
Where'd you get that music?? :P
Sounds like veratasium
What angle should the rays hit the dvd at? And did you need to split the dvd layers to isolate the gradient? Many thanks!
aproximadamente 30 grados
from the solar spectrum we can see that the resolution is verry low
What's the software that you are using?
I was wondering what software did you use
I am using the Tracker physics software (by the way, all the details of this project are available in the pdf shown in the description)
@@chemistry4all520 brilliant thanks
@@chemistry4all520 Could you give further info on how to calibrate the wavelength-position? I have read through all the documents in the link in the description and still cannot find how to do the calibration in software
Which software you used ? Is it free ?
gooD, what's name of this spectrometer software? thanks
Tracker
Nice, I’m confused with the wire you are using, what is it?
It's a fiber optic cable to guide the light into the spectrometer
Software name pls?
Tracker
very smart!
❤
cant hear anything and not nearly enough detail =/
I have a better solution, don't use lenses, project the sprectrum directly into the sensor.
not a better solution unless you only want to view one minuscule portion of the spectrum at ultra high resolution with insanely long exposure times. you have to use the lens to see the whole visible range.
Analyse Chemtrails
all energy is in the imaginary band.
I agree with you@@markhahn0 . It's all in the imaginary band. And it use a different higher precision unit called Bovis. The same unit used in the best pseudoscience field. I'm pretty sure you can also use Bovis units to calculate the volume of the flat earth too.