@fazergazer
Some of the very best content on YouTube. Engaging, educational, intellectually invigorating ❤
@vargasramosalejandro7675
I'm a Mechanical Engineering student, and I've always been interested in the maths and history of nuclear physics, just found this channel doing some research on critical mass and criticality, pure gold, thank you
@deso425
Excellent videos as always.
@dbp_patel_1994
Please keep making these excellent videos. Really appreciate you teaching us all this material.
@duaalok
Another amazing piece of information. Looking forward to more!!
@n6mz
Incredible content, thank you. I could listen to your analyses all day.
@hypercomms2001
Thank you Dr Diaz... impressive!
@SuperYTPmaster
Another great video. Have you considered making a video on the K-T asteroid impact? I think a physical analysis of its immediate effects on Earth + the atmosphere would be super fascinating. I didn’t find out until recently that out of the 75% of life on earth that died as a result, it’s likely most died within the first 48 hours of impact. The immediate energy release was so powerful that it effectively cooked the atmosphere.
@steveinmidtown
that initial footage is just insane.
@CaptainCalculus
It should be noted that the reason there are those lines in the sky behind nuclear blasts is to measure the yield of the blast.They are some distance (I don't know what distance--500 feet??) behind the blast. by analysing the film rolls you can see when the shockwave blurs out the lines you can calculate the yield using these formulae.
@neti_neti_
बहुत सुंदर प्रस्तुती। 👏👏👏
@AntoniBancells2304Mates
Thanks for your excellent videos. I've enjoyed with your explanation. I'm a high school teacher and this video has inspired a lesson for my classroom. I have taken some information from your video, and I've made a simpler explanation for "dummies". I've used only two photos and measured radius using GeoGebra. I have obtained 9.2 KT. I have checked the calculations, I have compared with yours, and I've realized that the results are very sensitive to the value of n. From two photos, the value that I've estimated is 6.78. Anyway, for pedagogical purposes, for me is enough. I've cited your video for further study into video description. Thank you very much! PS: How are made the graphics into your videos?
@bonetiredtoo
There is always another possibility. Taylor was part of the British delegation to the Manhattan project working on the implosion design of the plutonium bomb and indeed he was at the Trinity test. I wouldn't be at all surprised if he had prior view of Mack's photographs but couldn't publish until they were declassified a couple or so years after.
@cewkins721
Great video once again and a perfect part 2 to the previous one, the math is simple but the meaning and use is great, also i appreciate you publishing a paper on the Beirut explosion, i downloaded the file and it looks great, i still remember that day i was leaving a doctors appointment when i heard someone talking on the phone being confused and scared saying something about an explosion only to come back home and find out what happened on the news...truly terrible
@juansalvemini9270
Muy interesante. Se agradece ver los cálculos en detalle, no solo la historia y contexto. Haces contenido de mucha calidad… nos vemos en los 100k subscriptores!
@RealSigmarDelta
Thank you Dr Diaz! Genuinely interesting. I learned something ❤
@mikeoftheclandobson5483
Yet another fantastic video!! 🙏😁
@samuell4775
At 6:20 expression for E sub zero...2n = log (term).....take antilog....10 ^ 2n = (term).....then E sub zero = 10^2n times rho sub zero over S^5
@dholgadom
Excellent video Jorge!!!
@matthorn6118