I love your channel whenever I'm bored or my mom is getting on my nerves to watch something "educational" and then I just tell her to leave me alone bc ur vids are educational 😉 great job
I don't know whether you have seen my comment on the previous video but here it is. I want you to do a experiment that what happens when a snake venom is dropped into a real blood?
Depends on the venom, some will cause the blood to turn to a nasty brownish paste by bursting the red blood cells, some will cause massive sudden coagulation turning the blood into one big clot, some won't do much because it's only affects the central nervous system and inflammatory responses.
@@AtlasReburdened Yeah appreciated bro. I just wanted to know about it and our Science teacher also gave us about it as a homework. That's sick homework, right? I just copied your comment and let's see whether if he likes it or not. I hope he loves it and I will tell you what he told about it. OK.
Adarsha Basnet Actually I think that's pretty neat for science homework. A bit on the macabre side, but still cool knowledge. Since it's academic I would get a bit specific though. There's 4 major classes to the proteins in snake venoms that make them harmful. Cytotoxin venom ruptures cells and essentially digests flesh, and should turn the blood into a disgusting goo. Some Hemotoxin venoms cause massive clotting, while some actually prevent clotting and promote internal bleeding and bleeding from the wound. So depending on exactly what type you have, you may see the blood gel or become more runny. Nuerotoxin venom is what affects the nervous system and you might not see any effect when just poured into blood. Cardiotoxin venom acts mostly on the muscles surrounding the heart and again shouldn't show much affect when only in contact with blood. Here's a short clip of a coagulating type hemotoxin venom(from a Russel's Viper) in action against about 1/4 cup of blood. ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-4CQKLiwQCIs.html
Pure sodium makes me uncomfortable. This was 10 years ago, but our professor put some in water and even he seemed freaked out by the reaction it took because it literally left the jar and went into the classroom.
Dun dun dun da dun da dun da da da da da DUN DUN DUN DUN DUN DUN....DUN DUN DUN DUN DUN DUUUUN.....DA DA DA DA DA DUUUN..... DA DA DA DA DA DUNNN!!!!!! I’m sorry😐
I am an AP Chemistry student at my high school, and these videos are fascinating to watch! It's interesting how you can test these at home experiments and be so knowledgeable. Thank you for continuing to make amazing wholesome videos! - Sam
That yellow sodium has become a delayed explosive. You can trick your friends into thinking you dropped your cheese snack into a fountain, then run and witness their confusion. Just kidding, don't do it. That stuff can blow a whole toilet bowl apart. Please do not attempt to do it.
I really would love it if you could do a video about "dry water", which "is a water-air emulsion in which tiny water droplets, each the size of a grain of sand, are surrounded by a sandy silica coating" (wikipedia)
Oh yeah, make sure you mist some water everywhere the sodium exploded toward to find all the unreacted chunks. You don't want a small piece embedded in something flammable to randomly light off next time the humidity gets high.
I wish after he said "uh-oh something is happening" he would have cut to the outside of his house and just shown a huge flash of light come out of his garage and then cut back in and show the smoke and his clothes torn.
Hey why did the sodium turn yellow from being dried out? Also I can't tell you how much I love science. You're my motivation! It almost looks like magic happening in your garage, lol. Who's that little robot guy too? He was awesome! Sorry for so much text I just had to say something! Thank you so much!
I think the reaction was a kind of saponificication reaction with the oil in the neverwet and the sodium hydroxide created with the moisture in the air.
From the distinct yellow color (and that explosion at the end) my intuition tells me it either formed sodium peroxide or sodium super oxide. I'm going to look into it becuase I have sodium and never wet. If that is the case, it could actually be a pretty cool way to make NaO2 or Na2O2
I've usually handled sodium metal by containing it in oil. This guy was just manipulating it in open air which has humidity. Could have popped in his hands, no??
@@infinitepower6780 Yes, the coat of oil blocks the never wet, but also blocks the humidity in the air. Maybe it's just me, but I've never handled straight up dry sodium metal with nothing coating it because it reacts to any moisture anywhere. This guy is brave to handle even gloved. I would use metallic autoclaved tonsils to avoid moisture. Just saying. 👍
The moisture in the air isn’t enough to cause an explosion but it does get warm on the outside of it is covered with sodium hydroxide so it will burn your hands. And yes I cannot have an oil layer on it for the spray. so that’s why I had no oil.
Wix or Squarespace? The war begins I kinda feel sorry for the bread like you're wasting a perfectly fine slice of bread "Water" "More water but now in blue" (As in the pie chart meme) OK but now imagine sodium doesn't explode. Try to get the chunk out of the tank.
Neighbours are like”there goes that made scientist dude again!” I dare you to have a truck back up your driveway with nuclear safety logos on it. Your neighbours would freak.
Congrats, you made a bread sponge. Edit: oh goddamnit he said it 15 seconds after I paused and made this comment and now my joke is ruined because people will think I copied it and I’m a fraud now
Because never wet is a coat and the inside would still get wet if it wasn't there, if you put never wet on half a paper towel and wet the other half would it go under the never wet coat and soak the whole paper towel??
Fire has a mass, but at the energies that most fire operates at each of the individual components is buoyant in our atmosphere, and thusly does not weigh anything when referenced against other things that are common to our experience. It does technically still have a weight, but to measure it you would have to remove the earths atmosphere and weigh the fire inside of a massive enclosed chamber with R10,000,000,000+ insulation and a perfectly mirrored internal surface to get any level of accuracy in the measurement which would show the difference between the weight of the combustion products and the sum weight of the combustion products during combustion, the difference being infinitesimal.
Imagine if the sodium didn't explode, though. It'd probably be scary to approach it since it might just go off unexpectedly. Just like those leftover fireworks after New Year, etc.
Sucks? There is no such force as "suction" in physics. Differential pressure, where the ambient air pressure forces (pushes) the water into the bread is accurate. A PhD saying "sucks"...well just sucks.
I think the yellow colour of the sodium compound created may be sodium sulphide? Online images of sodium sulphide have the same colour as yours and many sulphur containing compounds are often yellow. I could be wrong, just an educated guess, so it depends what the chemical make up of the never-wet solution is.