FYI you were doing it wrong. You're supposed to spray it in the lock mechanism for about 15 to 20 seconds. Then you hit downwards on the lock it will break the mechanism not the lock itself. Also I'm curious as to what would happen if you microwave soap. Bar soap, liquid soap and foaming soap. Would they froth up? With a boil? Are they flammable?
justin williams sassy means that in the film the lock was hanging on a chain and when hit with the can (after spraying the lock with the can held upside down) the force is pushing the body of the lock downward away from the shackle where the weakest point would probably be. In this video the force is being applied mainly to the body of the lock which is probably the strongest point. I know the question in the video is asking if the lock would shatter, which I don’t think it would. I think there could be a chance that the lock would open when hit, if hit downward, like in the movie
@@justinwilliams9452 yes but you still have to spray the lock mechanism where the key goes. Trust me I've done this. My bike and high school and if I didn't come home my parents would have my anus in a sling. So I did what any other Canadian would do. I went to the store bought myself a can of canned air and bust of the lock
A flaw with the lock. You had the padlock on the ground while it would normally be locked to something. Try locking it to a chain and have it against the wall and hit it with a downward stroke. This would put leverage on the internal components to break them. Be sure to try to spray between the shakle and body of the lock.
Yeah. While it’s cold it’s definitely not cold enough to flash freeze something. Didn’t know the gas was heavier then oxygen though, that was pretty cool.
Dude just bring a crowbar, avoid the lock entirely. But if it’s something smaller, hit the lock with a sledge hammer, that should work! Tried those myself, actually
@@sharron74 No, he is correct. Look at how the plastic is damaged at the end of the nozzle. That's fairly consistent with melted plastic. When the flame split it also was carried up with the nozzle. If it was simply warped by the heat, wouldn't have produced the double-flame at all.
a basketball has about 0.5bar over atmosphere and a volume of about 7 liter, so that's about 13 grams of air a can has 285g of air, so you would ideally need about 4,5% to fill one basketball if you estimate some loss due to leaking and some loss of pressure due to cooling you would need 6-8% to fill one ball the basketball would behave basically the same, but it would be maybe 1-2% heavier (cool air = higher density), so nothing that you can feel
EPA: always have your a/c system drained and disposed of by a professional. Also EPA: let’s allow them to sell air dusters with the same chemical we say not to release in to the atmosphere
@@mobilek2137 correct, r134a doesnt damage the ozone layer, but it has a high global warming potential due to its properties, which is why the epa doesnt want it vented, but instead, vented
YEAH! They're confused about the non-flamable aspect when they literally can see that the straw has melted. They literally put the straw into the flame!!!!
@@shh11111 that was corn starch, a very fine powder used for thickening soup and gravy. A blast of high pressure air would've covered Nate (and most of that kitchen) in the powder.
I've actually done this before on a locker padlock, you spray inside the actual lock itself and then put a bar in the loop an lever it open 👌 Tried and tested
fire was not from the straw, R-134a is slightly flammable "under certain conditions". it also has the possibility of forming phosgene gas when burned. WOULD NOT RECOMMEND BURNING.
those locks can be broken with just the hammer. lock it to something strong and strike the top to pull the body away from the shackle and it will pop right open.
Hey just letting you guys know idk if you are gonna see this but when refrigerant is mixed with flame it let’s off a very toxic gas that is harmful to the human body. I learned this from working on A/C systems
jglaser is on the right track. Your technique needs tuning up. Spray on the shackle (the part that you want to break) and hit the shackle (the part that you want to break) not the body of the lock ( that you don't want to break. Use the hammer immediately after spraying; don't allow even one second for it to warm up.
That's why they showed that it then extinguished the fire. They arent viewing the same angle we are so it's likely they didnt realize the straw caught fire.
@@daenor7807 This is true. What I meant was that the straw is being melted by the existing flame and releasing fumes making it seem like burning, when really it's just the flame that was already present and some fumes.
This was always my understanding of how it worked. You freeze the thin metal inside the locking mechanism and then smash down on the body to break the locking mechanism so you can then open the lock.
Take a small container, I like to use a capped lug nut held in some vice grips, and fill it with the liquid. You will see it boiling violently while the outside of the container frosts over. Then light it on fire. Yes, it burns quite well. Presto, you can watch something freeze, boil, and burn at the same time. I've entertained many with this little trick, and I think your viewers will enjoy it.
A few issues with the test first the lock should be hanging Second you should be applying the spray at the base of the shackle so it goes into the lock body which brings us to number 3 you should have been applying downward force on the lock body in hopes of snapping the thinnest part of the shackle where the locking paws engage with the shackle
To some extent I feel like Nate kinda babysits Cali and I feel like if she was alone the kitchen would be on fire with an unknown substance all over lol 😂😝😆
