Dope Tech Episode 2

<<@Omkar-j8b says : Spring in series to Spring in parallel. Spring constant inc. Means should go up>> <<@ru2yaz33 says : Free body diagram, when the green rope is cut it will go up because the springs will now be in parallel.>> <<@Treofis says : The bait that this short was does not entice me to watch your videos, it encourages me to avoid your shorts. Cheers.>> <<@likhith-lexus says : First video of veritassium which I disliked. Don’t bait. Just put the answer here instead of begging us to watch full video>> <<@divinefemininewarrior1234 says : ❤️>> <<@Nikolay-6699 says : ك🐟>> <<@MathClassses says : Y'know, this actually was my first thought process: Since the red rope was actually tied higher than the green one and at the same point at the weight, it'd either go up (depending on how much tension the rope could take) or stay the same. Ramblings of a 13 year old.>> <<@zackmollusc3522 says : The cutting the string is very dependent upon initial conditions. The weight will only go up for a very specific strength of spring, length of springs, length of strings and amount of weight. It is like when something resonates, it only happens with a particular frequency.>> <<@martinlawless820 says : What a knob>> <<@robertgaubatz2306 says : WOW. NICE CLICK BAIT>> <<@billpii6314 says : WTF? BYE BYE>> <<@KnakuanaRka says : 0:25 No, it feels like it has a mechanism where something is forced into a position with tension, and once you pull it into the right place, the tension is able to pull back.>> <<@MissM-c3t7k says : The red string is attached to the ring at the top so after the green string is cut the length of the red may increase by a few mm?>> <<@rhopejumper says : I like your content, but I really do not like these cliff hangers. You spend way too much time talking about this thing you could’ve easily shown what happened.>> <<@richardtyler6472 says : Nah bro fk u. I’m out that actually psses me off.>> <<@rosso_corsa1 says : That's unsubable>> <<@meditamv says : I got it right in case one spings are in series with its constant lets say k/2 (assuming ndividual springs have k constant) but after we cut green rope it goes in parellel thus new const is 2k , now force = constant x elongation and as k inscreases and force remains same the elongation must dicrease by about 4 time , however we can see that the red and black strings are slanked with green rope and when they get in tension some more lenght is added to toatl scaling meter>> <<@PreNeverStops says : It will go up because two springs in parallel are much stronger than two springs in series. It goes back to his point about the muscle width and sarcomeres. I haven’t watched the video but that’s what my physics knowledge tells me>> <<@singatha-64 says : Hi I am 13 years old boy when you cut the green rope I will go up>> <<@Chargoggagoggmanchauggagog-w6o says : You can't be serious rn💔🥀>> <<@naveensawlani628 says : What happens... Unsubscribe...>> <<@SeanZapatos says : Go up, go up to heaven, go up, if you cut>> <<@JohnyCanoni says : Is it gonna go up?>> <<@G00FYG00BERRrR9 says : He’s like the Zack d films but better🥹🥹>> <<@Elzie-Nou says : It will go higher because there will be no tension on the springs. They will pull back up and the tension will be on the white and red strings instead.>> <<@sophiegroarke says : It's saying nope 💀>> <<@thatguypliers1892 says : Pull the weight up it will lose the entire length of a spring.>> <<@virupakshawalla5734 says : Fuk off with this watch another vid crap. Unsubsribed>> <<@Foremarkex says : cutting the green takes the springs from distributing force in sequence, to doing it in paralel, doubling the resistance and halving the load per spring.>> <<@ryanshewchuk3111 says : What a bunch of b.s.>> <<@techburnsca says : it will go up because there'll be two springs pulling the weight when you cut the green wire connecting the two springs>> <<@Gabrielmhh says : Oh man this kind of video is annoying. I can spend 23 minutes for an explanation video, but clickbait is not the way to attract people. If anything, it just makes me want to avoid your videos in the future to avoid clickbait>> <<@abodpoper2 says : I was going to subscribe but no i will do the opposite don’t recommend this channel>> <<@lancepeterson7997 says : I FINALLY figured it out!! The springs contract because they lose tension, but stop contracting when they come into pressure against the rope, connected to the opposite anchor point, the holds. That’s why it goes up, then stops>> <<@ShanBojack says : There's no link attached in the comments or in the description what the heck>> <<@wydk01 says : 10:35 is the exact time on long form video>> <<@RidersofRohann says : Before cutting both the springs are in series. They act as one. After you cut the rope they are in parallel. In first case the elongation of both springs is added together. In the second case it is not added its just the elongation of a single spring, hence when you cut it the weight moves up by value of the elongation of a single spring. Total elongation in series = L +L = 2L Total elongation in Parallel= L Elongation After cutting - Elongation before cutting= L -2L= -L>> <<@ImaniMuyora says : cool😮😮😮😮😮😮, what actually happens here>> <<@matthewtymon2090 says : I think it's going to go slightly up and then go down atleast until the slack on the ropes tighten? Was I right? Was I wrong? Time to go to a different video to find out 😫>> <<@julixpinguimon says : I did NOT consent to getting blueballed>> <<@TopG-Ooner says : you break the green rope then the red and black would tighten as it falls a but then quickly they would pull their respective springs to each other and it would go up the length of the green string I think>> <<@Mohamadreza_13 says : Why being such a dick? Just show what happens..!>> <<@michaelludwig120 says : Just for that, I'm not even clicking. I'm going straight to comments.>> <<@runthomas says : click bait for trying to get you to give him more money and waste more of your time>> <<@longdang3379 says : to think that this channel is going to stoop so low like this. Bro you got 10mil views average on your videos. what else do you want you greedy bastard>> <<@misternotepad says : Nice try, V Diddy.>> <<@patrickkennedy6439 says : Riot>> <<@goldfishi5776 says : Series and parallel resistance>> <<@GH_Tech7 says : Awfull person leave and never return>> <<@kartiksingh-ko2lz says : Can we build spiderman strings with this if we build this mechanism at the nano scale. I have seen mechanisms that can make things stick to surfaces. Combining these would be awesome>>