Why Snatch Blocks are AWESOME (How Pulleys Work)  – Smarter Every Day 228
Why Snatch Blocks are AWESOME (How Pulleys Work) – Smarter Every Day 228

– Hey, it’s me, Destin. Welcome back to Smarter Every Day. It’s time for the pulley episode. These are like my favorite
things in the whole world. I bought this one, it looks
like it goes to a boat or something like that. Pulleys are one of these things that everybody knows about. They know that somehow, a pulley will give you mechanical advantage, but people don’t really understand it. We all pretend like we do, but the person that really shows up,
and is really clever, and they arrange it in the perfect way and they just make things work, that’s like the smart person
that everybody wants to be. So today, on Smarter Every Day, we’re gonna make a video about pulleys, and we’re gonna slowly
walk through how they work. And specifically, I wanna introduce you to my favorite type of pulley,
it’s called the snatch block. They’re really fancy, they can do tricks. Okay, let’s start by picking
up these cinder blocks. My kids are gonna show you
how to pick up blocks, right? If you have to pick something up, you have to pick up all of
the weight of the thing, and, whether you know it or not, all of the weight of you. How you doing, good?
– Good. – You can put it back down. How hard was that? Not that bad? The magic of a pulley is
really the magic of a rope, because a rope is always in
tension, you can’t push a rope. If you pull on this side of the rope, that force transfers all
the way through the pulley, so you basically can redirect the force. That is the primary function
of a pulley, redirecting force. (child grunts)
That’s pretty good, how was it? – Hard. – The pulley changes the
direction of your body weight, so you can use your own body weight to help you pick something up. Very good, was that hard? Not as hard.
– Not as hard. – Not as hard as what?
– Just picking it up. – Okay, so it’s easier to
pick it up with the pulley because you can kind
of lean into it, right? – Yes sir.
– Right. – So this is the part that
starts to confuse people. If you can change the way
the pulley are arranged, you can make it even
easier to pick this up. Do you want the normal
pulley, or the snatch block? – The snatch block.
– Snatch block! There you go.
(pulley clacking) Go for it. So you split it apart, don’t
cut your finger off there, there you go. So this is the magic of a snatch block. We can put a pulley in
any place at any time as long as there’s a
rope, and the snatch block is big enough for the rope. This is the part where
when you see it happen, you’re like, “Oh yeah,
of course it’s easier, “because of pulleys.” But if you don’t stop and think, you won’t really understand
what’s happening. So slowly pull, is it
really easy this time? – It’s a lot more easy.
– A lot easier, okay. So, this is what’s happening: the tension in the rope right here is being redirected by this pulley because that’s what pulleys
do, they redirect force. But down here with the snatch block, we’re doing the same thing,
we’re redirecting the force. But you have tension in the
rope, and tension in the rope. So all you do is you put
tension in a rope somewhere, and then you add up as many
ropes as possible on the thing, and that’s how you get
mechanical advantage. So in this case, how much
force is on the cinder blocks, do you know? – Two. – Two times the tension. I don’t know about you, but I
understand things a lot better if you can work with it with my hands. So I 3D printed a bunch of
pulleys and snatch blocks, and we’re gonna rig these
things up and generate a model of how we were picking
up those cinder blocks. When I pull on this rope,
that tension transmits itself all the way through the
rope to the very end. Wherever the rope is,
there’s also tension. If I pull here, think
about the word pulley, it pulls on the rope on the other side of the pulley right there. That pulls on the rope
there at the bottom, which then pulls on the
rope on the other side of that pulley, which
ultimately pulls against that hook at the very end. All of the ropes are in tension. Now, if you look down
there at the cinder block, you’ll notice that there are two arrows pulling up on that pulley. That’s why we get twice the
force on the cinder blocks. But what if we wanna pull harder? Can we just add more ropes and tension? Yes, we can using this. It’s basically a double pulley. Some people call this a block and tackle. Instead of two ropes pulling
down here, we get four. Just a little bit of force
here, even with my pinky finger, that’s like 10 pounds of force by just barely pulling at all. This is the same number of ropes, and pulleys and everything,
it’s just flattened out so we can see what’s going on. So, I’ve got a scale. I’m gonna attach a scale
to the input of the rope, and remember, if we put input tension, that tension goes all the way through. So as I pull here, I have
one, two, three, four ropes connected to the thing we’re pulling. So if I put two pounds here, look at that, I get eight pounds on the output. That’s awesome! I’m getting four times the force, but I’m only moving it 1/4th as far. How far do you think we an go with this? You think we can double it again? So now we have two blocks
with four pulleys each, which if you count all those up, one, two, three, four,
five, six, seven, eight, we have eight ropes in
tension on that block. So as I pull here, look
at this, that’s nuts. That is a little bit of
force, and a lot of output. That is some serious mechanical advantage. Look at this though, the
ropes over close to me are moving a lot, but
the ones over near you aren’t moving as much. Let’s break this thing apart again, and see if we can
understand what’s happening. This is so awesome!
(board clunks) Oh man, that’s a great shot! Okay, so here’s what we got:
we’ve got one input pulley, let’s count up the tension again, one, two, three, four,
five, six, seven, eight. I put two pounds here on the input. Oh, that is a lot of force on the output. Do you remember on the block and tackle, the ropes we’re moving at different rates? Well, think about this. On this side over here,
that rope is tied up there. It’s not going to move. On this side, I’m pulling the rope. It has to move as much as I pull it, and the same is true for this one, because it’s just redirecting that string. But after that, everything is affected by how much this moves. So, just playing around with it here, you can see that these
ropes move a whole lot more than that one over there
that doesn’t move at all. There’s a lot going on here. Not this is the sort of thing that, yes, you can probably explain it with words, but if you have a
fundamental understanding of how this stuff works, and
you just know how to use it to your advantage, you can get yourself out of some really interesting situations. For example, the other
day, the driveshaft broke on my buddy, Jeremy’s truck,
and we had to figure out how to get his truck up
onto a flat bed trailer without a winch. Snatch block! We rigged up a pulley
system so that we could pull his entire truck up onto the trailer using only ratchet straps. We figured it out, but because we were trading force for distance,
it was taking forever. That’s when a nice guy
named Jeff showed up. He drove up, offered to help,
and instantly understood our pulley system, and knew
what to do with this truck. We disconnected one of the ratchets, put Jeff’s truck in it’s place, and pulled this truck up until
the rope hit the trailer. One thing I love about Alabama
is nice people like Jeff just stop and help you,
and the instantly know what’s going on. For example, watch how
quickly Jeff figures out all the mechanics once I tell him we have an extra snatch block. (engine idling)
Oh, I’m so excited, we’re gonna do a double snatch block! Oh, this is great! Is I’m gonna put that one–
– It’s locking on the block? – Yeah, yeah.
– Okay. – If you’ll point that direction. – Yeah, I’ll do it. – [Destin] I’m gonna level with you, Jeff is the kind of guy I
wanna be when I grow up. Watch how he just picks up a snatch block and starts working. He just knows what to do. Also, his hands are just amazing. Watch this man work. (engine idling) Snatch block engaged.
(Jeff chuckles) How many snatch blocks you got? – [Jeff] About five. – [Destin] Dude, I’m a
amateur, I only got two. (Jeff laughs) – [Jeff] I got a triple. – [Destin] You got a triple? Like a–
– A wooden triple block. – [Destin] A block and tackle? – Yeah, that’ll work.
(chains clang) – Oh, dude, that’s a thing
of beauty, my friend! Any day you can use a
snatch block is a good day. So yeah, snatch blocks can get
you out of a hairy situation, knowing how to use them
can help you make friends, thank you so much dude, and they can also be a ton of fun. Zip lines are basically
just snatch blocks. You have the ability to
break apart the pulley and you can insert a cable into it without having to disconnect
the cable from either end. That’s essentially the
definition of a snatch block, a pulley where you can insert a line without having to take apart your line from whatever it’s hooked to. Snatch blocks are amazing, and where else can you get amazing views
of the rainforest canopy like this without having a snatch block? (fast forward zip lining) (pulley clanging) Muy bien.
– Amigo. (metal clanging) Can you hold this, then?
– Si. That’s awesome!
(girl chuckles) (Jeep engine roars)
(grasses rustling) Okay, so you can do a
video about snatch blocks without getting a Jeep
stuck, so let’s go do that. Let’s say you got the Jeep stuck. You might be tempted to
find the nearest tree, pull the winch out, and pull the cable directly to that tree. What do you think, Jeremy,
winch is the way to go? – Winch is the way, well, a
snatch block is the way to go. (men laugh heartily)
– Good answer, good answer! If we pull that winch out
directly to that tree, we would only be able to pull the Jeep with the force that that
winch is able to apply. Snatch block! We’re gonna snatch block
this bad boy out of here! What you actually wanna
do is put the snatch block on the tree side, then take that hook, and you hook it back to the Jeep, and so you have twice the pulling force with your snatch block. Alright, you got the winch, right? (engine idling)
– I got the winch. – [Destin] Okay, here we go. Cut the engine off and put it in gear, and just see if it’ll pull the Jeep. – [Jeremy] And like drag it, okay? – Yeah, see if it’ll just pull it. – Ready?
– Yeah. (cable motor running) Oh, that’s scary. That’s a lot of force, dude. – [Jeremy] Yeah, man. (cable motor running) – That’s good. Dude, that’s a lot of force, man. – [Jeremy] Yeah, man! – Thoughts?
– Alright, man. Snatch blocks are awesome, man. (men laugh) – There’s a type of pulley system we haven’t talked about yet,
it’s a compound pulley system. You remember the block and tackle, we had an eight-to-one
mechanical advantage? Well, this has the some
mechanical advantage, but it does it a different way. You remember we add up the
tension on these ropes, and we have one plus one is equal to two? But if we have two plus
two, it’s equal to four, and four plus four is equal to eight, we can come up with an
eight-to-one mechanical advantage just like that with less pulleys. This is fascinating, and
one of the first people to come up with this concept
is a guy named Archimedes. To learn more about Archimedes, I went to make local
library, and got a book by a man named Plutarch,
who mentions an interaction between Archimedes and
King Hiero of Syracuse. It’s a really interesting story, but it’s gonna be even
better if I tell it to you with this flannel board. So it goes like this:
Archimedes writes a letter to King Hiero of Syracuse, and he’s like, “Yo, King Hiero, I’m really
good with pulleys and stuff.” And Hiero’s like, “Why
don’t you prove it?” And Archimedes is like, “Well, I will “if you give me a war ship.” And King Hiero’s like, “Yo,
dog, here’s your war ship.” And the Archimedes is like, “Yo, dog, “I hear that you like pulleys. “I got pulleys on pulleys on pulleys.” And the Archimedes does something amazing. Under his own physical strength,
he pulls an entire war ship out of the dock, which
totally impresses the king because that’s what happens when you know how to use pulleys, you impress people. So people have been using
pulleys and snatch blocks for thousands of years,
and they’ve been impressed, all the way back in the
day with Archimedes. But they’re gonna be
used for thousands more. That’s why you need to know
how to use a snatch block. Don’t take my word for it though, I’ll let Veteran Astronaut
Commander Chris Hadfield explain it from his point of view. – The biggest difference
between being on Earth and being in space is
that you’re weightless, and when you’re floating
around weightless, like on the Space Shuttle, it’s
really hard to get leverage. You can’t dig your feet in, you can’t use the weight of
things to hold ’em in place. So having a way to hook on one
end and hook on the other end and apply a steadily increasing
force is really important. And that’s why on board the Space Shuttle, we have snatch blocks. They’re part of normal equipment. In fact, there’s a special
stowage block for them that contains a couple, and
they get used pretty regularly, both inside the ship, an
even outside on a space walk. You’re in a problem, you have a load, you have to pick it up, what do you do? Snatch block! (metal clanging) (Destin laughs)
(girl laughs) It’s kind of funnier when
it doesn’t work, isn’t it? Snatch block!
(metal clanging) Snatch block! That is exactly what you want. You wanna be the person that knows how to use the snatch block, understands mechanical advantage, and gets your team out of the situation. Snatch block! Snatch blocks are amazing. I wanna tell you something
else that’s amazing, and that is the sponsor for
this video, which is Kiwi Co. Kiwi Co is like having pure
curiosity mailed to your house to ignite the mind of a child every month. And recently, I got to take
my boys to headquarters, and we got to meet the
people that design the kits. The boys gave them feedback
on what it was like to build and play with
each one of these kits. In one case, my oldest son
collaborated directly with Rebeka whose a kit designer to
troubleshoot something she was working on. – But you pull this up, and so like, the plane that hits that
instead of your hand. – [Destin] In a matter of seconds, she prototyped his proposed solutions out of toothpicks and string,
and they tested it out, and it worked. – Yeah! – This was a really big moment in his life.
(Rebeka chuckles) It was super fun meeting these designers, and seeing how they come up with all the different ideas for the kits, and how they make these
really clear guides that go in the box so the
kids can make these things. These kits are incredible. They teach kids all kinds of subjects, like mechanics, optics, geography, art. There’s a specific kit
that is an ideal match for any kid in your life who you love, and you wanna inspire to be
more curious and creative. I love this company, I’m very proud that they’re a sponsor
of Smarter Every Day, and they just have a lot of heart, and I think that’s very evident if you meet Sandra, the Founder and CEO. Can I ambush you in your office? – Absolutely.
– And ask you some questions? – Yes.
– Let’s go. Where’s your office? – My office?
– Yeah. – I don’t have an office, I have a desk. – Can we go to your desk.
– Sure (laughs). – Okay, you don’t have an office? You’re the boss. – We have an open office environment. – [Destin] So why did you start Kiwi Co? Now, you’re an engineer yourself, right? – I am an engineer. I grew up making a lot of stuff, and once my oldest two kids got to a point where I wanted them to start making stuff, I started to compile materials and ideas. And one of my friends was
like, “This is so much fun. “You should start a business around this.” Yes (chuckles)!
– So you created this company as a fusion between parenting and the desire to have your kids tinker? – Exactly, I wanted them to be hands-on, I wanted them to see themselves as people who could create things. I hope these kids grow up not only to be scientists and engineers, but people who do make a
positive difference in the world. So I think that has been really great, and hearing about the quality time that people spend with their kids. We want kids, and families, and parents to come away from the
experience with Kiwi Co, and just be like, “Whoa, awesome!” That discovery, excitement, fun, wonder, hopefully all that packaged in a box, (laughs) and that gets delivered to your door.
– Literally in a box. – Exactly. – [Destin] Thank you so much for making this company.
– Yeah! Of course, my pleasure! Thank you for your support. – [Destin] Oh yeah, do you
remember how we started? – No.
– You don’t know how we started.
(Sandra laughs) I called the company before you
did anything on the internet and I asked if I could
sell your products online, before you had ever worked with
any influencers or anything. – We so appreciate that. – [Destin] It was really good, it was really good.
– No, we really, really appreciate that. – Do you know what the promo is? – Yeah, you get a free crate! – You get a free crate?
– Yeah! – [Destin] That’s awesome! – That’s what you get. – [Destin] KiwiCo.com/smarter, right? – [Sandra] That’s right, and
we’ll send you a free crate. Any line you want, you pick. – [Destin] And people get to pick, and you’re gonna send it to them yourself. – Abs, what?
(both laugh) What are you signing me up for (laughs)? – You’re gonna have the team do it. – We will send it out to you. – There you go, KiwiCo.com/smarter,
get a free crate, pick out the line that’s
best for your child, or in the case of a Eureka
Crate, what’s best for you. So, that’s awesome. Thanks for your time. – Yeah, absolutely. – Thanks.
– Thank you. – I’m Destin, you’re
getting Smarter Every Day. Have a good one, bye. (speeding traffic) There’s a road crew on
the side of the road repairing the guard rail
with a snatch block. (speeding traffic) Thanks, man. – Yeah, man.
– Have a good one. – [Crew Man] You, too. – (chuckles) It was kind of
weird, I pulled over and said, “Hey, can I check out your snatch block?” (laughs) And they we’re like,
“What are you talking about?” (laughs) Pretty cool, though. (speeding traffic) I should get back in my truck.

100 thoughts on “Why Snatch Blocks are AWESOME (How Pulleys Work) – Smarter Every Day 228”

  1. SmarterEveryDay says:

    Snatch Block!
    I want to take a moment to thank those of you who support Smarter Every Day on Patreon. I'd also like to point out 2 things about this video.
    #1. You'll notice Jeremy Fielding is in this video. He's the "Contraption Fabricator" that's started working with me now because of your support on Patreon. He's a great designer, father, and friend. You'll be seeing more of Jeremy around thanks to those who support at https://www.patreon.com/smartereveryday/
    #2. If you'd like to 3D print the Snatch Blocks and pulleys we use in this video they are here: https://www.thingiverse.com/thing:4022579
    #3. I really enjoy KiwiCo and I think you will too. I got them as a Christmas gift for my children years ago, and it was a huge hit. It was after that experience that I reached out to their team and asked if I could advertise for them because of how good it was for our family. I think you'll enjoy it too. https://www.kiwico.com/smarter
    It was 3 things… I ended up pointing out 3 things.

  2. Rouge Goat says:

    When you got to the sponsor i thought you were going to say snatch block

  3. Bobcat665 says:

    Forget the block , I just want the SNATCH . 😏

  4. Oscar Joel Cruz Clemente says:

    At 8:47 he is Wrong saying that "putting the snatch block on the tree side and taking that hook and hook it back to the Jeep you would have TWICE THE PULLING FORCE". In fact it is the SAME THING as if he would have pulled directly to the tree. The winch pulled the WHOLE WEIGTH of the Jeep. In order to have what he thought (twice the pulling force), he would have needed not a SINGLE pulley but TWO pulleys (or snatch blocks). He should have mounted ONE of the snatch blocks ON THE TREE and the OTHER ONE ON THE JEEP and finally tied up the end of the rope ON THE TREE, then and just then he would have had TWICE THE PULLING FORCE.

  5. Matthew DeLong says:

    shhhhhhh! quiet in the library. great video, liked and subscribed!

  6. Emanoel Barreiros says:

    Why doesn't kiwico ship to Brazil?! This is so sad…

  7. morgality says:

    I need to buy some blocks.

  8. Andrew B says:

    The 1.1k dislikes are the people who still don't get it!

  9. pikanoob says:

    This man is trying his hardest to disprove Alabama stereotypes

  10. Evan Cook Music says:

    now remember kids you can’t push a rope

  11. bebo2112354 says:

    Immediately knew this episode would be awesome. Thank you for teaching me about mechanical advantage. So looking forward to physics class now

  12. Елизавета Майор says:

    Got stuck in the mud?SmarterEveryDay: Snatch-Block!!Need a War ship lifted?SmarterEveryDay: Snatch-Block!!Best tool in Space?SmarterEveryDay: Snatch-Block!!

  13. Martin Dominikus says:

    amazing stuff as usual!

  14. Joe Buck Hoff says:

    SHHHHHHhhhhh no talking in the library!!!

  15. Louis says:

    The issue with adding all those lines is the significant force you’re placing on your anchors. If you put 8:1 MA on the cinder blocks, you’ll end up with like 8:1 on your anchors. All of a sudden, a 20 pound load is putting 160 pounds on your anchors.

    You also significantly decrease any MA you have as soon as the ropes aren’t parallel. So in your truck example, your not pulling straight down, your lines are at like 45’s, so a big chunk of MA is lost and the load factor goes up on your anchors. Suddenly your MA becomes more of just a change in direction.

    In your winch example, you’re putting 2x the force on that tree by adding the snatch block verse 1x if you just wrapped the winch around it. So your your load factor on that anchor doubled and for what? There’s no MA gained on the Jeep side because 1 goes in, 1 goes out but 2 gets placed on the tree. That would work if you wanted to pull the tree or something on that load side. The Jeep is your anchor point in this case, so nothing gained in pulling the Jeep.

  16. Arnold Schultz says:

    Your pully/hook at 0:06 is held upside down… it is a 3 to1…the rope working end is secured where your left hand/thumb is…. rope goes up, around another pully(double) and down around this single pully and back up to the ganged second pully and then free-standing end to pull down on… when set up it can be referred to as a Luff or Watch Tackle. ps love your channel…

  17. South Jersey Gambler says:

    Take a shot every time he says snatch block

  18. Michael Battaglia says:

    Snatch block… SNATCH BLOCK!

  19. Tufenuff83 says:

    Future engineer here…. taking university physics at the moment… and I love how I understand this.

  20. djt2412 says:

    @Justin you might also enjoy playing with a 'snatch strap'. Very popular here in Australia and involves some neat physics. I wonder if you can combine snatch straps for greater effect??? 🦘🐨🚙

  21. GingerNotANinja says:

    I've used a lot of 'snatch block's' in Outdoor Rec, they're a pretty standard part of kit in Abseiling/Rapel rescue kits

  22. Rouverius says:

    Psalms 111:2 – "Great are the works of the Lord; they are pondered by all who delight in them."
    Including the physics behind….. SNATCH BLOCKS!

  23. The God Emperor says:

    Anyone else think of Dr. Stone with Senku and Kohaku? 😛

  24. squawk3000 says:

    Great video!!

  25. Pear says:

    Destin: “it’s like my favourite thing in the world”

  26. dem0n1k says:

    Hahah! Loved the comedy snatch block montage 😀

  27. Евгения Симакова says:

    Я хочу поставить сотню лайков здесь. Помимо того, что это невероятно круто, ещё и одна из самых классных рекламных интеграций!

  28. Lin Yen Chin says:

    Would you say this is mastery of kinematics? Is it a linking of action points in the flow of force?

  29. Jason Swayden says:

    Snatch block!

  30. Paul Smith says:

    We started KiwiCrate for my two kids (2 & 6) and my sister’s (5 mo & 4 yrs) cause of seeing you mention them Destin! Keep the great stuff coming, and seriously, partner with them and give us vids of you and ur kids building the crates, explaining the lessons, and then myth busting it by amping it up with larger than life applications! We’ll build them right along with you!

  31. M4 Justice says:

    You have to be careful, when using force multipliers, not to overload and defeat your weakest point of contact.

  32. Alex Gilkison says:

    Is that mark river in the front middle at 13:48


    I am now smarter. Never knew a snatch block existed.

  34. BEEGEE FLARE says:

    I thought you were sponsored by SNAACTHHBLOOCK

  35. salami bad says:

    I think you just like saying snatch-block

  36. nate hepler says:

    Pulley friction.

  37. Robert Ruork says:

    I am constantly inspired, educated, and amused by your presentation of the physics of the world around us. How we use the myriad gifts the Lord has given us to manipulate His creation, within the laws and constants He set out the moment He spoke it into existence, are a joy to discover, consider, and build upon.
    They are an eternal reminder of His love, and I thank you from the bottom of my heart for the joy you clearly feel and definitely bring to the work of sharing them with us all.
    Snatch Block!!!

  38. Laura Vance says:

    Sooo…. 16 minute Snatch Block commercial?

  39. Jelle Roggen says:

    I doint see any benefit to pull the car itself horizontal with only one snatch block. No benefit from gravitage.

  40. Tanmay Chopra says:

    i love how wholesome this channel is! been learning a lot over the years from this channel keep doing what you are doing Destin. Cheers!

  41. Chad Norris says:

    Lol we use so many of those snatch blocks. I swear I have like ten in the garage


    Skinny me studies about pulleys
    Hits the gym and puts those gym sharks to shame

  43. Don schell says:

    Is this the guy from the tv show where they do hot shot trucking lol he looked familiar gotta be

  44. SheepyBoy says:

    this guys kids are gonna be geniuses when they grow up

  45. Joe Masterson says:

    What really clicked for me was when I realized where the trade-off in effort was. It's not magic. As you double the force lift you must also double the distance the rope travels. Need to lift a 100lb weight 10 Feet? With one pulley you can make it feel like a 50lb weight, but it needs to be pulled for 20ft. Two pulleys make it feel like 25lbs but 40ft of "distance". all the way down to making the load feeling like it only weighs 1lb but you must make that 1lb weight travel 100x the distance. This idea preserves the energy in the system. You're still expending the same amount of energy, but in a less intense way.

  46. Llewellyn Sutherland says:

    Snatch Block! 12:04 🤣🤣

  47. Badum Tish says:

    daughter's got good lifting posture. son needs a tip or two about not lifting with his back

  48. Kaizen Inventor says:

    Dude you can work on TV commercials for Snatch Block !!!
    Like I you think the same. 12:20

  49. Benji Bien-Aimé says:

    That's why I love this channel. Really interesting, sure… But you are really enthousiast at the same time.

    Edit: 16:19

  50. Kevin Luo says:

    more pulley

  51. Greg Dimas says:

    Wow look at those hands, must be a good talker… a storied life.

  52. abdulrahman الداخل says:

    A Good work dear.

  53. Ralph Dias says:

    Wish I had this video during the days of preparation for JEE exams ❤️❤️❤️

  54. JustNeL says:

    This information was amazing! Thank you for this!! i have an almost 3 year old and cant wait to get him into these videos. Easy demonstrations easy understandings

  55. blargcoster says:

    I was more surprised Snatch Block wasn't the sponsor.

  56. iCuMlOuD says:

    Women have been blocking their snatches from me for years. So I get it.

  57. covers says:

    I like snatch block how much is it

  58. Dustin Harms says:


  59. 金太郎 says:

    Ahh 力のつり合い, the topic we had in science that I didn’t understand

  60. A. E. says:

    If Dennis from Jurassic Park had a snatch block, he might have lived. Remember that the next time you decide to drive through a forest full of dinosaurs, 'cause it could save your life.

  61. Adrian Miranda says:

    Snatch block!!

  62. HUUUUUURRRR says:

    So is this kind of the same idea as gear ratios, like on an 18 speed bicycle?

  63. Tee Simon says:

    "Snatch Block!"

  64. Barrett Lee says:

    Fantastic explanation without too much jargon.

  65. TK OGB says:

    I honestly learned more from this video then a month in school, thank you for teaching me this I'm genuinely excited to get one!!!

  66. Jeremy Hannaford says:

    Need new tyres

  67. askjerry says:

    We need to figure out a way for him to do a video with both the snatch block and laminar flow…

    I think he would burst into flame from excitement.

  68. StickyKittySixtyNine says:

    That Jeep needs tires and an alignment!

  69. Loubinaddict says:

    Really cool video! I noticed you put a blanket on the wires while pulling the jeep, is that a security trick to prevent the cables from hitting peoples faces in case it breaks and goes flying?

  70. MrBrain4 says:

    I thought for sure the sponsor of this video was going to be: "SNATCH BLOCK!"

  71. Mohammed Turky says:

    How can someone dislike his videos?

  72. Antibeast Plays says:

    Who else is here because of that episode of Dr. Stone with the pulleys?

  73. rooster700rr says:

    For the uninitated, you should explain the purpose of the blanket hanging on on the winch cable at 9:00. I would love to see a slow-mo video of this because I am skeptical of its effectiveness.

  74. nick denton says:

    My favourite memory as a kid was when I was about 11 I built a small trebuchet out of a couple of broom handles, lead sinkers and electrical tape. I had so much fun timing the release pin so it would release the projectile at 45° and then adding more and more weight to get more distance out of the throw. Eventually it collapsed because the counterweight was too heavy, but that was the best part. I learned so much over that couple days.

  75. Blame USA says:

    the game designers are so smart that can't figure out a rubber band issue and have to consult a 10yr old… iq 400

  76. Mark Dubbelaar says:

    Have a look at the reverse winching technique with a front mounted winch… Its just math and pulleys

  77. JCS says:

    the large antique pulley probably isn't for marine use. They used to be very common tools for farming; they'd pull things (hay bales, etc) up or lower things down from the second floor of the barn from/to the floor inside or the ground outside.

  78. Old Dirty Tattooed Warhorse says:

    don't forget to tune in for next week's episode: Why CockBlocks are LAME

  79. aaron garrett says:


  80. Twitchy Soul says:

    I love videos like this. It just reminds me of how the things work, that I use and see at work.

  81. Wooden HK says:

    Destin: SNATCH BLOCK!

    Everyone: S N A T C H B L O C K!!!

  82. Morris Gevirtz says:

    Hey man, I love your videos. However this one was a bit "shily."

  83. Tony Bersaglia says:

    Seriously, thank you for doing the plug at the end of the video instead of the first!

  84. agvulpine says:

    Goodbye laminar flow. Hello SNATCHBLOCK!

  85. F Meng says:

    Snatch block manufacturers in China gonna appreciate your video, also change those tires on that Jeep

  86. Steven Bun says:

    Is this commercial for snatch block?

  87. pepeshopping says:

    Simple as voltage vs current, hp vs torque, pressure vs flow…

    You get more leverage, yes, but you have to row twice as much!!

  88. Mike Graves says:

    Sixth grade science pulleys, levers, ect… Only homeschoolers with idiots for parents would find this video interesting. I'm not sure what I was expecting but I was hoping for something new and informative. Not elementary science. 👎

  89. TheAndrewChild says:

    Love you videos Destin. When you added the second snatch block to the trailer to pull the truck up it didn't increase the mechanical advantage of the system. All it did was redirect the rope (and add a little bit of friction). As you explained earlier in the video there are still only two strands connected to the truck so your pulling force is still 2:1. It would have been possible to rig a 3:1 system (without compound pulleys) if you had anchored one end of the rope on the truck.

  90. Joseph McConnell says:

    You make amazing videos.

    Though it's the sense of wonder created by the physical science demonstrations on your channel that makes the magic happen, there's something about your general attitude towards everything that feels almost unbelievably positive.
    This makes your videos very refreshing. Have you considered making content outside of science topics? Perhaps something along the lines of sharing your mentality on general life issues?

  91. BobChaz says:

    Gah! Where to start? You have to start with "work". Virtually everything will be easier to explain and explore if you do. W = force x distance. Pedaling a bike, shoveling gravel, or using pulleys. In using the pulley you have to pull the end of the rope twice as far as the mass is raised. Or 4 times or 8, etc. Pedagogically, as the teachers like to say, start with force and work. You will wind up using the work-energy theorem without even knowing it. I'm sure this video can spark interest, but I found it muddled and ill explained.

  92. dreffon says:

    9:30 Isn't it risky to stand next ? If the cable snaps you would prefer to be inside the car

  93. John Pettus says:

    Actually hung around to watch the promo for KiwiCo because it was also really interesting.

  94. Jared Connell says:

    "Give me a snatch block with a long enough rope and I can move the world!"

  95. Austin Akers says:

    I love the video but I do have to say I was cringing like crazy when they were using the winch to pull the jeep and he was standing right next to that steel cable that was under so much load… DIdn't Cuba Gooding Jr. teach us anything!!!

  96. uncle A says:

    Brain poweeaa

  97. Rodolfo crespo says:

    What the woman wants to say is to teach or make kids think out of the box.

  98. Sean McLellan says:

    The whole counting the number of ropes is an interesting way of displaying the force, but I've always thought it was more like a gear reduction, where you have an input force and distance and because the output distance is lower the output force is higher

  99. Bugsy says:

    Ahh man, I thought your favorite thing was laminar flow.

  100. WokeUpScreaming says:

    My Design Technology teacher at school rigged up a pulley and showed how to lift a person with one hand and it blew my mind!

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