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  • Hey it's me Destin, welcome back to Smarter Every Day.

  • So it might surprise you to know that we have hockey at the

  • university that I went to. Anyway today we're gonna talk about the physics of a slap shot.

  • You're getting Smarter Every Day.

  • [theme music] [crowd noise]

  • (Destin) No way, you're missing a tooth?

  • That's so stereotypical hockey player. Can I see it?

  • What did you, when'd you get your tooth knocked out? - 3 years ago. - 3 what? - 3 and a half years ago.

  • - That's awesome dude. Is it like a right of passage that you have to lose a

  • tooth in order to play hockey? - No I mean.. ah..

  • - Just the good players? - Just the good ones. - [laughs] Alright so here's what we're gonna do today. We're gonna hit the puck

  • and record it with a Phantom which I have setup over there, and we're gonna see

  • exactly what's happening. I've heard that you don't actually hit the puck first, but I

  • want to look at the dynamics of how that happens. But first, let's look at your stick here. What kind of stick

  • is it, is it a wooden stick? - No it's a one piece composite. - Yep

  • - Made out of graphite. So mine's an 85 flex. I like mine a little whippier.

  • - Whippier is 85.. I love that word. Can you say that as much as possible

  • during this interview? - Yeah I can say it. A little more whip to it. You can get a stiffer one

  • for the bigger guys. [hits puck]

  • (Destin) I don't understand how you can hit that hard. That's crazy, I respect goalies

  • a lot more now. OK let's get the Phantom. Hoo I've fallen! [laughs]

  • (Destin) Alright bring it.

  • [hits puck]

  • [hits ice]

  • [hits puck]

  • [hits ice]

  • [hits puck]

  • OK, so we got the close-up shot. Now what we're gonna do is we're gonna transition to a wide shot. We're gonna keep the Phantom at

  • 3,200 frames per second but the goal here, the data we're looking for is we're gonna

  • try to pre-load that stick and get the entire flex, or the deformation of the stick

  • while he goes in for the slap shot. The slap shot is the fastest shot in hockey.

  • So what's the advantage of having a flexible stick?

  • Let's check out the high speed. The player stores potential energy in the stick

  • by striking the ice before he hits the puck. Now this seems like it would

  • waste energy and slow down his shot but it actually does the opposite.

  • By gradually releasing that potential energy

  • stored up in the stick like a slingshot, the player can make the puck go even

  • faster than he can swing the stick. Look at the overflex here as the

  • stick outruns the player's hands.

  • [hits puck]

  • This means that a good slap shot is all about timing.

  • And not just the timing about where you're gonna hit the ice, but also knowing how long

  • it takes that stored up energy to whip out of your stick.

  • So to understand the flexibility of a hockey stick we're here with my friend Dr Jeff Evans

  • We are friends, correct? Can I say that? - We are friends. - We are friends. I once tried to convince him to

  • shoot a coyote in his pasture cause I thought.. no, it wasn't a coyote. - We thought

  • it was.. he thought it was a coyote. It was a donkey. - It was a.. [laugh] It was a donkey.

  • You break things right? - We do. We break things by pushing, pulling, twisting,

  • fatigue, we wear them out, we break them. - OK some bonus footage.

  • We're going to crush a hockey puck here.

  • Check it out. 80,000lbs

  • on a hockey puck. One interesting thing I discovered while doing this is hockey players often

  • have no idea what the flex number on their stick means. If you support a stick

  • on both sides here and you hang weights right on the center, that flex number that's on

  • every single hockey stick is an indication for how much weight it takes to deflect

  • a hockey stick one inch. The problem is, often manufacturers don't do it correctly

  • so we have all these sticks from different manufacturers and Dr Evans is gonna take

  • the data as I apply weight to the stick and we're gonna measure the actual flex number

  • against the claimed flex number. We hung calibrated weights from four different

  • sticks, each with a different flex number. Then we recorded the deflection

  • values for each stick and generated a curve representing its stiffness.

  • The flex falue is the weight in pounds required to deflect the stick one inch.

  • The numbers we measured however were much lower than the manufacturer's numbers but this

  • is probably because the sticks were used and they lost their stiffness over time.

  • Check it out though. Real science. Let's take a closer look though.

  • A beam deflection equation can be used to model a hockey stick's flex. This force

  • represents the pivot hand and this force represents the stick hitting the ice.

  • The maximum displacement happens right here in the middle where the player's hand pushes

  • on the stick. In engineering we use two types of diagrams called shear and moment diagrams

  • to understand the stresses on the inside of a beam. So if our hockey player

  • is strong enough to actually break a stick while doing a slap shot,

  • according to science, where exactly along the stick is it going to break?

  • [hits puck]

  • - Did you get it? (Destin) So where do you think it broke relative

  • to where your hand was? - Probably in it.

  • - Like you think it was in your hand when it broke? - Yeah. Oh yeah.

  • - Alright let's make sure I got it on slow mo.

  • [hits ice]

  • [scrapes ice]

  • [hits puck]

  • Did you see that?

  • There are two types of loading that added up to break the stick. First he flexed

  • it on the ice, but it wasn't until he tried to actually accelerate the puck

  • that it kicked it up over its maximum stress limit and actually broke the stick.

  • That is awesome. So thanks for sticking with me as I try to

  • explain a sport I don't truly understand. If you'd like to help with Smarter Every Day and help me do crazy stuff

  • like this, you can support the sponsor which is audible.com. Go to audible.com/smarter

  • you can get a free audio book. They've got thousands to choose from, get whatever you want. You can

  • do a free trial, free book free trial, you can download it and listen to it and if you don't like it

  • you can return it and get another one. It's a pretty good deal. Anyway, I used it long before they asked

  • to sponsor Smarter Every Day so I'm more than happy to suggest it to you.

  • audible.com/smarter I get credit for you checking out Audible, and it helps Smarter Every Day

  • move forward and do more crazy stuff. Anyway I'm Destin, you're getting Smarter Every Day.

  • Thank you very much, have a good one.

  • Before... and after. - It was a smashing good time. - [laughs]

  • You want more whippyness, or more stiffyness?

  • - Oh, ah all in, all in.. All in preference. - [laugh]

  • - It's for science. I need a new stick. - [laughs]

  • [hits puck, hits wall] [laughs]

  • [ Captions by Andrew Jackson ] captionsbyandrew.wordpress.com

  • Captioning in different languages welcome. Please contact Destin if you can help.

Hey it's me Destin, welcome back to Smarter Every Day.

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B1 中級

冷硬的科學。慢鏡頭下的物理學--每天更聰明 112 (COLD HARD SCIENCE: SLAPSHOT Physics in Slow Motion - Smarter Every Day 112)

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    林宜悉 發佈於 2021 年 01 月 14 日
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