This episode of Because Science is sponsored by The Science of Mortal Kombat. This is why Link is stronger than most superheroes. The Legend of Zelda's Link is one of gaming's most iconic characters. He's the hero of time, banisher of evil, and a smasher of pots,(clay pot shatters) but despite all of his super heroic efforts through the decades, Link, is never really portrayed with any of the super powers you might expect him to have, like super strength. Thanks to video game logic, though, and what we can figure out with physics.
I think that Link must be way stronger than we think, stronger than most superheroes. (upbeat music) (evil laugh) If we wanna compare or calculate the strengths of fictional characters, we should start with the easiest possible determination of strength that we could apply to all of them. And I think that the simplest way to get at the base strength of a character like Link, is to estimate the kinds of forces that that character can apply to an object, whether that force comes from a simple lift or an impact. (coins jingle)Aw, 20, sick. So all we have to do is find some scenarios that showcase Link's strength, use some basic equations, and make some really good assumptions and then see what we get.
Let's start with an example from the most recent Legend of Zelda game, Breath of the Wild. In the game, there's a very cool ability called stasis, (glass shatters) which allows you to freeze objects in space and time (sword slashes) as you smash them and it's only when the stasis runs out (crashes) that all those built up forces are imparted to the object. (shards clatter) Gamers who try to complete Breath of the Wild as quickly as possible, use stasis to great affect, launching themselves with built up forces over ridiculous distances and I think that one of these launches, (glass shatters) could give us an idea of just how strong Link might be. W-W-W-What, what just happened? If we simplify a Breath of the Wild Link launch greatly, then we have a classic case of projectile motion.
To understand where we get the equations for projectile motion, we ar If each one of those pots held a few liters of volume. (screaming and clay pots breaking) Sorry, I just gotta get them root-roots. If we then take the volume of the pillar and multiple it by the density of whatever the pillar is made out of, it looks to me like some kind of granite, we can get the amount of mass that Link can dead lift. Do that and you get almost 150,000 kilograms, again, interestingly almost the mass of an entire Jabu-Jabu, if that fish-boy is blue whale-sized. When Link picks up those pillars in Ocarina of Time, he is breaking the world deadlift record for a human by a factor of 250 and this isn't even Link at full power. Link has to be stronger than some of the most famous superheroes because he lifts and throws giant pieces of stone like they're as light as deku nuts. (yelling) Thanks to scientists like Isaac Newton, we know that it takes more force to accelerate an object more quickly. For example, it takes less force for me to just raise this pot up off the ground, basically just fighting its weight, than it does for me to launch it into the air.
For a more human example, the world dead lifting record is over 1,000 pounds but the world record for the heaviest keg that you can throw up over behind your head, just like Link throws that pillar, is under 60 pounds. A lot less. So if Link is throwing hundreds of thousands of pounds up over his head like it's nothing, then he is making the mountain here, look like a molehill. (glass shatters) Looking again at the Ocarina of Time toss, we can use the same kinds of projectile motion equations that we did for the Breath of the Wild boulder.
All we have to do is get the same kinds of values that we're looking for, like angle of flight and time of flight. Basically we want to know how much force it will take to give the initial velocity required to carry the object on its projectile-like path. If our estimations and calculations are on the right track, in this scene in Ocarina of Time, Link is applying maybe 18 million Newtons of force or four million pounds of force to the pillar in question. This is rocket launch levels of strong. If this is the case, then Link has more lifting power than the Space-X Falcon Heavy rocket. If Jabu-Jabu is the weight of a blue whale, he can pick him up and toss him the same distance as the pillar in question. He could just, at the end of the game, grab Ganon by the tail and toss him out of Hyrule Castle for good. Whoo, give me a pot to break!
As many super heroes are defined by their strength, it's not that hard to find hard values for their lifting capabilities, just like we calculated for Link, sprinkled throughout their various calamity cannons. (glass shatters) For whatever reason, many superheroes strength values are stated in tons. We calculated that Link could lift and throw 150 tons, each ton being 1,000 kilograms. And if that's the case, all other things being equal, just looking at strength, Link is canonically stronger than Batman, (clay pot shatters) stronger than Captain America, (clay pot shatters) stronger than Bane, (clay pot shatters) stronger than Ultron, and stronger than Spiderman. In fact, according to the sources that I could find, this value would make Link stronger than most superheroes. Isn't video game logic fun? So a single feat over-- (laughs) Single.
A single feat over 20 years ago, puts Link in the realm of superhero class strength. Sure this strength isn't all his own, he needs the golden gauntlets, but that's fine. Ironman needs his suit and Superman needs the Sun. He may be just a kid but don't count Link out because in the right situation, he would absolutely hy-rule. Because Science. (horn blows) Come on, take me back to a super time. (hard breaths blow) This is the darkest timeline. (upbeat game music) When Link lifts that pillar, that is impressive definitely but I did one other calculation that I didn't want to include for whatever reason, that if you had that kind of force, 150 tons, and you applied that as a force behind the master sword, on the edge of the master sword, the amount of pressure that would be there, would be more than the pressure at the center of the Earth.
Which means that Link, if he stabbed anything, it would go through basically anything. Which would make your fight with Ganon a lot shorter. Oh you hit, you hit it out of my hand and I can only use the Megaton Hammer. Oh no, I'm gonna stab through your face. I'm Kyle Hill. Join me as we test fatalities, brutalities, and realities in the Science of Mortal Kombat. (thunder crashes) (dramatic music) Thank you so much for watching Magaly. If you want more of me, please follow me and Because Science here at these social media handles where you can suggest ideas for future episodes. Sometimes I use them and they're very helpful to me.
The big announcement that I have though is have you checked out the first episode of The Science of Mortal Kombat? Whoa, we did an entire six episode series all about fatalities and moves that you can find in The History of Mortal Kombat and it's a lot of premium science. You're gonna wanna check it out right here on this channel. Go back. Watch it. (electronic game music)
I think that Link must be way stronger than we think, stronger than most superheroes. (upbeat music) (evil laugh) If we wanna compare or calculate the strengths of fictional characters, we should start with the easiest possible determination of strength that we could apply to all of them. And I think that the simplest way to get at the base strength of a character like Link, is to estimate the kinds of forces that that character can apply to an object, whether that force comes from a simple lift or an impact. (coins jingle)Aw, 20, sick. So all we have to do is find some scenarios that showcase Link's strength, use some basic equations, and make some really good assumptions and then see what we get.
Let's start with an example from the most recent Legend of Zelda game, Breath of the Wild. In the game, there's a very cool ability called stasis, (glass shatters) which allows you to freeze objects in space and time (sword slashes) as you smash them and it's only when the stasis runs out (crashes) that all those built up forces are imparted to the object. (shards clatter) Gamers who try to complete Breath of the Wild as quickly as possible, use stasis to great affect, launching themselves with built up forces over ridiculous distances and I think that one of these launches, (glass shatters) could give us an idea of just how strong Link might be. W-W-W-What, what just happened? If we simplify a Breath of the Wild Link launch greatly, then we have a classic case of projectile motion.
To understand where we get the equations for projectile motion, we ar If each one of those pots held a few liters of volume. (screaming and clay pots breaking) Sorry, I just gotta get them root-roots. If we then take the volume of the pillar and multiple it by the density of whatever the pillar is made out of, it looks to me like some kind of granite, we can get the amount of mass that Link can dead lift. Do that and you get almost 150,000 kilograms, again, interestingly almost the mass of an entire Jabu-Jabu, if that fish-boy is blue whale-sized. When Link picks up those pillars in Ocarina of Time, he is breaking the world deadlift record for a human by a factor of 250 and this isn't even Link at full power. Link has to be stronger than some of the most famous superheroes because he lifts and throws giant pieces of stone like they're as light as deku nuts. (yelling) Thanks to scientists like Isaac Newton, we know that it takes more force to accelerate an object more quickly. For example, it takes less force for me to just raise this pot up off the ground, basically just fighting its weight, than it does for me to launch it into the air.
For a more human example, the world dead lifting record is over 1,000 pounds but the world record for the heaviest keg that you can throw up over behind your head, just like Link throws that pillar, is under 60 pounds. A lot less. So if Link is throwing hundreds of thousands of pounds up over his head like it's nothing, then he is making the mountain here, look like a molehill. (glass shatters) Looking again at the Ocarina of Time toss, we can use the same kinds of projectile motion equations that we did for the Breath of the Wild boulder.
All we have to do is get the same kinds of values that we're looking for, like angle of flight and time of flight. Basically we want to know how much force it will take to give the initial velocity required to carry the object on its projectile-like path. If our estimations and calculations are on the right track, in this scene in Ocarina of Time, Link is applying maybe 18 million Newtons of force or four million pounds of force to the pillar in question. This is rocket launch levels of strong. If this is the case, then Link has more lifting power than the Space-X Falcon Heavy rocket. If Jabu-Jabu is the weight of a blue whale, he can pick him up and toss him the same distance as the pillar in question. He could just, at the end of the game, grab Ganon by the tail and toss him out of Hyrule Castle for good. Whoo, give me a pot to break!
As many super heroes are defined by their strength, it's not that hard to find hard values for their lifting capabilities, just like we calculated for Link, sprinkled throughout their various calamity cannons. (glass shatters) For whatever reason, many superheroes strength values are stated in tons. We calculated that Link could lift and throw 150 tons, each ton being 1,000 kilograms. And if that's the case, all other things being equal, just looking at strength, Link is canonically stronger than Batman, (clay pot shatters) stronger than Captain America, (clay pot shatters) stronger than Bane, (clay pot shatters) stronger than Ultron, and stronger than Spiderman. In fact, according to the sources that I could find, this value would make Link stronger than most superheroes. Isn't video game logic fun? So a single feat over-- (laughs) Single.
A single feat over 20 years ago, puts Link in the realm of superhero class strength. Sure this strength isn't all his own, he needs the golden gauntlets, but that's fine. Ironman needs his suit and Superman needs the Sun. He may be just a kid but don't count Link out because in the right situation, he would absolutely hy-rule. Because Science. (horn blows) Come on, take me back to a super time. (hard breaths blow) This is the darkest timeline. (upbeat game music) When Link lifts that pillar, that is impressive definitely but I did one other calculation that I didn't want to include for whatever reason, that if you had that kind of force, 150 tons, and you applied that as a force behind the master sword, on the edge of the master sword, the amount of pressure that would be there, would be more than the pressure at the center of the Earth.
Which means that Link, if he stabbed anything, it would go through basically anything. Which would make your fight with Ganon a lot shorter. Oh you hit, you hit it out of my hand and I can only use the Megaton Hammer. Oh no, I'm gonna stab through your face. I'm Kyle Hill. Join me as we test fatalities, brutalities, and realities in the Science of Mortal Kombat. (thunder crashes) (dramatic music) Thank you so much for watching Magaly. If you want more of me, please follow me and Because Science here at these social media handles where you can suggest ideas for future episodes. Sometimes I use them and they're very helpful to me.
The big announcement that I have though is have you checked out the first episode of The Science of Mortal Kombat? Whoa, we did an entire six episode series all about fatalities and moves that you can find in The History of Mortal Kombat and it's a lot of premium science. You're gonna wanna check it out right here on this channel. Go back. Watch it. (electronic game music)
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