@@Luigicat11 Before I start this comment properly, here's a partial alphabetical list of Greek letters: γ: gamma δ: delta λ: lambda π: pi ρ: rho σ, ς: sigma τ: tau ψ: psi Anyway, here we go. τ is an absolute top-tier choice. (That's the ratio of a circle's circumference to its radius, for those unaware. It's 2 times the more well-known π, the ratio of a circle's circumference to its diameter; however, τ works more nicely in many contexts, especially for radian angle measurements.) √2 is very high up there, too. As for the prime constant (ρ), I suppose it's an alright pick. The supersilver ratio (ς) is pretty solid; however, if we're going to use a number from that general region of mathematics, I would've gone with the supergolden ratio (ψ). Kinda funny how it wouldn't make much sense to use the silver ratio (δ_S, λ, or σ), since it'd just play exactly the same as √2 after the decimal point. However, I have one major complaint, which is that you left out an obvious top-tier choice: the Euler-Mascheroni constant (γ). That one shows up all over the place in math. If any of y'all don't know what that is, here's how you obtain it: 1. Pick a really large integer N. 2. Take the sum 1/1 + 1/2 + 1/3 + ... + 1/N. Let's call this sum S(N). 3. Take the natural logarithm of N, written as ln(N). That's the logarithm with base e, where e is Euler's number, about 2.718, as seen in this video series. Basically, ln(N) is the answer to the question, "e to what power gives me N?", meaning e^ln(N) = N. 4. Take the difference between S(N) and ln(N): S(N) - ln(N). 5. Take the limit of this difference as N approaches infinity. Basically, just keep plugging in larger and larger values of N, and see what values you get for S(N) - ln(N). Those values will approach a certain number as you keep going, and that number is the Euler-Mascheroni constant, γ. So yeah, γ for season 2. If I had to pick a constant from your current list to kick off... hmm, I'd say the prime constant. That's the number where, in its binary representation, every prime-numbered digit after the decimal point is a 1, and all other digits are 0. It's a pretty cool number, but it seems to be of no real use to mathematicians. I guess if we did some competition using binary digits rather than decimal, the prime constant would be a really cool pick; however, due to how the prime numbers thin out as you get to higher and higher numbers, this would unfortunately lead to a gradual decline in the rate at which 1's appear.
N64 Rosalina is incredibly cursed. I had an entire idea to comment about irrational numbers, but Rosalina has left me terrified beyond the ability for rational thought.
The main issue is she is retextured Peach rather than any custom modeling, this means the eye is just textured over instead of having a modeled hair piece over it.
e did a 450° rotation, which is 5/4 turns. That's 5τ/4 radians. In the complex plane, if you want to rotate a complex number by θ radians counterclockwise around the origin, you multiply it by e^(iθ). So, a rotation by 5τ/4 radians can be achieved by multiplying a complex number by e^(i(5τ/4)). Now, e^(i(5τ/4)) is equal to i, so that's what you need to multiply by. Note that a 450° rotation and a 90° rotation have the same effect.
As soon as pi was eliminated from the dual minigames, the championship went to e. It didn’t even need to try going forward, overall victory was already assured.
@@Turkey_fan_2019no? Idk what that even is. Randy is from a video from jorts or something about waluigi (named Randy) doing mini games in Mario party and seeing how many he can do while all he does is random inputs
found this video whilst I was exceptionally tired and thought all of the numbers were real people until like halfway through the video I may be stupid.
Suggestion: may the best seed win. All random inputs for everyone, but each rng gets a different seed(you could convert strings into a seed so you could have seeds like "rayschat", "Grindel", etc). Anyway, love the content!
LETS GO PHIIIIIII!!! I KNEW YOU COULD DO IT!!! (I actually wrote a whole backstory for Pi, Phi, and e in the Mario Maker video and I think I got attached to Phi) EDIT: People have been asking for it so here's the backstory: Phi has always been bullied by his big sister, Pi. She never let him play on her consoles, and heck, she didn't even let him watch, but she was a big fan of Mario games. Phi has had no experience with them, though, and it's all thanks to Pi. When Pi heard about a Mario Maker competition, she leapt at the opportunity. Phi heard about this too, and wanted to prove that he didn't deserve to be left out all these years. e, the cousin of Pi and Phi, heard about the competition as well. e had always watched let's-plays of Mario games growing up, but he never actually got the chance to play, and the competition seemed to be the perfect chance to test his knowledge and see if that's really all you need to be good at Mario games Let me know if you like it, and feel free to modify this and/or make your own :)
the fact that the 3v1 minigames made the whole thing moot because there were some minigames that were literally impossible for the number unlucky enough to be picked.. lmao
Its a terrible day to be a 3.141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067 fan. Perhaps due to me learning 100 digits of 3.141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067, I can relate to 3.141592653589793238462643383279502884197169399375105820974944592307816406286208996628034825342117067 and how they struggle, but in truth 3.141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067 is just a number, and my sympathy for 3.14159265yougetthe idea,I'mnotusingcopyandpastesothisisgettingreallytedious is just a human response of projecting my own feelings on inanimate concepts in an attempt to feel realted to
So this wasn't explicitly stated, but I assume that this comment is talking about π. In that case, it's pretty impressive to memorize that many digits, but you got a few things wrong: 1. In your first representation, at position 68 after the decimal point, you should've written 164 instead of 4626. The sequence 4626 occurs at position 19, which I assume is what got you confused. The second and fourth representations are identical to the first. 2. In your third representation, at position 81, you should've written 8 instead of 6. 3. To be more accurate, each representation should end with an ellipsis, standing for the infinitely many digits of π that you didn't write.
@@troydunnage6749 There's still the error in decimal representation #3. And I'd also still recommend adding the ellipses; without them, these values alone are not truly π, just some numbers that happen to be very close to it.
AYYYY 3RD EPISODE LETS GOOO (so sad it’s over D: ) 4:02 thumbnail ahh moment 💀 4:37 JEFF IS A MENACE. 10:15 “if your a fan of any of the other 3 you’re probably worried” me, and e and pi fan: well, yes, but no. 11:50 this was so entertaining..for some reason 😭 15:26 😭😭😭 17:50 DID NOT EXCEPT THAT 21:28 W 22:27 ANOTHER W 25:47 MASSIVE W FOR THE E FANS 🔥 I’m glad phi won at least one game though. Pretty sure everyone did so that’s cool!
While τ is indeed equal to 2π, it is conventionally defined as the ratio of a circle's circumference to its radius. I prefer that definition over a definition in terms of π.
The only reason you paired E and phi up together so much in the 2v2 minigames was because you knew E would obliterate him if you had E face off against phi in those minigames
Did this series end up how you were expecting? 🤔
No
No
Let’s go eeeee
no
poop
I love the phrase "first ever mathematical constant invitational", because it implies that we're going to do this again in the future.
Who’s to say we aren’t?
Tau, Square Root of 2, Supersilver Ratio, and Prime Constant for the next one?
@@Luigicat11 Before I start this comment properly, here's a partial alphabetical list of Greek letters:
γ: gamma
δ: delta
λ: lambda
π: pi
ρ: rho
σ, ς: sigma
τ: tau
ψ: psi
Anyway, here we go.
τ is an absolute top-tier choice. (That's the ratio of a circle's circumference to its radius, for those unaware. It's 2 times the more well-known π, the ratio of a circle's circumference to its diameter; however, τ works more nicely in many contexts, especially for radian angle measurements.) √2 is very high up there, too. As for the prime constant (ρ), I suppose it's an alright pick.
The supersilver ratio (ς) is pretty solid; however, if we're going to use a number from that general region of mathematics, I would've gone with the supergolden ratio (ψ). Kinda funny how it wouldn't make much sense to use the silver ratio (δ_S, λ, or σ), since it'd just play exactly the same as √2 after the decimal point.
However, I have one major complaint, which is that you left out an obvious top-tier choice: the Euler-Mascheroni constant (γ). That one shows up all over the place in math. If any of y'all don't know what that is, here's how you obtain it:
1. Pick a really large integer N.
2. Take the sum 1/1 + 1/2 + 1/3 + ... + 1/N. Let's call this sum S(N).
3. Take the natural logarithm of N, written as ln(N). That's the logarithm with base e, where e is Euler's number, about 2.718, as seen in this video series. Basically, ln(N) is the answer to the question, "e to what power gives me N?", meaning e^ln(N) = N.
4. Take the difference between S(N) and ln(N): S(N) - ln(N).
5. Take the limit of this difference as N approaches infinity. Basically, just keep plugging in larger and larger values of N, and see what values you get for S(N) - ln(N). Those values will approach a certain number as you keep going, and that number is the Euler-Mascheroni constant, γ.
So yeah, γ for season 2. If I had to pick a constant from your current list to kick off... hmm, I'd say the prime constant. That's the number where, in its binary representation, every prime-numbered digit after the decimal point is a 1, and all other digits are 0. It's a pretty cool number, but it seems to be of no real use to mathematicians. I guess if we did some competition using binary digits rather than decimal, the prime constant would be a really cool pick; however, due to how the prime numbers thin out as you get to higher and higher numbers, this would unfortunately lead to a gradual decline in the rate at which 1's appear.
Nerd@@isavenewspapers8890
Oh my god. The lemniscate constant, written as cursive pi (ϖ). It's the perfect fit.
N64 Rosalina is incredibly cursed.
I had an entire idea to comment about irrational numbers, but Rosalina has left me terrified beyond the ability for rational thought.
I guess you could say she left you thinking irrationally...
I'm sorry
@@Perrigon nah it's fine
she only had one eye
The main issue is she is retextured Peach rather than any custom modeling, this means the eye is just textured over instead of having a modeled hair piece over it.
11:08 "e with the full rotation" Makes sense
Was he taken to the power of 2πi?
@@KNfLrPn2kπi where k is an integer
I don’t want to suffer math again
me when i am raised to an imaginary number
e did a 450° rotation, which is 5/4 turns. That's 5τ/4 radians.
In the complex plane, if you want to rotate a complex number by θ radians counterclockwise around the origin, you multiply it by e^(iθ). So, a rotation by 5τ/4 radians can be achieved by multiplying a complex number by e^(i(5τ/4)). Now, e^(i(5τ/4)) is equal to i, so that's what you need to multiply by. Note that a 450° rotation and a 90° rotation have the same effect.
23:29 "right now, edge to phi" ok sure
on it, boss
me to my goons
√2 would clear
√3 tho....
@@felipecardoperoot 4 would win fr fr
@@Banana72544 Luigi wins by doing nothing?
@@Banana72544 Literally just taping the joystick in the down direction lmao
@@notme8232 One down input, then up inputs for the rest of the game.
As soon as pi was eliminated from the dual minigames, the championship went to e. It didn’t even need to try going forward, overall victory was already assured.
PHI VICTORY AT THE END THO 💪🏿🐵💪🏿
The Randy cameo was absolute peak🗿🗿🗿
fr bro
is it like randy from the random vs nothing video?
Randy from j0rts
@@Turkey_fan_2019no? Idk what that even is. Randy is from a video from jorts or something about waluigi (named Randy) doing mini games in Mario party and seeing how many he can do while all he does is random inputs
@@Squared-gi9ktSo... exactly what the commentor said.
The fact that the team of three and and one person combined got one coin on Money Belts is crazy
Jeff is the most underrated irrational number
Ik right, they always say "pi this, tri that" when jeff is left out.
7:10 the fact he swirled and twirled with the block 😂
found this video whilst I was exceptionally tired and thought all of the numbers were real people until like halfway through the video
I may be stupid.
What are your feelings on batman
@@tempy2440 hes pretty cool
I prefer man though
φ phinally got a win i'm happy with that
Suggestion: may the best seed win.
All random inputs for everyone, but each rng gets a different seed(you could convert strings into a seed so you could have seeds like "rayschat", "Grindel", etc).
Anyway, love the content!
Oh, come on! Pi was obviously sabotaged this time! I'll bet it was e, they knew they'd win as long as Pi didn't!
2:45 yknow, I think rosalina is really feelin it
maybe this was the monado's power
These have no right to be this entertaining, i genuinely look forward to these
IT'S BACK! And it ended with a bang.
I recommend √3 to be contestant #4 if a season 2 happens!
1:39 Yay, Randy is back!
This is a great way to freshen up familiar mini-games and bring a lot of laughter.
Me just mad because Jeff wasn’t named Randy
They're cousins
@@NCozytwins
@@NCozyyeah but Randy’s the OG
SAME
My headcanon is Randy wasn't allowed in so he went with Jeff as a fake name just to get in
YoPi, RosalEna and DonPHI Kong are perfect
marioparty can make any subject fun like advanced quantum mechanics
25:05 PHInally earning themselves that elusive gold medal.
Phi is just too good man. People dont see it. But i do.
LETS GO PHIIIIIII!!! I KNEW YOU COULD DO IT!!!
(I actually wrote a whole backstory for Pi, Phi, and e in the Mario Maker video and I think I got attached to Phi)
EDIT: People have been asking for it so here's the backstory:
Phi has always been bullied by his big sister, Pi. She never let him play on her consoles, and heck, she didn't even let him watch, but she was a big fan of Mario games. Phi has had no experience with them, though, and it's all thanks to Pi. When Pi heard about a Mario Maker competition, she leapt at the opportunity. Phi heard about this too, and wanted to prove that he didn't deserve to be left out all these years. e, the cousin of Pi and Phi, heard about the competition as well. e had always watched let's-plays of Mario games growing up, but he never actually got the chance to play, and the competition seemed to be the perfect chance to test his knowledge and see if that's really all you need to be good at Mario games
Let me know if you like it, and feel free to modify this and/or make your own :)
P U B L I S H T H E B A C K S T O R Y
@@felixdaniel9472milkmariobros I assume you found it lol
I need it.
14:18 We’re going at the speed of light
Lol
7:57 CUPHEAD OST
Petition to have square root of 2 join in the second season
Boooooo
No we love Jeff
the fact that the 3v1 minigames made the whole thing moot because there were some minigames that were literally impossible for the number unlucky enough to be picked.. lmao
I love E, for reasons
i love e, for reasons totally unrelated to me being trans (love the pfp)
@devilish_ashe yeah, lol (love your pfp, too btw)
big fan of e as well. huge win for us tonight
@@rosie8304 all the trans people uniting to vote for e
I'ma touch butt
Its a terrible day to be a 3.141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067 fan. Perhaps due to me learning 100 digits of 3.141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067, I can relate to 3.141592653589793238462643383279502884197169399375105820974944592307816406286208996628034825342117067 and how they struggle, but in truth 3.141592653589793238462643383279502884197169399375105820974944592307816406286208998628034825342117067 is just a number, and my sympathy for 3.14159265yougetthe idea,I'mnotusingcopyandpastesothisisgettingreallytedious is just a human response of projecting my own feelings on inanimate concepts in an attempt to feel realted to
So this wasn't explicitly stated, but I assume that this comment is talking about π. In that case, it's pretty impressive to memorize that many digits, but you got a few things wrong:
1. In your first representation, at position 68 after the decimal point, you should've written 164 instead of 4626. The sequence 4626 occurs at position 19, which I assume is what got you confused. The second and fourth representations are identical to the first.
2. In your third representation, at position 81, you should've written 8 instead of 6.
3. To be more accurate, each representation should end with an ellipsis, standing for the infinitely many digits of π that you didn't write.
@isavenewspapers8890 Thanks, can't believe I made that 81640 mistake. I'll fix those errors now
@@troydunnage6749 There's still the error in decimal representation #3. And I'd also still recommend adding the ellipses; without them, these values alone are not truly π, just some numbers that happen to be very close to it.
Who noticed that in the golf minigame, the distance is similar to the actual numbers?
3.2 ≈ π
2.44 ≈ e
that's not a coincidence. Numbers never lie!
21:00 e tackles phi and misses, phi moves and passes to jeff and jeff shoots it to pi on the opposite team and pi scores what a comeback!
I watched more of this than the Olympics and I’m happier for it
“We have……
ËÉEÈÊĚẼĒĖĘ.”
25:05 I was praying it would be Phi the whole time
I sure do love the classic π φ and e
14:40 appropriate timing since the season just started
AYYYY 3RD EPISODE LETS GOOO (so sad it’s over D: )
4:02 thumbnail ahh moment 💀
4:37 JEFF IS A MENACE.
10:15 “if your a fan of any of the other 3 you’re probably worried” me, and e and pi fan: well, yes, but no.
11:50 this was so entertaining..for some reason 😭
15:26 😭😭😭
17:50 DID NOT EXCEPT THAT
21:28 W
22:27 ANOTHER W
25:47
MASSIVE W FOR THE E FANS 🔥
I’m glad phi won at least one game though. Pretty sure everyone did so that’s cool!
Jeff has the worst case of road rage I've ever seen
Fourth player should've been Luigi, who does absolutely nothing.
this is just high tech marble racing
I imagine Pi is terrible at baking but just steals e’s Food so Pi Keeps his Reputation.
Alright, there you go.
Hello fellow furry
The ending was wild with the okay there you go
YAY PHI!!! IVE BEEN CHEERING FOR YOU :)
You could have used Tau aka 2*Pi as P4
While τ is indeed equal to 2π, it is conventionally defined as the ratio of a circle's circumference to its radius. I prefer that definition over a definition in terms of π.
phinally
Phacts.
You know it's a great day when raysfire uploads🔥
If Randy was not included the winner of this is quite literally predetermined. He is the reason why this video has a purpose
Honestly I don't know why but the vacuum cleaner sound got me rolling on the floor
I was on team pi, but i came *around* on that, so if not pi then p(h)i it is
The production value on this is crazy
I love how “Blitz It” from Splatoon is here and completely unrelated to what’s going on.
Honestly would have done this more like golf, lowest score wins add up the ranks and for the 1v3’s 4 rounds each game but that would take forever
The Golden Number finally owns his Golden Medal
3:16 yoshi wins by doing absolutely nothing
Hold on the editing is kinda clean in this one i like it
Slap City Music Pog
Based Slap City enjoyer
Is it the music at 19:36 ?
Phi is the champion in my heart
WOOOO, YOU GO PHI
21:29 Jeff was metagaming here, if he won, Phi would’ve also won
Math people❤❤❤
I've become a phi fanboy now
Pi got 3rd, 1st, and 4th in that order. He has to get first again to continue his counting
Love the crowd 0:06
1:30 don’t you mean Randy? (Edit: oh it’s Randy’s friend)
The only reason you paired E and phi up together so much in the 2v2 minigames was because you knew E would obliterate him if you had E face off against phi in those minigames
Jeff's constant
All numbers declared by jeff, after jeff's final number it loops over
The mods hate E cause E cheats
9:08 why are they better than me at this minigame 😭
25:44 1 and 2 thirds*
my man jeff here got shafted
Next invitational: Physical Constants come to the stage
19:42 _sweats in Brazilian_ those numbers...
ahhh yes my fav Irrational Number "Jeff"
algorithm pull goes crazy
this is good
e DESERVED THE WIN. I CANT BELIEVE THIS.
PLEASE ADD √(2)
Oh yes... of corse... the very mathematical number... jeff😂
Jeff ❌
Randy ✅
Also N64 Rosalina is amazing I love it
i could watch these numbers play koopa soccer for hours
Interesting fact, Phi is probably the most irrational number. It's performance should theoretically be similar to Jeff
how is one irrational number more irrational than another irrational number?
5:32 A random number generator is eliminated by RNG or in other words a random number generator 😂
Don’t end it here. Put even more against eachother in smash bros tourney
fun that pi, placed 314, all they need is a decimal
Pi was ROBBED
no joke if I had seen this video’s title last week I wouldn’t have lost a point on my test
Shudhead checking in
Love that 94 was presented as an irrational number in the thumbnail lol /j
Pi may have lost the competition, but they won my heart
IS PEAK TIME!!!!
Please do this again sometime! This was awesome!
Jeff is my favorite mathematical constant
We need this again soon with other mathematical constants.
that ending hit me like a truck
Hype!
😭bro got me rooting for Bots competing in a game of Mario party GO JEFF!
Hope one day the organizers invite my boy 1/3