Womp. The database was corrupted and I had to use a backup from 2018 (in 2021). Sorry for any data loss. A server update also broke a bunch of the site (I've got it mostly working, but some things may still be busted). Another unrelated server update also busted the way my wii homebrew connected to the site (so none of them can go online anymore and they may never change). Have I mentioned that I've had problems with this cheap web host?
You can check out whatever new projects I have in the works over on twitter at @BoringDevKate.
Username: Sakura
Join Date: 2013-01-22 21:36:00 (12 years ago)
Homebrew comments: 2
User comments: 43
Forum comments: 2
Polls created: 2
Poll votes: 80
Wii number: 8597-5491-7990-9253
About: Wake up. Meh. Sleep. Eat. Anime. Sleep. Repeat.
<3
SSBB FC: 1980-0061-7465
2DS FC: 0404-6897-9053
Join Date: 2013-01-22 21:36:00 (12 years ago)
Homebrew comments: 2
User comments: 43
Forum comments: 2
Polls created: 2
Poll votes: 80
Wii number: 8597-5491-7990-9253
About: Wake up. Meh. Sleep. Eat. Anime. Sleep. Repeat.
<3
SSBB FC: 1980-0061-7465
2DS FC: 0404-6897-9053
This user has posted 4448 comments on Wii Chatter
Leaderboard scores
Comments (only the 15 most recent)
Comment posted by MaxxMurph at 2014-04-28 23:55:51 (11 years ago)
oh yes please sypke me, i'm just a wonderful little girl.
oh yes please sypke me, i'm just a wonderful little girl.
Comment posted by Einstein at 2014-05-10 15:20:13 (11 years ago)
Particle-wave duality, simply put, states that fundamentally, everything is both a particle and a wave. There have been numerous experiments conducted, and physicists have concluded that matter cannot be one or the other; certain experiments suggested the existence of particles, others waves. We had no choice but to say that matter existed as both. As you (hopefully) know, waves have a property known as wavelength. If matter is both a particle and a wave, then it inherits properties of both, hence the fact that classical objects possess wavelengths. The wavelength of such an object is determined by the formula: Lambda = h/p, where h is Planck's constant, lambda is wavelength, and p is momentum. Momentum is the denominator, so massive objects have smaller wavelengths, because P = mv, where m is mass and v is velocity. This formula is known as the deBroglie wave formula, and is universally applicable to any object, big or small, or even a single particle. For waves to diffract around objects, their wavelength needs to be proportional to (or at least comparable to) the length of the object to diffract around. Since subatomic particles have such minute momentum (due to small mass), they tend to have wavelengths more comparable to everyday objects, but still not nearly there, since Planck's constant is equal to 6.626 * 10^-34, which, for those of you who don't know scientific notation, is a very small number.
Particle-wave duality, simply put, states that fundamentally, everything is both a particle and a wave. There have been numerous experiments conducted, and physicists have concluded that matter cannot be one or the other; certain experiments suggested the existence of particles, others waves. We had no choice but to say that matter existed as both. As you (hopefully) know, waves have a property known as wavelength. If matter is both a particle and a wave, then it inherits properties of both, hence the fact that classical objects possess wavelengths. The wavelength of such an object is determined by the formula: Lambda = h/p, where h is Planck's constant, lambda is wavelength, and p is momentum. Momentum is the denominator, so massive objects have smaller wavelengths, because P = mv, where m is mass and v is velocity. This formula is known as the deBroglie wave formula, and is universally applicable to any object, big or small, or even a single particle. For waves to diffract around objects, their wavelength needs to be proportional to (or at least comparable to) the length of the object to diffract around. Since subatomic particles have such minute momentum (due to small mass), they tend to have wavelengths more comparable to everyday objects, but still not nearly there, since Planck's constant is equal to 6.626 * 10^-34, which, for those of you who don't know scientific notation, is a very small number.
Comment posted by HeroOfTheWinds at 2014-06-30 19:04:30 (11 years ago)
Sakura hey. :D
Sakura hey. :D
Comment posted by ApexRose at 2014-07-09 11:58:16 (11 years ago)
yeah what he said :3
yeah what he said :3
Comment posted by ApexRose at 2014-07-15 15:28:49 (11 years ago)
MY BIRTHDAY
MY BIRTHDAY
Comment posted by ThePhantom at 2014-08-28 09:33:49 (11 years ago)
I don't know if she's ever going to come back.
I don't know if she's ever going to come back.
Comment posted by ApexRose at 2014-10-12 23:33:29 (11 years ago)
o3o
o3o
Comment posted by Oskar at 2014-12-07 22:48:20 (10 years ago)
If I remember correctly, your birthday was around this month. In this case... Happy Birthday, Sakura! :)
It was great getting to know you way back then.
If I remember correctly, your birthday was around this month. In this case... Happy Birthday, Sakura! :)
It was great getting to know you way back then.
Comment posted by Oskar at 2014-12-07 22:55:45 (10 years ago)
"Skarrr" ~<3
"Skarrr" ~<3
Comment posted by Darksword at 2015-03-29 18:31:34 (10 years ago)
3ds fc 0473 8567 2234
3ds fc 0473 8567 2234
Comment posted by Darksword at 2015-03-29 18:37:44 (10 years ago)
I know what your thinking but still enter this fc
I know what your thinking but still enter this fc
Comment posted by Oskar at 2015-06-20 03:52:59 (10 years ago)
Umm, yeah... you need to come back soon. :]
Don't think I forgot about you for a second.
I'd love to be able to catch up with you one day.
Umm, yeah... you need to come back soon. :]
Don't think I forgot about you for a second.
I'd love to be able to catch up with you one day.
Comment posted by Oskar at 2015-06-20 03:53:24 (10 years ago)
@Sakura
@Sakura
Comment posted by Oskar at 2016-01-11 20:49:11 (9 years ago)
Goodbye! It was nice getting to know you back then... wherever you are now. <3
Thanks for the memories...
Goodbye! It was nice getting to know you back then... wherever you are now. <3
Thanks for the memories...
Comment posted by HeroOfTheWinds at 2016-03-26 14:09:03 (9 years ago)
Hello, Missy. :P
Hello, Missy. :P
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