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@tiffanystrattonwwe: Happy 1st of the monthhhhhh could be a history making month 👀

Tiffany Stratton
Tiffany Stratton
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Region: SA
Friday 01 November 2024 18:07:28 GMT
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Comments

aegoon_jc11
Juan Carlos Orellana Rubina :
I love you tify send me greetings I'm from Chile
2024-11-03 17:57:17
11
alllegends.die
Rapper Edits :
I hate no nut November😫😡😤
2024-11-02 01:50:55
18
crystalpatt1995
Crystal Patterson :
my favorite wrestler on Smackdown 🥰
2024-11-01 19:50:54
21
superj1980
$uper J :
congratulations Champ...
2025-01-04 23:07:21
3
_echorate
🧊💀 :
nia now i need this story line to be goated
2024-11-01 23:55:20
4
mikaela_nct
Mikaela :
The dress thouuuuu 👑👑👑👑🖤
2024-12-25 17:10:17
1
teemstark
ShortyRawks :
Ugh to all that extra hair. Looks so terrible
2024-11-02 20:41:42
0
cain.garcies
Cain Garcies :
Une femme de toi😳😳😳😳🥰🥰🥰🥰
2024-11-02 17:11:48
1
vidahhhlmnopk
vidahhhlmnopk :
no se puede huir del destino tiene que suceder
2025-03-27 00:24:46
0
kadieboudreaux
KK :
🥰
2025-03-14 20:53:21
0
rytisv1
Rytis :
🥰🥰🥰
2024-11-01 22:59:28
6
loreflores103
Lore Flores7880 :
😅
2025-02-24 21:52:26
0
bernikica07
BernieAjaxFan :
🤩🤩🤩💖💖💖
2025-02-20 20:50:00
0
inces_20213
inces_2021 :
😁
2025-01-05 23:44:37
0
jamieh61
jamie hall :
I know you’re in Saudi, so I just thought I’d check with the time difference being quite big, is it still Tiffy Time???
2024-11-01 18:45:12
52
gdp7145
gdp714 🇨🇦 :
I can’t tell you how many fake accounts, claiming they are you, following me hahahah. I’m like, yea she’s way too hot to be following me. Hahahaha
2024-11-01 18:46:05
16
pedrolome21
pedro L. :
hi Tiffany your sexy baby I love you 😍 baby 🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰
2024-11-02 18:18:52
5
michaellindsey27
Michael Lindsey :
❤️❤️❤️❤️❤️
2024-11-02 01:29:00
6
jimbodriver
jimbodriver :
wow so sexy
2024-11-29 02:26:13
5
angel.tapia072
Angel Tapia :
all Elite wrestling Angel Tapia WWE WWE night Fox News WWE RAW Monday WWE Noxt 🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰🥰
2024-11-04 07:44:43
5
ignaciocejanacho
Ignacio Ceja Nacho :
Sexy🥰
2024-11-01 22:51:07
5
seanbaker1972
Sean Baker :
Mmmmmm.....
2024-11-01 19:53:04
6
justin.kennedy01
Justin Kennedy :
Nia is pissed if at you and don’t let her tell you what to do
2024-11-03 05:48:49
2
mrurban97
MrUrban10 :
Tomorrow is cash in day
2024-12-13 17:22:03
1
mwapeleonard
Smileykid comediez :
@Smileykid comediez:i love you moves in the ring .... kindly looking for a job as a garden boy from Zambia please
2024-11-13 22:09:09
0
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I updated my Schrödinger Equation visuals. This time, I included the unbounded inner product Gaussian in the first 2 animations, and used the more familar localized inner product on the last. To review: The Schrödinger equation is one of the cornerstones of quantum mechanics, describing how the quantum state of a physical system changes over time. Here's a detailed explanation without using any equations: ### **Core Idea:** The Schrödinger equation governs the behavior of quantum systems, much like Newton's laws govern classical mechanics. Instead of predicting exact positions and velocities of particles, it tells us how the *probability amplitude* (a complex-valued function related to the likelihood of finding a particle in a certain state) evolves over time. ### **Key Concepts:** 1. **Wavefunction (ψ):** - In quantum mechanics, particles don’t have definite positions or paths. Instead, their state is described by a *wavefunction*, which contains all the probabilistic information about the system. - The wavefunction doesn’t tell us where a particle *is* but rather where it *might be* and with what probability. 2. **Time Evolution:** - The Schrödinger equation explains how the wavefunction changes with time. It doesn’t determine a single outcome but describes a smooth, deterministic evolution of probabilities. - If you know the wavefunction at one moment, the equation tells you how it will look in the next instant. 3. **Energy and Hamiltonian:** - The equation depends on the *Hamiltonian*, which represents the total energy of the system (kinetic + potential energy). - Different potentials (e.g., an electron in an atom vs. a free particle) lead to different wavefunction behaviors. 4. **Superposition & Quantization:** - The equation naturally leads to *superposition*—where a quantum system can exist in multiple states at once until measured. - For bound systems (like electrons in atoms), it predicts *quantized* energy levels, explaining why electrons occupy discrete orbitals. 5. **Uncertainty & Probabilities:** - The wavefunction’s square magnitude gives the probability density of finding a particle in a certain state. - Unlike classical physics, quantum mechanics is inherently probabilistic, and the Schrödinger equation encodes this randomness. ### **Analogy (Rough but Helpful):** Imagine a ripple spreading on a pond. The shape and motion of the ripple depend on the water’s properties (like depth and obstacles). Similarly, the Schrödinger equation describes how the
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