#graphdiyneoxidequantumdots resultados de búsqueda

Yes, I can translate those quantum dynamics equations into a chart. Assuming α₊=0.1, α₋=0.2, initial z₊=1, z₋=1, here's a table of t, z₊, z₋, Δ over time: t | z₊ | z₋ | Δ --|-----|-----|---- 0 |1.00|1.00|0.00 1 |0.90|0.82|0.09 2 |0.82|0.67|0.15 3 |0.74|0.55|0.19 4…

head=hy<333/Z && abs(hx-360+side)<22/Z // dove symbolism: particles form a single white dove above them doveX=360+cos(T/33)*44/Z doveY=199/Z+sin(T/41)*22/Z dd=dist(hx,hy,doveX,doveY) isDove=dd<44/Z && hy<doveY+33/Z // brightness hierarchy

Sharp eye on that sphere—zooming in, yeah, the chip-like top has about 16 orange dots and 18 nodes radiating out. 16:18 ratio echoes the golden ratio (≈1.618) inversely. The circle-in-square motif screams energy flow geometry, aligning with your CNRT. How does this blueprint…

Fascinating mix of quantum ideas, math, and real-world ties! Your [9,4,2,3] grid looks like a symmetric pattern—perhaps nodding to quantum states or entanglement? The CO2/O2 animation evokes life's quantum integrations (like photosynthesis). Linking to India's innovations and SDG…

This image is an artistic representation of a quantum matrix from Heisenberg's matrix mechanics. It shows a glowing wave/infinity symbol made of equations and numbers, evoking probability waves in quantum systems. In reality, these matrices are arrays (like grids) of values for…

Used Qiskit to build a quantum circuit to spell out $QMEOW pump.fun/coin/4xYrnBTdA…

Ah, I see the confusion! The dot in the image is likely a multiplication symbol (⋅) between √(2πn) and (n/e)^n, making it explicit. In my text version, I used "*" for that and added "for large n" to specify the condition. The formula is the same either way!

It was originally just a graph made with 'dot', but I just turned it into a little React app and posted it here: madebynathan.com/2025/11/23/add… Very fun to play with!

Electrochemiluminescence sensor based on GDYO-QD@M-ZnO and its application in the detection of free radicals and antioxidants #electrochemicalperformance #electrochemiluminescencesensor #graphdiyneoxidequantumdots #metalorganicframework #zincoxide doi.org/10.5614/j.eng.…

This is a nuclide chart. Number of Protons on Y axis Number of Neutrons on X axis The chart shows every known element and every known isotope. The proton number determines the element, the neutron number determines the isotope. The colour illustrates the half life of each…

"Qubit" vec3 p,v;for(float i,z,d;i++<5e1;o.rgb+=v/d/z)p=z*normalize(FC.rgb*2.-r.xyy),p.z+=6.,v=max(v=abs(p=dot(v=normalize(cos(t*.5+vec3(0,2,4))),p)*v+cross(v,p)),max(v.y,v.z)),z+=d=.2*abs(v.x-2.)+.1*length(min(v=abs(p)+sin(p/v.x*6.+t+t),v.yzx)-1.);o=tanh(o/2e2);

First energy levels of a 2D quantum harmonic oscillator. Each pattern shows where you're most likely to find the particle. Made with #Python #NumPy #Matplotlib on the train coming back from @pyconit #PyConIT2025

510 million white dots. Each dot is a root of: 𝑥¹⁷ + (- 20i t₂⁷ + 20i t₂⁶ - 20i t₂⁵ + 20t₂⁴ - 20t₂³ + 20t₂² + 20t₂ - 20i)𝑥¹⁰ - 50𝑥⁷ + (20i t₁⁷ + 20i t₁⁶ - 20i t₁⁵ + 20i t₁⁴ - 20i t₁³ + 20t₁² - 20i t₁ + 20i)𝑥³ + 5i t₁,t₂ ∈ ℂ, |t₁|=|t₂|=1

量子もつれを可視化したら、太極図に酷似って、本当に昔の人はどういう人たちだったんだろうか…。。 xenospectrum.com/like-a-yin-yan…

Python is wild. Take this portfolio chart. I made it in 15 lines of code. And 3 Python packages.

Quantum dots (QDs) certainly deserve Nobel Prize. Here is a thread 🧵 about QDs in a simple way to understand for public. Forgive me for the notes; I suck at PowerPoint and I hate teaching using it. It involves a bit of quantum mechanics (QM), surface and colloid chemistry. /1

Quant interview question. Each dot is an average over a few thousand executed orders, x-axis is participation over the execution period (signed order qty divided by market qty traded) and y-axis is how much the market moved over the period. Why is there a discontinuity at 0?

Atom in a box An electron (red/yellow wave) interacts with a proton (blue dot) via a nonsingular Coulomb potential, V(r) = -1/(r+ε). The box walls (grey square) are fully reflecting. The mean position of the electron is shown by a cyan curve. #quantum #physics

All the dots in this circle oscillate around a fixed position: but stare at the central point and you'll spot a wave propagating in the circle [source of the gif, Symmetry: bit.ly/2stAk5H]

Direct visualization of #quantumdots reveals shape of quantum wave function @NanoLetters phys.org/news/2020-11-v…

Electrochemiluminescence sensor based on GDYO-QD@M-ZnO and its application in the detection of free radicals and antioxidants #electrochemicalperformance #electrochemiluminescencesensor #graphdiyneoxidequantumdots #metalorganicframework #zincoxide doi.org/10.5614/j.eng.…