Nuclear fission Simulation — Description Simulation This interactive HTML5 + Canvas simulation visualizes the deuterium-tritium (D-T) nuclear fusion process — the most promising reaction for practical fusion power on Earth. It is divided into three clearly labeled tabs: The physics is accurate and fact-checked (D-T cross-section behavior, energy partitioning, ITER-like parameters, no chain reaction, stable […]
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Nuclear fission Simulation — Description Simulation Three tabs showing nuclear fission at increasing scale: Single Fission — a ²³⁵U nucleus absorbs a slow neutron, becomes excited [²³⁶U]*, then splits into ⁹²Kr + ¹⁴¹Ba + 3 neutrons + ~200 MeV. Watch the shockwave, fragment separation, and neutrons streaming out. Chain Reaction — each fission triggers more,
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Radioactive Decay Simulation — Description Half-Life Simulation 64 radioactive atoms are displayed in a grid. Each atom glows and shakes while unstable. When it decays, it flashes and dims. The live graph on the right plots actual decay data against the theoretical curve N(t) = N₀ · e^(−λt) in real time. Choose from five AQA
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Simulation of Nuclear decay Simulation Overview Three tabs show alpha, beta, and gamma nuclear decay at the atomic level. Each opens with an unstable nucleus — protons (red) and neutrons (blue) packed together and shaking furiously inside a glowing boundary ring, surrounded by four bright electron shells. At the moment of decay the nucleus instantly
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Radioactive Decay Simulation — Description The simulation shows 48 unstable nuclei arranged in a grid, each decaying randomly over time following the exponential decay law N(t) = N₀ · e^(−λt). Students can select five AQA-relevant isotopes from the dropdown — Carbon-14, Polonium-210, Radium-226, Technetium-99m, and Sodium-22 — each with its correct decay type (α, β⁻,
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