Jim Donegan ✅ · @jimdonegan
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Jim Donegan ✅ · @jimdonegan
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Corrado · @astrocorrus
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Jim Donegan ✅ · @jimdonegan
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Jim Donegan ✅ · @jimdonegan
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Jim Donegan ✅ · @jimdonegan
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Jim Donegan ✅ · @jimdonegan
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Jim Bowering · @arjaybe
80 followers · 910 posts · Server mastodon.cloud

Superpose
This week’s reading is Superpose by Yuen Xiang Hao. Its themes are wave function, superposition and the uncertainty principle. Length about eight-and-a-half minutes. Listen to this and other stories on the Audio page.

rjb
greencomet.org/2023/02/17/supe

#quantumphysics #audiobooks #flashfiction #greencomet #wavefunction #writing #shortstories #uncertaintyprinciple

Last updated 2 years ago

Jim Bowering · @arjaybe
77 followers · 902 posts · Server mastodon.cloud
Jim Donegan ✅ · @jimdonegan
1359 followers · 3519 posts · Server mastodon.scot
Scientific Frontline · @sflorg
1004 followers · 2258 posts · Server mastodon.social

In the realm an does not behave as point particle, instead it behaves more as a wave. Its properties (e.g., its position and velocity) are described in terms of what is referred to as the of the atom.

sflorg.com/2023/01/qs01242301.

#atom #wavefunction #quantumscience #physics #sflorg #quantum

Last updated 2 years ago

Jim Donegan ✅ · @jimdonegan
1332 followers · 3259 posts · Server mastodon.scot
ednl 🇪🇺 · @ednl
99 followers · 520 posts · Server mastodon.social

Always a fun evening whenever Physics Explained uploads a new video (and re-uploads once or twice for minor corrections... I think we got the final version now). This time it's about Heisenberg's uncertainty principle and we randomly perform a Fourier transformation, solve the time-independent wave function, and use Taylor to get the full solution. youtu.be/FRP4AqZR3UU

#physics #physik #fysica #natuurkunde #heisenberg #euler #gauss #probability #wavefunction #hbarovertwo #WaveParticleDuality

Last updated 2 years ago

Jim Donegan ✅ · @jimdonegan
1305 followers · 3077 posts · Server mastodon.scot

In the de Broglie-Bohm interpretation of quantum mechanics, the wave function acts as a pilot wave that obeys the Schrödinger equation. The guiding equation then determines the trajectories quantum particles take, removing the "measurement problem" from the theory.

\[\dfrac{\mathrm{d}\mathbf{Q}}{\mathrm{d}t}(t) = \dfrac{\hbar}{m} \operatorname{Im}\left(\dfrac{\nabla \psi}{\psi}\right)(\mathbf{Q}, t)\]

#wavefunction #guidingequation #schrodingerequation #quantummechanics #bohmianmechanics

Last updated 2 years ago

In the de Broglie-Bohm interpretation of quantum mechanics, the wave function acts as a pilot wave that obeys the Schrödinger equation. The guiding equation then determines the trajectories quantum particles take, removing the "measurement problem" from a theory.

\[\dfrac{\mathrm{d}\mathbf{Q}}{\mathrm{d}t}(t) = \dfrac{\hbar}{m} \operatorname{Im}\left(\dfrac{\nabla \psi}{\psi}\right)(\mathbf{Q}, t)\]

#wavefunction #guidingequation #schrodingerequation #quantummechanics #bohmianmechanics

Last updated 2 years ago

In the de Broglie-Bohm interpretation of quantum mechanics, the wave function acts as a pilot wave that obeys the Schrödinger equation. The guiding equation then determines the trajectories quantum particles take, removing the "measurement problem" from a theory.

\[\dfrac{d\mathbf{Q}}{dt}(t) = \dfrac{\hbar}{m} \operatorname{Im}\left(\dfrac{\nabla \psi}{\psi}\right)(\mathbf{Q}, t)\]

#wavefunction #guidingequation #schrodingerequation #quantummechanics #bohmianmechanics

Last updated 2 years ago

\(\text{In the de Broglie-Bohm interpretation of quantum mechanics, the wave function acts as a pilot wave that obeys the Schrödinger equation. The guiding equation then determines the trajectories quantum particles take, removing the "measurement problem" from a theory.}\)

\[{\dfrac{d\mathbf{Q}}{dt}(t) = \dfrac{\hbar}{m} \operatorname{Im}\left(\dfrac{\nabla \psi}{\psi}\right)(\mathbf{Q}, t)\]

#wavefunction #guidingequation #schrodingerequation #quantummechanics #bohmianmechanics

Last updated 2 years ago

\(\text{In the de Broglie-Bohm interpretation of quantum mechanics, the wave function acts as a pilot wave that obeys the Schrödinger equation. The guiding equation then determines the trajectories quantum particles take, removing the "measurement problem" from a theory.\}\)

\[{\dfrac{d\mathbf{Q}}{dt}(t) = \dfrac{\hbar}{m} \operatorname{Im}\left(\dfrac{\nabla \psi}{\psi}\right)(\mathbf{Q}, t)\]

\]

#wavefunction #guidingequation #schrodingerequation #quantummechanics #bohmianmechanics

Last updated 2 years ago