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Spherical Harmonics: Atomic Orbitals, Laplacian in Polar and Spherical Coordinates, Laplace Equation
https://3speak.tv/watch?v=mes/220d6572
In this video, I go over a deep dive into the famous spherical harmonics, which are the solutions to Laplace’s equation in spherical coordinates and are very prevalent in physics, especially in the quantized configurations of atomic orbitals or the electron charge distribution around the atom's nucleus. Laplace's equation is the sum of the 2nd partial derivatives of a function with respect to the x, y, z terms (in rectangular coordinates) and is equated to zero. Converting this equation into spherical coordinates (r, θ, φ) (which I do by first obtaining the corresponding Laplace operator or Laplacian in polar coordinates), and then solving it produces solutions known as solid spherical harmonics. Focusing only on the angular terms θ and φ obtains the spherical harmonics, which, when plotting only the real terms (ignoring the imaginary terms), and distorting radial terms proportional to the magnitude of values on the sphere, we obtain the distinct 3D lobes!
#math #sphericalharmonics #calculus #atomicorbitals #science
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By Math Easy Solutionshttps://3speak.tv/watch?v=mes/220d6572
In this video, I go over a deep dive into the famous spherical harmonics, which are the solutions to Laplace’s equation in spherical coordinates and are very prevalent in physics, especially in the quantized configurations of atomic orbitals or the electron charge distribution around the atom's nucleus. Laplace's equation is the sum of the 2nd partial derivatives of a function with respect to the x, y, z terms (in rectangular coordinates) and is equated to zero. Converting this equation into spherical coordinates (r, θ, φ) (which I do by first obtaining the corresponding Laplace operator or Laplacian in polar coordinates), and then solving it produces solutions known as solid spherical harmonics. Focusing only on the angular terms θ and φ obtains the spherical harmonics, which, when plotting only the real terms (ignoring the imaginary terms), and distorting radial terms proportional to the magnitude of values on the sphere, we obtain the distinct 3D lobes!
#math #sphericalharmonics #calculus #atomicorbitals #science
Timestamps:
Notes and playlists:
Become a MES Super Fan! https://www.youtube.com/channel/UCUUBq1GPBvvGNz7dpgO14Ow/join
DONATE! ʕ •ᴥ•ʔ https://mes.fm/donate
SUBSCRIBE via EMAIL: https://mes.fm/subscribe
MES Links: https://mes.fm/links
MES Truth: https://mes.fm/truth
Official Website: https://MES.fm
Hive: https://peakd.com/@mes
Email me: [email protected]
Free Calculators: https://mes.fm/calculators
BMI Calculator: https://bmicalculator.mes.fm
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iPhone and Android Apps: https://mes.fm/mobile-apps