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Atomic Orbitals on a Computer

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Presentation on theme: "Atomic Orbitals on a Computer"— Presentation transcript:

1 Atomic Orbitals on a Computer http://www.askamathematician.com

2 The hydrogen atom is three systems in one: The H-Atom Model Setting up the Schrodinger equation we get new equations to solve for each “motion”   r nucleus distance from the origin azimuthal angle equatorial angle

3 The Schrodinger equation: Hydrogen Atom Solution: We want to visualize this Radial Wave function Angular Wave function

4 For the Radial part of the Schrodinger equation: Numerov Procedure Just this again: We can use the Numerov program to solve it! Radial wave function depends on n and l quantum numbers This can be reformed to look like:

5 The radial wave functions tell you what is happening inside the orbital: Numerov Procedure # radial nodes = n – l – 1

6 numerov_control.R

7 For the angular parts of the Schrodinger equation: Doh! We get an equation that we can’t solve with Numerov… So, we will just “look-up” the solutions: Legendre Polynomials

8 is a probability density. To “look” at a probability density, we can sample from it: Let’s sample from the “bell curve”: Well, … lets try something else

9 So, let’s try to “look” at the orbitals as a probability density. Let’s sample from it: Well, … lets try something else

10 Lets do a 3D sample from an orbital probability density: Well, … lets try something else 1s01s0

11 Lets do a 3D sample form an orbital probability density: Well, … lets try something else 1s01s0

12 Lets do a 3D sample form an orbital probability density: Well, … lets try something else What orbital is this?

13 density_control.R

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