![Particle on a Ring Model for Teaching the Origin of the Aromatic Stabilization Energy and the Hückel and Baird Rules | Journal of Chemical Education Particle on a Ring Model for Teaching the Origin of the Aromatic Stabilization Energy and the Hückel and Baird Rules | Journal of Chemical Education](https://pubs.acs.org/cms/10.1021/acs.jchemed.2c00523/asset/images/medium/ed2c00523_0002.gif)
Particle on a Ring Model for Teaching the Origin of the Aromatic Stabilization Energy and the Hückel and Baird Rules | Journal of Chemical Education
![SOLVED: The particle on a ring is a useful model for the motion of electrons in cyclic polyenes. Consider the case of porphyrin present in many biological molecules of interest and with SOLVED: The particle on a ring is a useful model for the motion of electrons in cyclic polyenes. Consider the case of porphyrin present in many biological molecules of interest and with](https://cdn.numerade.com/ask_images/be246007199f4e6ba2a1ceab65eb6082.jpg)
SOLVED: The particle on a ring is a useful model for the motion of electrons in cyclic polyenes. Consider the case of porphyrin present in many biological molecules of interest and with
![SOLVED: A particle on a ring: Consider a particle of mass m that moves on a rigid ring of radius R. I. Find the energy eigenvalues and eigenstates of this quantum system. SOLVED: A particle on a ring: Consider a particle of mass m that moves on a rigid ring of radius R. I. Find the energy eigenvalues and eigenstates of this quantum system.](https://cdn.numerade.com/ask_images/c8ffbf88e80141368057925bca091a8c.jpg)
SOLVED: A particle on a ring: Consider a particle of mass m that moves on a rigid ring of radius R. I. Find the energy eigenvalues and eigenstates of this quantum system.
34.5 Worked Example - Particle Hits Pivoted Ring | Classical Mechanics | Physics | MIT OpenCourseWare
a thin stationary ring of radius 1m has a positive charge 10mc uniformly distributed over it . a particle of mass 0.9gm and having a negative charge of 1mc is placed on
![SOLVED: The Hamiltonian for the particle on ring model is H = L. 2m R2 Consider normalized wave function w(o) = sin 0. Is this function the eigen function of the H SOLVED: The Hamiltonian for the particle on ring model is H = L. 2m R2 Consider normalized wave function w(o) = sin 0. Is this function the eigen function of the H](https://cdn.numerade.com/ask_images/42050a6e269e4ef686e2af5452185699.jpg)
SOLVED: The Hamiltonian for the particle on ring model is H = L. 2m R2 Consider normalized wave function w(o) = sin 0. Is this function the eigen function of the H
![The system under consideration: A particle on a ring in the presence of... | Download Scientific Diagram The system under consideration: A particle on a ring in the presence of... | Download Scientific Diagram](https://www.researchgate.net/publication/50398787/figure/fig1/AS:305712933687296@1449899051302/The-system-under-consideration-A-particle-on-a-ring-in-the-presence-of-a-periodic.png)