Course on “Resonance in Nature based of NHQM” (talks on all chapters in the book of NM on NHQM) 01 (Introduction) 01 (Is God plays with dice?) 01 (Two talks on NHQM based on the cover of the book) 01 (Complex eigenvalues?) 01 (Numerical needs for non-hermitian Hamiltonian) 02 (Physical complex potentials) 02 (Complex eigenvalues for a real Hamiltonian) 03 – Examples for Shape type resonances 04 – Examples for Feshbach type resonances 05 – A numerical method (DVR) for calculating resonances, based on the complex variational principle proved in chapter 7. 06 – Project: Excited state K-He spin exchange (06-1 – Outlines for representatioms of projects) 06 – Project: Excited state K-He spin exchange 06 – Project: Excited state K-He spin exchange (Discussion of Project No.1) 07 – The self-orthogonality phenomenon 07 – Atomic and molecular resonance – The problem and its solution 08 (Resonance effects in cold molecular collisions: theory vs experiment) 08 (Project II: simple model for autoionization obtained in cold molecular collsion experiments.) 09 – Book on NHQM: Chapter 4 – Resonances from non-Hermitian quantum mechanical calculations 10 – Book on NHQM: Chapter 5 – Square integrable resonance wavefunctions 11 – Book on NHQM: Chapter 6 – Bi-orthogonal product (c-product) 12 – Book on NHQM: Chapter 7 – The properties of the non-Hermitian Hamiltonian 13 – Book on NHQM: Chapter 8 – Non-Hermitian scattering theory