Additinal explanation was added for simplifying the purpose of S.E.
A wave is characterized by its frequency and wavelength, and its energy is determined by the frequency. We also
know that a particle is characterized by its energy and momentum. Waves and particles are
two completely different and unrelated phenomena in classical mechanics and electrodynamics.
In quantum mechanics, however, they are interrelated and are two aspects of matter.
|12||10.Variational method ||조영달||2019.06.03||17|
|11||9. Time-independent approximations||조영달||2019.05.29||14|
|10||8. Symmetries and angular momentum||조영달||2019.05.22||19|
|8||7. Particles in spherically symmetric potential||조영달||2019.05.08||23|
|7||6. The tunneling problem||조영달||2019.04.29||8|
|6||Mid-term exam problems will be discussed on Apr. 22||조영달||2019.04.21||11|
|5||(updated) 5. Particle in a periodic potential||조영달||2019.03.26||16|
|4||4. Harmonic oscillator||조영달||2019.03.24||8|
|3||3. Schrodinger Eq.||조영달||2019.03.12||13|
|»||(updated) 2. Wave nature of Matter||조영달||2019.03.06||20|
|1||1. Class overview||조영달||2019.03.03||23|