In analyzing the situation, we need the transmission and reflection coefficients. Apply the continuity conditions at the points x = 0 and x = a to solve the various intensities of the waves and thereby calculating R and T.



Beware, some heavy rearranging of algebraic expressions ahead. And remember that R + T = 1.

1. The Free Particle: Continuous States
2. The Free Particle: Analyzing the Solutions
3. The Free Particle: Are Continuous States Physical?
4. The Free Particle: A Gaussian Wave Packet
5. The Free Particle: Calculating Our Wave Packet
6. Solving the Schrödinger Equation
7. Description of Plane Waves
8. Probability Current Density
9. Calculating R and T
10. Explaining Quantum Behavior
11. Particle-like Gets Stopped
12. The Strange Evanescent Wave
13. Infinite Square Well: Deriving Discrete Energy Value
14. Infinite Square Well: What is Zero-Point Energy?
15. Infinite Square Well: Unusual Probability Densities
16. The Scattering Problem
17. Ratio Transmitted Particles
18. Energy Values and Resonance
19. Full Transmission of Part
20. Tunneling: Setting the Situation
21. Tunneling: Deciphering the Wave-like Particle
22. Tunneling: Penetrating the Potential Barrier
23. Tunneling: Further Analysis of T
24. Tunneling: The WKB Approximation Method
25. Introduction
26. Unphysical Solutions
27. Fourier Transform Revisit
28. Outside the Well
29. Anti/Symmetric Solutions
30. Boundary Conditions
31. A Graphical Solution
32. Discrete Energy Specturm

In this course, GMath Physics Instructor Donny Lee gives 32 video lessons on Quantum Mechanics and Physical Problems in One-Dimension.