Having laid the groundwork for quantum mechanics in one dimension, we now turn our attention to the more realistic and intricate world of three-dimensional systems. While one-dimensional models off...

This chapter explores the particle-like nature of light, delving into groundbreaking experiments that revolutionized our understanding of quantum mechanics. We will examine Planck’s blackbody radia...

The goal of this chapter is to explore the fundamental structure of the atom and understand the nature of matter by examining key experiments and discoveries that shaped modern atomic theory. We wi...

In previous chapters, we’ve explored the atomic composition of matter and the particle-like behavior of photons. A natural question arises: if photons can exhibit particle-like properties, could pa...

The source codes of lesson plan in jupyter Notebook format can be found for learn or teaching programming. 📘 Week 2: Lesson 2 Level 1 This lesson will open in an interactive JupyterLab e...

In this book, we will briefly look at the python coding that are useful for simulating Physics problems. 1.1 What is Python? Python is a popular programming language. It was created by Guido van Ro...

2.1 Chapter 2 2.1.1 Taylor Series and Binomial Expansion The Taylor series is a powerful tool in mathematics that represents a function as an infinite sum of terms, calculated from the values of ...

In this chapter, we will learn one-dimensional quantum mechanics, beginning with fundamental concept of wave equations starting from wave equations. We will introduce the Schrödinger equation, a co...