BIZZARE WOLD OF QUANTUM MECHANICS is a course that teaches the basic ideas of quantum mechanics with a method that requires no complicated math beyond taking square roots. The main aim of this course is to discuss quantum mechanics conceptually and to learn some bizarre aspect of quantum world. We will start with Stern-Gerlach experiment, cover the quantum mystery of the two-slit experiment and advanced topics that include how to see something without shining light on it (quantum seeing in the dark) and bunching effects of photons (Hong-Ou-Mandel effect). 1. Introduction to the Quantum WorldIn the first module, you will become aware of the truth that much of what you have learned about the quantum world is either incomplete or wrong. You’ll learn about what happens to an effective magnet that moves through an inhomogeneous magnetic field, how to calculate the probabilities of occurrence of random events, and how to compute probabilities for quantum events with spin.2. Advanced Quantum Mechanics with SpinsIn the second module, we’ll explore the phenomenon that quantum particles only remember the last thing that was measured about them. We’ll look at quantum weirdness, how one can erase which-way information, how quantum particles can be entangled, and how Einstein’s hidden variable theory cannot be correct.3. The Quantum Mechanics of LightIn the third module, we will explore the dual particle and wave nature of light, which we call a quantum particle. You will learn how light, while acting as a particle, manages to partially reflect off glass, how light travels employing the rules of quantum mechanics, and how quantum theory can be applied to mirrors, diffraction gratings, and lenses. We’ll also explore what we call “the quantum mystery.”4. Advanced Quantum Ideas with LightIn the fourth module, we will look at how, using quantum interference, we can measure the presence of an object without interacting with it, also known as “quantum seeing in the dark.” You’ll learn about interferometers, infinity, limits, the polarization of light,interaction-free measurements, and what it means to be indistinguishable.The course is designed to support you in achieving several learning goals. By the end of the course, you will have:? Come to understand what a quantum particle is in the world of the ultra-small? Learned the basics of probability theory? Discovered what spin is and how it is manipulated by magnets and, upon successfully completing the course, you will be able to:? Explain what the quantum mystery is? Apply quantum ideas to understand partial reflection of light, interaction-free measurements, and particle indistinguishability.Grades: The homework and quizzes : 50%, Final report: 50%