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Particle in a 3D Box

𓏬𓏬𓏬𓏬𓏬ELEVATE CLASSES𓏬𓏬𓏬𓏬𓏬 Browse LIVE & Recorded Courses for Physics IITJAM, CSIR-NET, GATE, TIFR, JEST etc on our platform ► https://www.elevateclasses.in/ Android ► https://bit.ly/3zU71ur iOS ► https://apple.co/3ZPRWVJ (use ORG code - AHGXS) 𓏬𓏬𓏬𓏬𓏬LEC NOTES - GDRIVE𓏬𓏬𓏬𓏬𓏬 Find the PDF Scanned copy of my NOTES for this lecture here: 𓏬𓏬𓏬𓏬𓏬VIDEO DESCRIPTION𓏬𓏬𓏬𓏬𓏬𓏬 The "particle in a 3D infinite box" problem is a fundamental concept in quantum mechanics that demonstrates how quantum particles behave in a confined space with rigid boundaries. Here are the key points: Concept: The problem involves a single particle confined to move within a three-dimensional rectangular box where the walls are infinitely high. This means the particle cannot escape the box, and its wavefunction must be zero at the walls. Quantization of Energy Levels: Because the particle is confined, it can only occupy discrete energy levels. Unlike in classical mechanics, where a particle could have any energy, quantum mechanics imposes restrictions, leading to quantized energy states. Wavefunctions and Nodes: The possible states of the particle are described by wavefunctions, which represent the probability distribution of the particle's position in the box. These wavefunctions have nodes (points where the probability of finding the particle is zero) at the walls of the box. The number of nodes increases with higher energy levels. Degeneracy: In a 3D box, some energy levels may correspond to different wavefunctions that have the same energy. This is known as degeneracy. For example, different combinations of quantum numbers that describe the particle's state can result in the same energy level. Implications for Quantum Systems: The "particle in a 3D infinite box" is a simplified model that helps in understanding more complex quantum systems. It provides insights into the behavior of electrons in atoms, molecules, and even in solid-state physics for understanding the properties of materials. Applications: This model is foundational for quantum mechanics and is used to introduce concepts like quantization, wave-particle duality, and the probabilistic nature of quantum states. It also serves as a stepping stone to more complex systems like quantum wells, quantum dots, and the analysis of potential wells in three dimensions. Limitations: While useful for teaching and conceptual understanding, the infinite potential well is an idealization. Real-world systems have more complex boundary conditions, potential variations, and interactions that require more sophisticated models to describe accurately. This problem is fundamental for understanding the quantization of energy and the wave nature of particles, both central themes in quantum mechanics. 00:00 Introduction 02:57 Solution of Schrodinger Equation 17:23 Normalization 24:05 Eigenfunctions & Energy Levels 29:25 Visualizations 𓏬𓏬𓏬𓏬𓏬𓏬TELEGRAM𓏬𓏬𓏬𓏬𓏬𓏬 Join my Telegram Channel ► https://t.me/FortheLoveofPhysicsYT 𓏬𓏬𓏬𓏬𓏬SUPPORT CHANNEL𓏬𓏬𓏬𓏬𓏬 Your Financial support provides me an additional incentive to create high quality lecture videos. I am very much thankful for your generosity and kindness Support/ Patreon ❤️❤️❤️  / dibyajyotidas   Donate/ Paypal 🔥🔥🔥 https://paypal.me/FortheLoveofPhysics JOIN MEMBERSHIP in Youtube 😇😇😇    / @fortheloveofphysics