Lecture
Magnetism in Nanosciences
In course
DEMO: sit proident
Laborum esse ad ad tempor. Tempor mollit aliqua deserunt anim commodo aliquip cillum aute. Velit irure esse irure voluptate irure enim voluptate voluptate culpa velit consequat laborum fugiat sint. Amet irure enim id veniam tempor. Et amet aliquip consequat do. Eu cillum aliquip incididunt consectetur ad do quis. Aliquip officia ex laboris duis cupidatat officia eiusmod velit incididunt ut laboris.
Description
This lecture covers the principles of magnetism in nanosciences, focusing on the density of states, Hund's Rules, and orbital configurations. The instructor explains how to determine the electronic configurations of different elements, such as titanium and iron, and how to calculate the orbital spin moment for each configuration.
Instructors (4)
tempor veniam nulla laboris
Magna duis laborum duis consectetur cillum. Ipsum tempor quis ex qui consequat cupidatat irure aliquip elit deserunt. Cupidatat ex magna pariatur velit deserunt aliquip enim enim minim reprehenderit aute dolor esse magna. Aliquip laborum in ut dolor elit quis laborum exercitation enim proident proident nisi qui. Proident enim ullamco eu deserunt nisi aliquip est Lorem aute fugiat do occaecat. Culpa reprehenderit anim sunt cupidatat et deserunt fugiat incididunt laborum voluptate velit laborum in. Eiusmod et anim exercitation dolore dolor excepteur incididunt laboris reprehenderit sunt veniam cillum elit et.
enim magna quis officia
Nulla incididunt cupidatat elit quis. Tempor occaecat esse voluptate fugiat anim anim fugiat commodo. Minim officia nostrud magna ut esse proident.
sint irure
Qui laborum adipisicing mollit magna elit mollit. Deserunt sint ut duis irure. Ut reprehenderit minim incididunt laborum dolore.
irure sit qui consectetur
Aliqua officia aute est pariatur enim ullamco. Nisi incididunt ipsum Lorem ut eu cupidatat ut excepteur amet ex. Eu excepteur magna sit minim nisi mollit id nostrud aliqua aliquip exercitation. Aute consequat laborum enim duis tempor. Cupidatat ipsum ipsum anim est nulla nulla adipisicing amet pariatur.
Official source
About this result
This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.
Ontological neighbourhood
Related lectures (32)
Atomic Structure: Quantum Mechanics
Covers atomic theory, Schrödinger equation, quantum numbers, electron configurations, and periodic properties of elements.
Spin Angular Momentum
Explores spin as angular momentum, its operators, commutation relations, and eigenstates in quantum mechanics.
Advanced General Chemistry I: Electronic Structure of Atoms
Explores the electronic structure of atoms, covering energy levels, electron configurations, and atomic properties.
Crystal Field Theory: Spectrochemical Series
Explores the Spectrochemical Series for metals and ligands, Crystal Field Splitting, Jahn-Teller distortion, and bonding interactions in coordination compounds.
Magnetic Moments: Atoms & Ions
Explores the computation of total magnetic moments of atoms and ions, covering electron-nucleus interactions, filled shells, and types of magnetism.