In physics, a ferromagnetic material is said to have magnetocrystalline anisotropy if it takes more energy to magnetize it in certain directions than in others. These directions are usually related to the principal axes of its crystal lattice. It is a special case of magnetic anisotropy.In other words, the excess energy required to magnetize a specimen in a particular direction over that required to magnetize it along the easy direction is called crystalline anisotropy energy. (Wikipedia).
Magnetocrystalline anisotropy in Ce-compounds by Arumugam Thamizhavel
Program The 2nd Asia Pacific Workshop on Quantum Magnetism ORGANIZERS: Subhro Bhattacharjee, Gang Chen, Zenji Hiroi, Ying-Jer Kao, SungBin Lee, Arnab Sen and Nic Shannon DATE: 29 November 2018 to 07 December 2018 VENUE: Ramanujan Lecture Hall, ICTS Bangalore Frustrated quantum magne
From playlist The 2nd Asia Pacific Workshop on Quantum Magnetism
Magnetism (1 of 13) Magnets & Magnetic Field Lines, An Explanation
An explanation of magnets and how to draw magnetic field lines. Covers force of attraction and repulsion. How to draw magnetic field lines for like poles (bar magnet), unlike poles and a U-shaped magnet. A magnet is a material or object that produces a magnetic field. This magnetic fiel
From playlist Magnets, Magnetism and Charges in Magnetic Fields
Magnetism (4 of 13) Magnetic Field of a Wire, Calculations
Explains how to do simple calculations for the magnetic field generated by the current in a long straight wire. Three worked examples show you how to calculate the magnetic field strength, the amount of current flowing through the wire and the distance r from the wire. The magnetic field
From playlist Magnets, Magnetism and Charges in Magnetic Fields
Electrostatics and Magnetism using Electroscope and Horseshoe Magnet Experiment
Experiments to clear up a misconception that a magnet can affect the leafs of an electroscope simply by moving the magnetic field of the magnet close to the leafs. In this case a horseshoe magnet is used with a homemade electroscope with aluminum leafs. It's shown that the poles of the mag
From playlist Science Projects
From playlist Magnetism
Magnetism (2 of 13) Why are Magnets Magnetic, An Explanation
An explanation of why magnets are magnetic. Ever wondered why some pieces of metal stick together and some don't? Watch this video and find out why. It is amazing. A magnet is a material or object that produces a magnetic field. This magnetic field is invisible but is responsible for t
From playlist Magnets, Magnetism and Charges in Magnetic Fields
Magnetism Chapter 1_2 Magnetic Fields.wmv
Video 2 for the first Chapter on Magnetism.
From playlist PHY1506
Geostatistics session 4 variogram modeling
Introduction to variogram modeling
From playlist Geostatistics GS240
PHYS 201 | Optical Anisotropy 3 - Calcite
Anisotropy in crystals can affect the image you see through a material! -----Polarization playlist - https://www.youtube.com/playlist?list=PL9_sR6Qqqcyl7a3yVcQ4lH5zEh68psVqj -----Use the channel, or take the courses at edX - https://www.edx.org/course?search_query=hafner+ricex -----This m
From playlist PHYS 201 | Polarization
PHYS 201 | Optical Anisotropy 2 - Rupert's Drops
Anisotropy also occurs in glass as seen in Prince Rupert's Drops. -----Polarization playlist - https://www.youtube.com/playlist?list=PL9_sR6Qqqcyl7a3yVcQ4lH5zEh68psVqj -----Use the channel, or take the courses at edX - https://www.edx.org/course?search_query=hafner+ricex -----This materia
From playlist PHYS 201 | Polarization
PHYS 201 | Microscopic Anisotropy 1 - Melting Plastic
Anisotropy is due to the molecular structure of materials, such as polymers demonstrated here. -----Polarization playlist - https://www.youtube.com/playlist?list=PL9_sR6Qqqcyl7a3yVcQ4lH5zEh68psVqj -----Use the channel, or take the courses at edX - https://www.edx.org/course?search_query=ha
From playlist PHYS 201 | Polarization
Geostatistics session 2 variogram calculation
Introduction to calculating experimental variograms
From playlist Geostatistics GS240
A Coil Inside a Magnetic Field Part 1
From playlist Magnetism
Magnetism (3 of 13) Magnetic Field of a Current Carrying Wire, An Explanation
Explains how to determine the direction and magnitude of the magnetic field from a current carrying wire. The direction of the magnetic field is found using the first right hand rule. Point your thumb in the direction of the current and your fingers curl around the wire in the direction
From playlist Magnets, Magnetism and Charges in Magnetic Fields
Topological and Flat Bands - Roderich Moessner
DISCUSSION MEETING : ADVANCES IN GRAPHENE, MAJORANA FERMIONS, QUANTUM COMPUTATION DATES Wednesday 19 Dec, 2012 - Friday 21 Dec, 2012 VENUE Auditorium, New Physical Sciences Building, IISc Quantum computation is one of the most fundamental and important research topics today, from both th
From playlist Advances in Graphene, Majorana fermions, Quantum computation
Comparison of Models of the Early Universe with the Cosmological Data (Lecture 4) by Shiv Sethi
PROGRAM PHYSICS OF THE EARLY UNIVERSE (HYBRID) ORGANIZERS: Robert Brandenberger (McGill University, Canada), Jerome Martin (IAP, France), Subodh Patil (Leiden University, Netherlands) and L. Sriramkumar (IIT - Madras, India) DATE: 03 January 2022 to 12 January 2022 VENUE: Online and Ra
From playlist Physics of the Early Universe - 2022
11 Data Analytics: Variogram Interpretation
Lecture on variogram interpretation.
From playlist Data Analytics and Geostatistics
AWESOME Antigravity experiment! Levitron!
I show an interesting commercially available toy that is the highest magnetic levitation device we've seen so far.
From playlist MAGNETISM