04001nam 22006735 450 991100734950332120250526130233.09783031679407(electronic bk.)978303167939110.1007/978-3-031-67940-7(MiAaPQ)EBC32131005(Au-PeEL)EBL32131005(CKB)38929095100041(DE-He213)978-3-031-67940-7(OCoLC)1521494981(EXLCZ)993892909510004120250526d2025 u| 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierExercises in Electricity and Magnetism 100 Examples and 400 Exercises /by Teruo Matsushita1st ed. 2025.Cham :Springer Nature Switzerland :Imprint: Springer,2025.1 online resource (569 pages)Print version: Matsushita, Teruo Exercises in Electricity and Magnetism Cham : Springer,c2025 9783031679391 Electrostatic Field -- Conductors -- Conductor System in Vacuum -- Dielectric Materials -- Steady Current -- Current and Magnetic Flux Density -- Superconductors -- Current Systems -- Magnetic Materials -- Electromagnetic Induction -- Displacement Current and Maxwell’s Equations -- Electromagnetic Wave.This book covers a great variety of problems on electricity and magnetism described in the textbook, "Electricity and Magnetism", in which superconductors are classified as one kind of magnetic materials. These problems will be helpful for a deeper understanding of the E-B analogy through a comparison between static electric and magnetic phenomena. Additionally, the usefulness of the vector potential is widely introduced. For example, the vector potential is directly used to determine the induced electromotive force. The author provides various exercises that are not covered in the textbook. The Poynting vector is useful for understanding the energy flow into capacitors or transmission lines during a charging process or into resistors during a dissipation process. A comparison between normal conducting and superconducting transmission lines shows a clear difference in the energy flow, although the final stored magnetic energy is the same. The electromagnetic potential of electromagnetic transverse electric (TE) and transverse magnetic (TM) waves in a waveguide also presents an interesting difference: The electric potential is zero in one case and non-zero in the other case. The reason for such a difference is explored. The relationship between the electric charge and electric current induced on the conductor surface is investigated for an electromagnetic wave in a waveguide or for that reflected on a conductor surface. This exercise book can be used together with the textbook 'Electricity and Magnetism' by the same author.ElectrodynamicsSuperconductivitySuperconductorsCondensed matterMathematical physicsElectrical engineeringClassical ElectrodynamicsSuperconductivityCondensed MatterMathematical Methods in PhysicsElectrical and Electronic EngineeringElectrodynamics.Superconductivity.Superconductors.Condensed matter.Mathematical physics.Electrical engineering.Classical Electrodynamics.Superconductivity.Condensed Matter.Mathematical Methods in Physics.Electrical and Electronic Engineering.537.6Matsushita Teruo792013MiAaPQMiAaPQMiAaPQ9911007349503321Exercises in Electricity and Magnetism4389683UNINA