Loading [MathJax]/extensions/mml2jax.js
Skip to main content
Library homepage
 

Text Color

Text Size

 

Margin Size

 

Font Type

Enable Dyslexic Font
Physics LibreTexts

Search

  • Filter Results
  • Location
  • Classification
    • Article type
    • Author
    • Embed Hypothes.is?
    • Embebbed CalcPlot3D?
    • Cover Page
    • License
    • Show TOC
    • Transcluded
    • OER program or Publisher
    • Student Analytics
    • Autonumber Section Headings
    • License Version
    • Print CSS
      • Screen CSS
      • PrintOptions
    • Include attachments
    Searching in
    About 4 results
    • https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_and_Applications_(Staelin)/13%3A_Acoustics/13.01%3A_Acoustic_Waves
      This page provides an overview of wave phenomena with a focus on acoustic waves, comparing them to electromagnetic waves in theory and application. It discusses the mathematical formulation of acousti...This page provides an overview of wave phenomena with a focus on acoustic waves, comparing them to electromagnetic waves in theory and application. It discusses the mathematical formulation of acoustic wave equations, phase and group velocities, and their propagation characteristics. Key concepts such as acoustic impedance, intensity, and energy balance in resonators are explored, alongside practical examples.
    • https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_and_Applications_(Staelin)/00%3A_Front_Matter/03%3A_Preface
      This page presents a comprehensive educational resource in electromagnetics that utilizes a physics-based approach to cover a wide range of topics, from statics to dynamics. It aims to provide depth f...This page presents a comprehensive educational resource in electromagnetics that utilizes a physics-based approach to cover a wide range of topics, from statics to dynamics. It aims to provide depth for undergraduate and potential graduate studies within a semester, focusing on key concepts, practical examples, and computational experience with Maxwell's equations. The organization supports flexible teaching methods, and contributions from MIT faculty are recognized.
    • https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_and_Applications_(Staelin)/14%3A_Appendices
      This page discusses key mathematical concepts and tools for electromagnetics, covering numerical constants, complex numbers, their sinusoidal forms, mathematical identities, essential equations, and u...This page discusses key mathematical concepts and tools for electromagnetics, covering numerical constants, complex numbers, their sinusoidal forms, mathematical identities, essential equations, and useful trigonometric and calculus expressions.
    • https://phys.libretexts.org/Bookshelves/Electricity_and_Magnetism/Electromagnetics_and_Applications_(Staelin)/01%3A_Introduction_to_electromagnetics_and_electromagnetic_fields/1.01%3A_Review_of_Foundations
      This page introduces electromagnetics, covering the behavior of electric charges through laws like the Lorentz force and Maxwell's equations. It highlights significant advancements in electrical engin...This page introduces electromagnetics, covering the behavior of electric charges through laws like the Lorentz force and Maxwell's equations. It highlights significant advancements in electrical engineering and discusses conservation laws in physics, including momentum and charge. Key aspects include the interplay of electric charge, current, and photon energy, alongside relationships between frequency, wavelength, and light speed.

    Support Center

    How can we help?