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8: Electromagnetic Radiation

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    • 8.1: Introduction and Learning Objectives
      This page details learning objectives about electromagnetic waves and the spectrum, focusing on their properties, applications, and implications. Key topics include wavelength-frequency relationships, radiation, color perception, and particle-wave duality. It highlights the significance of engaging K-12 students through hands-on experiments and real-world applications to enhance understanding.
    • 8.2: Electromagnetic Waves Overview
      Origins of the concept of electromagnetic waves.
    • 8.3: Electromagnetic Spectrum
      Light can be described as a continuous spectrum of frequencies that correspond to wavelengths of light.
    • 8.4: Electromagnetic Waves and Materials
      This page discusses how electromagnetic waves interact with objects via reflection, absorption, and transmission. It explains how surface characteristics like 'shiny' and 'dull' affect light reflection and how color is determined by the absorption and reflection of wavelengths. The page also notes that wave behavior changes at material boundaries, with speed variations impacting reflection and direction.
    • 8.5: Light, Color and Perception
      This page explains human color perception and vision, detailing how light is processed by the retina and relayed to the brain. It differentiates between cones, responsible for color detection in bright light, and rods, which are light-sensitive but color-blind. Color perception is influenced by wavelength, ambient lighting, and object properties. The text proposes a complex model of color vision that encompasses color constancy and retinal neural processing.
    • 8.6: An Alternate View of Electromagnetic Energy
      The seeds of the quantum revolution are simple harmonic oscillators.
    • 8.7: A New Paradigm
      'Is' light a wave or 'is' it a particle? Yes.
    • 8.8: End of Chapter Activity
      This page presents a lesson plan for teaching 1st graders about electromagnetic radiation, focusing on concepts like wavelength, frequency, and color. It highlights the importance of simplifying these topics and engaging students through hands-on activities, such as light exploration with prisms and color mixing with filters. Creative projects like art and digital stories are included to deepen understanding, with AI tools recommended for interactive learning and assessing comprehension.
    • 8.9: End of Chapter Key Terms
      This page defines key concepts in electromagnetic waves and quantum mechanics, including terms like source charge, amplitude, wavelength, and frequency. It discusses wave interference, intensity, and the electromagnetic spectrum, focusing on infrared and ultraviolet light. Additional topics include photoreceptors, color constancy, Wien's Law, quantized energy, the photoelectric effect, laser components, and principles of particle-wave duality and quantum mechanics.

    8: Electromagnetic Radiation is shared under a CC BY-NC-SA license and was authored, remixed, and/or curated by LibreTexts.

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