Waves

avatar
Created by
Bella

Cards (34)

  • Wave Type
    Mechanical Waves: require a physical medium (e.g., water, air, solid). Electromagnetic Waves: don't require a medium; can travel through a vacuum.
  • Amplitude
    Maximum displacement of the wave from its equilibrium position.
  • Frequency
    Number of oscillations (or cycles) per second, measured in Hz.
  • Wavelength
    Distance between two consecutive points on a wave that are in phase.
  • Speed
    Distance traveled per unit time; depends on medium and type of wave.
  • Reflection
    Change in direction at a boundary.
  • Refraction
    Change in direction due to a change in medium.
  • Diffraction
    Bending around obstacles or through small openings.
  • Interference
    Superposition of two or more waves, resulting in a new wave pattern.
  • Transverse Wave
    Oscillations occur perpendicular to the direction of propagation. Examples: light waves, water waves, seismic S-waves.
  • Longitudinal Wave
    Oscillations occur parallel to the direction of propagation. Examples: sound waves, seismic P-waves.
  • Electromagnetic Wave
    A type of wave that exhibits both electric and magnetic properties.
  • Gamma Rays
    Shortest wavelength and highest frequency, used in medical treatments.
    1. rays
    Shorter than UV, used in medical imaging.
  • Ultraviolet (UV) Waves

    Shorter than visible light, can cause chemical reactions.
  • Visible Light
    Range of frequencies and wavelengths visible to human eye.
  • Infrared (IR) Waves

    Longer than microwaves, felt as heat.
  • Microwaves
    Longer than radio waves, used for heating and communication.
  • Radio Waves
    Lowest frequency and longest wavelength electromagnetic waves.
  • Speed (EM Waves)

    Approximately 299,792,458 m/s in vacuum.
  • Wavelength (EM Waves)

    Measured in meters, ranges from very long (e.g., radio waves) to very short (e.g., gamma rays).
  • Wave Speed
    The distance traveled by a wave per unit of time. Speed is measured in meters per second (m/s), kilometers per hour (km/h), or miles per hour (mph).
  • Constant Wave Speed
    Waves that travel at a constant speed in a medium, such as a solid, liquid, or gas.
  • Energy
    The capacity to do work, measured in Joules (J).
  • Kinetic Energy
    The energy of motion, depends on the object's velocity.
  • Potential Energy
    Stored energy, depends on the object's position or configuration.
  • Thermal Energy
    The energy of heat, transferred between objects through conduction or convection.
  • Electromagnetic Energy
    The energy of electromagnetic waves, such as light or radio waves.
  • Energy Conversion
    The process of changing energy from one form to another, such as kinetic to thermal or electromagnetic to kinetic.
  • Law of Energy Conservation
    Energy cannot be created or destroyed, only converted from one form to another.
  • Energy Efficiency
    The ratio of useful work or energy output to the total energy input, often expressed as a percentage.
  • Acceleration
    The rate of change of velocity, measured in m/s².
  • Deceleration
    The rate of change of velocity in the opposite direction, also measured in m/s².
  • Net Force
    The force that causes an object to accelerate or decelerate.