12.5 Electromagnetic Waves

    Cards (51)

    • Electromagnetic waves travel at the speed of light in a vacuum.

      True
    • What type of wave are electromagnetic waves?
      Transverse wave
    • What is the approximate speed of light in a vacuum?
      3×108 m / s3 \times 10^{8} \text{ m / s}
    • What is the common property shared by all electromagnetic waves?
      Transverse waves
    • In electromagnetic waves, electric and magnetic fields oscillate perpendicularly to each other and to the direction of wave propagation.

      True
    • Unlike mechanical waves, electromagnetic waves do not require a medium
    • Electromagnetic waves carry energy, allowing them to transfer heat, light, and other forms of radiation
    • Electromagnetic waves travel at a constant speed in a vacuum
    • The electric field in an electromagnetic wave sustains the magnetic field.
      False
    • All electromagnetic waves propagate at the same speed of light in a vacuum.

      True
    • The electric and magnetic fields in electromagnetic waves oscillate perpendicularly to the direction of wave propagation
    • In electromagnetic waves, the electric field generates the magnetic field.
    • What is the electromagnetic spectrum based on?
      Wavelength and frequency
    • What is the frequency range of radio waves?
      < 300 GHz
    • What is the wavelength range of visible light?
      400 nm - 700 nm
    • The speed of light in a vacuum depends on the wave's frequency.
      False
    • Order the following mediums from lowest to highest refractive index:
      1️⃣ Vacuum
      2️⃣ Air
      3️⃣ Water
      4️⃣ Glass
    • In electromagnetic waves, the oscillating electric and magnetic fields are mutually induced.
    • Electromagnetic waves are created by the oscillation of electric and magnetic
    • Electromagnetic waves are classified based on their wavelength and frequency.
    • All electromagnetic waves differ in their specific wavelength and frequency
    • Do electromagnetic waves require a medium to travel?
      No
    • Which type of electromagnetic wave has the longest wavelength?
      Radio Waves
    • Electromagnetic waves require a medium to travel.
      False
    • The electric and magnetic fields in electromagnetic waves oscillate parallel to each other.
      False
    • The electromagnetic spectrum classifies waves based on their wavelength and frequency
    • Electromagnetic waves are created by the oscillation of electric and magnetic fields
    • In electromagnetic waves, in what direction do electric and magnetic fields oscillate relative to each other?
      Perpendicularly
    • Match the property with its description in electromagnetic waves:
      Electric Field ↔️ Perpendicular to wave propagation
      Magnetic Field ↔️ Perpendicular to wave propagation and E
    • All electromagnetic waves are transverse waves.
      True
    • Match the type of electromagnetic wave with its wavelength range:
      Microwaves ↔️ 1 mm - 1 m
      Infrared ↔️ 700 nm - 1 mm
    • X-rays have a wavelength range of 0.01 nm to 10 nm.
    • What does the refractive index of a medium quantify?
      Change in wave speed
    • The refractive index of vacuum is 1.

      True
    • The mutual induction of electric and magnetic fields allows electromagnetic waves to propagate through space.

      True
    • Match the type of electromagnetic wave with its wavelength range:
      Radio Waves ↔️ > 1 mm
      Microwaves ↔️ 1 mm - 1 m
      Infrared ↔️ 700 nm - 1 mm
      Visible Light ↔️ 400 nm - 700 nm
      Ultraviolet ↔️ 10 nm - 400 nm
      X-rays ↔️ 0.01 nm - 10 nm
      Gamma Rays ↔️ < 0.01 nm
    • What is the constant speed at which electromagnetic waves travel in a vacuum?
      3×108 m / s3 \times 10^{8} \text{ m / s}
    • Match the wave type with its propagation speed:
      Electromagnetic Waves ↔️ Speed of light (cc)
      Mechanical Waves ↔️ Varies by medium
    • Electromagnetic waves carry energy.
      True
    • Match the property of electromagnetic waves with its description:
      Speed of Light ↔️ Travels at 3×108 m / s3 \times 10^{8} \text{ m / s} in a vacuum
      Transverse Nature ↔️ Electric and magnetic fields oscillate perpendicularly
      Energy Transfer ↔️ Carries heat, light, and radiation
      Interaction with Matter ↔️ Absorption, reflection, or transmission
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