13.3 Refraction of Light

Cards (42)

  • What is the definition of refraction of light?
    Bending of light
  • In refraction, the angle of refraction is not equal to the angle of incidence
  • The equation for Snell's Law is n₁sinθ₁ = n₂sinθ₂
  • The index of refraction measures how much the speed of light is reduced in a medium.
  • Total internal reflection occurs when light travels from a medium with a lower refractive index to a higher one.
    False
  • In reflection, the angle of incidence equals the angle of reflection.
    True
  • What does Snell's Law describe?
    Bending of light
  • If light passes from air (n₁ = 1.00) to water (n₂ = 1.33) at an angle of incidence of 30°, what is the angle of refraction?
    22.1°
  • Why does light bend when it passes from air to water?
    Change in speed
  • What is the refractive index of air?
    ~1.00
  • Under what conditions does total internal reflection occur?
    Higher to lower index
  • Light passing from glass to air undergoes total internal reflection at approximately 41.8°.

    True
  • What does Snell's Law describe?
    Light bending between media
  • Snell's Law relates the refractive indices and angles of incidence and refraction.
    True
  • Light travels slower in glass than in water due to its higher refractive index.

    True
  • What is the critical angle when light passes from glass (n₁ = 1.5) to air (n₂ = 1.0)?
    41.8°
  • Total internal reflection occurs when light hits an interface at an angle greater than the critical angle.

    True
  • Match the term with its description:
    Refractive index ↔️ Measure of light bending
    Angle of incidence ↔️ Angle between light and normal
    Angle of refraction ↔️ Angle after light bends
  • Light bends towards the normal when it travels from a medium with a lower refractive index to one with a higher refractive index.
    True
  • Light bounces off a surface in the process of reflection
  • Match the example with the type of light interaction:
    Mirror ↔️ Reflection
    Prism ↔️ Refraction
  • In Snell's Law, n₁ and n₂ represent the refractive indices of the two media.

    True
  • Match the medium with its refractive index:
    Vacuum ↔️ 1.00
    Water ↔️ 1.33
    Glass ↔️ 1.5-1.9
  • The critical angle for total internal reflection is given by the equation θ_c = sin⁻¹(n₂/n₁).
  • Light travels slower in water compared to air.
    True
  • What does θ_c represent in the critical angle equation?
    Critical angle
  • In reflection, the angle of incidence is equal to the angle of reflection.
  • Match the component with its definition:
    n₁ ↔️ Refractive index of medium 1
    θ₁ ↔️ Angle of incidence
    n₂ ↔️ Refractive index of medium 2
    θ₂ ↔️ Angle of refraction
  • The equation for the index of refraction is n = c/v.
  • The equation for the critical angle is θc = sin⁻¹(n₂/n₁).
  • What is the critical angle when light passes from glass (n₁ = 1.5) to air (n₂ = 1.0)?
    41.8°
  • What is the equation for Snell's Law?
    n1sinθ1=n₁sinθ₁ =n2sinθ2 n₂sinθ₂
  • If light travels from air (n₁ = 1.00) to water (n₂ = 1.33) at an incidence angle of 30°, what is the angle of refraction?
    22.1°
  • As the refractive index increases, the speed of light in that medium decreases
  • Total internal reflection occurs when light strikes the interface at an angle greater than the critical angle.
  • What is the definition of refraction of light?
    Bending of light
  • The equation for Snell's Law is n₁sinθ₁ = n₂sinθ₂.
  • How is the index of refraction defined in terms of light speed?
    c/v
  • What is the critical angle in total internal reflection?
    Angle of total reflection
  • Light hitting a glass-air interface at an angle greater than 41.8° undergoes total internal reflection.
    True