A ray of light traveling through air is incident on a flat vertical mirror. The ray arrives at the mirror with an angle of incidence of 65.00°. After reflecting from the mirror, the light enters carbon disulphide (refractive inde

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Refraction Through Carbon Disulphide – Physics Solution

PTC Practice Problem – Refraction and Snell’s Law

Question:

A ray of light traveling through air is incident on a flat vertical mirror. The ray arrives at the mirror with an angle of incidence of 65.00°. After reflecting from the mirror, the light enters carbon disulphide (refractive index n = 1.628). The mirror and the surface of the carbon disulphide are separated vertically by 10.00 cm, and the carbon disulphide layer is 32.00 cm thick.

  • (a) Find the angle of refraction inside the carbon disulphide.
  • (b) Determine how far from the corner the ray exits the carbon disulphide.

Answer and Explanation:

Step 1: Apply Snell’s Law to Find Angle of Refraction

We use Snell’s Law:

n₁ sin(θ₁) = n₂ sin(θ₂)

Where:

  • n₁ = 1.00 (air)
  • θ₁ = 65.00°
  • n₂ = 1.628 (carbon disulphide)
sin(θ₂) = (1.00 / 1.628) × sin(65.00°)
sin(θ₂) = 0.6144 × 0.9063 ≈ 0.5567
⇒ θ₂ = sin⁻¹(0.5567) ≈ 33.78°

Step 2: Calculate Horizontal Exit Distance

We now use trigonometry to find the horizontal distance the ray travels while passing through the 32.00 cm thick carbon disulphide:

Horizontal distance = 32.00 cm × tan(33.78°)
= 32.00 × 0.6702 ≈ 21.45 cm

Add the vertical separation (from mirror to CS₂ surface):

Total horizontal distance from the corner = 10.00 cm + 21.45 cm = 31.45 cm

Final Answers:
(a) Angle of refraction inside carbon disulphide: 33.78°
(b) Distance from the corner where the ray exits: 31.45 cm

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