Physics · 3.2 Light · Paper 6 practical
Refraction. Bend it.
Trace a ray of light through a rectangular glass block using the optical-pin method. Measure the angle of incidence i and angle of refraction r, then determine the refractive index n = sin i / sin r.
0625 Topic 3.2.2 — Refraction
0625 Topic 3.2.3 — Refractive index
Paper 6 — ATP
Tip: drag pin P₁ or P₂ on the canvas to set the incident ray. Shortcuts Space record · R reset.
Variables
40
1.50
⚠ Inside the block, the ray reaches the second face at an angle beyond the critical angle — total internal reflection would occur. Reduce i.
Live readouts
Angle of incidence i
40.0°
Angle of refraction r
25.4°
sin i
0.643
sin r
0.428
n = sin i / sin r
1.503
Snell's law: n₁ sin i = n₂ sin r. With n₁ = 1.00 (air), n₂ = sin i / sin r.
Trial data — vary i, measure r
Set an angle then press Record reading. Take five values of i from 10° to 70°.
sin i vs sin r — gradient = n
📋 Method (Cambridge ATP procedure)
- Place the glass block in the centre of a sheet of A4 paper and trace its outline carefully with a sharp pencil. Remove the block.
- Draw the normal (perpendicular line) at a point on the longest boundary edge.
- Using a protractor, construct an incident ray at the angle of incidence i = 30°.
- Press two optical pins (P₁ and P₂) on the incident ray, at least 5 cm apart, to reduce error in tracing the line.
- Replace the block on its outline.
- Look through the opposite side of the block at the images of P₁ and P₂. Move your head until the images appear in a single line.
- Press pins P₃ and P₄ on the paper so that they line up with the images of P₁ and P₂.
- Remove the block and pins. Draw the emergent ray through P₃ and P₄ back to the block boundary.
- Join the entry and exit points to mark the refracted ray inside the block.
- Measure the angle of refraction r with a protractor.
- Repeat for five values of i between 10° and 70°.
Analytical control: plot sin i (y) against sin r (x). The gradient of the straight line through the origin is the refractive index n.
⚠ Sources of error & precautions
- Pin alignment — use thin, sharp pencil lines and space the pins at least 5 cm apart so a small alignment error makes little change to the ray direction.
- Block slipping — do not move the block once its outline is traced; if it moves, re-trace it.
- Protractor reading — measure both i and r from the normal, eye perpendicular to the paper to avoid parallax.
- Parallel sides — use a block with parallel sides; the emergent ray is then parallel to the incident ray but laterally displaced.
- Range of i — at very small angles, both i and r are small and a 1° error becomes a large percentage error. Use a sensible spread.
🧪 Apparatus list
- Rectangular glass block
- Soft board / pin board
- A4 plain paper
- Four optical pins (P₁, P₂, P₃, P₄)
- Sharp pencil and ruler
- Protractor (resolution ± 1°)
🎯 Syllabus reference (0625)
- 3.2.2 Refraction of light — describe an experimental demonstration of the refraction of light using a transparent block; define angle of incidence and angle of refraction; recall the meaning of the term normal.
- 3.2.3 Refractive index — recall and use the equation n = sin i / sin r.
- Paper 6 — record results in a table; plot a graph with a straight line through the origin; calculate a gradient using a large triangle on the line of best fit.