DP Physics (last assessment 2024)

Question 23M.3.SL.TZ2.10

Date	May 2023	Marks available	[Maximum mark: 6]	Reference code	23M.3.SL.TZ2.10
Level	SL	Paper	3	Time zone	TZ2
Command term	Calculate, Deduce, Discuss	Question number	10	Adapted from	N/A

10.

[Maximum mark: 6]

23M.3.SL.TZ2.10

Signals in an optic fibre require amplification when intensity levels in the fibre have fallen to 1.5 % of the original signal. A light signal of initial intensity $I_{0}$ is sent down the optic fibre.

(a)

The fibre has an attenuation per unit length of 0.30 dB km⁻¹. Deduce that the length of the fibre is approximately 60 km before the signal requires amplification.

[2]

Markscheme

attenuation = 10 log₁₀(0.015) OR = −18.2 ✓

length = $\frac{- 18.2}{- 0.3}$

$60.8$ «km» ✓

Allow ECF from MP1

Ignore signs

A signal is sent down a 27 km step-index fibre and received according to the intensity–time graph below.

(b)

Calculate the refractive index of the fibre.

[2]

Markscheme

Δt = 14 × 10⁻⁵ s ✓

« $\frac{27 \times 10^{3}}{14 \times 10^{- 5}}$ = $\frac{3 \times 10^{8}}{n}$ » : n = 1.56 ✓

Award MP1 if Δt = 14 × 10⁻⁵ s is seen anywhere

Allow ECF for MP2, if candidates use Δt = 18 – 3 OR Δt = 20 – 4, accepting n = 1.67 or = 1.78

(c)

Discuss how using a graded-index fibre could reduce waveguide dispersion.

[2]

Markscheme

refractive index of fibre is less at the edges ✓

reduces time taken for the longer path signals ✓

OWTTE

Question 23M.3.SL.TZ2.10

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