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4 years ago

9

Late one night on a highway, a car speeds by you and fades into the distance. Under these conditions the pupils of your eyes hav

e diameters of about 7.3 mm. The taillights of this car are separated by a distance of 1.2 m and emit red light (wavelength = 676 nm in vacuum). How far away from you is this car when its taillights appear to merge into a single spot of light because of the effects of diffraction?

1 answer:

zhuklara [117]4 years ago

3 0

Answer:

Distance between car and observer = 10619.5 m

Explanation:

First of all, we have to calculate the minimum angle which is given by the formula;

θ_min = 1.22λ/D

Where;

λ is wavelength = 676 nm = 676 x 10^(9) m

D is diameter = 7.3 mm = 7.3 x 10^(-3)m

Thus;

θ_min = (1.22 * 676 x 10^(-9))/(7.3 x 10^(-3))

θ_min = 1.13 x 10^(-4) rad

The distance between the object and the telescope has a relationship between the minimum angle and the separation distance and it's given by;

θ_min = d/L

Where d is separation distance = 1.2m and L is the distance between the object and the telescope

Making L the subject, we have;

L = d/θ_min

Thus;

L = 1.2/(1.13 * 10^(-4))

L = 10619.5 m

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