A ray of light traveling through air strikes a piece of diamond at an angle of incidence equal to 56 degrees. Calculate the angular separation in degrees between the red light and the violet light in the - QAmmunity.org

A ray of light traveling through air strikes a piece of diamond at an angle of incidence equal to 56 degrees. Calculate the angular separation in degrees between the red light and the violet light in the

asked Jan 4, 2021 126k views

1 Answer

Answer:

The angle of separation is
$\Delta \theta = 0.93 ^o$

Step-by-step explanation:

From the question we are told that

The angle of incidence is
$\theta _ i = 56^o$

The refractive index of violet light in diamond is
n_v = 2.46

The refractive index of red light in diamond is
n_r = 2.41

The wavelength of violet light is
$\lambda _v = 400nm = 400*10^(-9)m$

The wavelength of red light is
$\lambda _r = 700nm = 700*10^(-9)m$

Snell's Law can be represented mathematically as

$(sin \theta_i)/(sin \theta_r) = n$

Where
$\theta_r$ is the angle of refraction

=>
$sin \theta_r = (sin \theta_i)/(n)$

Now considering violet light

$sin \theta_r__(v)} = (sin \theta_i)/(n_v)$

substituting values

$sin \theta_r__(v)} = (sin (56))/(2.46)$

$sin \theta_r__(v)} = 0.337$

$\theta_r__(v)} = sin ^(-1) (0.337)$

$\theta_r__(v)} = 19.69^o$

Now considering red light

$sin \theta_r__(R)} = (sin \theta_i)/(n_r)$

substituting values

$sin \theta_r__(R)} = (sin (56))/(2.41)$

$sin \theta_r__(R)} = 0.344$

$\theta_r__(R)} = sin ^(-1) (0.344)$

$\theta_r__(R)} = 20.12^o$

The angle of separation between the red light and the violet light is mathematically evaluated as

$\Delta \theta = \theta_r__(R)} - \theta_r__(V)}$

substituting values

$\Delta \theta =20.12 - 19.69$

$\Delta \theta = 0.93 ^o$

Aditya Dharma answered Jan 10, 2021

by Aditya Dharma

5.2k points

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