Answer:
65.9°
Explanation:
When light goes through air to glass
angle of incidence, i = 35°
refractive index, n = 1.5
Let r be the angle of refraction
Use Snell's law
[tex]n=\frac{Sini}{Sinr}[/tex]
[tex]1.5=\frac{Sin35}{Sinr}[/tex]
Sin r = 0.382
r = 22.5°
Now the ray is incident on the glass surface.
A = r + r'
Where, r' be the angle of incidence at other surface
r' = 60° - 22.5° = 37.5°
Now use Snell's law at other surface
[tex]\frac{1}{n}=\frac{Sinr'}{Sini'}[/tex]
Where, i' be the angle at which the light exit from other surface.
[tex]\frac{1}{1.5}=\frac{Sin37.5'}{Sini'}[/tex]
Sin i' = 0.913
i' = 65.9°
