Consider that a ray of light is travelling from glass to water. The refractive index of water is 1.30 (i e n . ., 1.30 w = ) and refractive index of glass is 1.70 (i e n . ., 1.70 g = ). Again, remind yourself that light is incident from glass to water. At the glass-water interface the light suffers total internal reflection (TIR). Find the condition for total internal reflection

Total internal reflection can happen when light goes from a medium with higher refractive index (in this case, glass) to a medium with lower refractive index (in this case, water).

Snell's Law tells us that [tex]n_isin\theta_i=n_rsin\theta_r[/tex], where the i stands for incident (in this case, glass) and the r for refracted (in this case, water). We want to know when [tex]\theta_r=90^{\circ}[/tex], that is, when [tex]n_isin\theta_i=n_r[/tex], and this happens when the incident angle is:

[tex]\theta_i=arcsin(\frac{n_r}{n_i})[/tex]

Which for our values means:

[tex]\theta_i=arcsin(\frac{1.3}{1.7})=arcsin(0.76470588235)=49.88^{\circ}[/tex]