Some cars are fitted with a water sensor designed to switch on windscreen wipers automatically when it rains - AQA - A-Level Physics - Question 2 - 2019 - Paper 1

1. The prism and windscreen glass have the same refractive index, which allows for seamless transmission of light without refraction at the interface.
2. The edges of the prism are fitted without gaps to prevent any entry of air, thereby ensuring a total internal reflection as the light travels to the next medium.

Since the refractive index of the windscreen glass (n = 1.52) is greater than that of air (n 1), the ray experiences total internal reflection when it hits the boundary at angles greater than the critical angle. The critical angle can be calculated using:

$C = \arcsin\left(\frac{n_{2}}{n_{1}}\right) = \arcsin\left(\frac{1}{1.52}\right) \approx 41.1^{\circ}$

Thus, the path shown in Figure 1 is a result of the light reflecting off the surfaces A, B, and C while remaining within the glass medium.

The presence of water at A causes the intensity of the light at the detector to decrease due to a change in refractive index. When the ray hits the water, which has a refractive index of 1.33, some light escapes into the water rather than being totally internally reflected. The intensity decrease can be explained using:

$I = I_{0} \cdot (\text{transmission coefficient})$

where the transmission coefficient depends on the ratio of the refractive indices, leading to a reduced intensity at the detector due to more light refracted out into the water.

Variations in the refractive index of the windscreen glass can lead to changes in the light's path due to different angles of refraction. A higher refractive index at certain areas will result in light bending more sharply, potentially causing some rays to exit the glass rather than continuing through the sensor system. This could lead to inconsistent detection of water droplets.

1. Increased distance between the LED and detector results in a wider spread of the light ray, potentially reducing the number of rays that reach the detector, thus decreasing sensitivity to smaller droplets.
2. More refraction caused by the further distance may allow the sensor to detect larger water droplets more effectively, but could also introduce noise from other environmental factors, affecting overall sensitivity.