The light will bend into an angle because of the shape of the glass and the location from which the light is coming from.
When light strikes glass, it may be reflected, transmitted through the glass, or absorbed by the material. The amount of light reflected or transmitted depends on the angle of incidence and the refractive index of the glass. Glass is transparent to visible light, which allows it to transmit light through its surface.
When light goes through a glass window, it is primarily transmitted, refracted, and reflected. Glass allows most of the light to pass through (transmitted), while some of the light can be bent (refracted) as it enters and exits the glass. Additionally, a small portion of the light can be reflected off the surface of the glass.
Light is refracted when it passes from one medium to another with a different optical density, such as from air to water or from air to glass. This phenomenon causes the light to change direction as it enters the new medium due to a change in its speed.
When light strikes a transparent body like glass, it can either be transmitted (pass through the glass), reflected (bounce off the surface of the glass), or refracted (bent as it passes through the glass). The amount of light that is transmitted, reflected, and refracted depends on the angle of incidence and the properties of the glass.
Violet light is refracted through the largest angle when white light passes through a glass prism because it has the shortest wavelength of all the colors in the visible spectrum.
It is refracted through raindrops.
absorbed
When light is perpendicular to a glass slab, it passes through unaffected without any deviation in its path. This phenomenon is known as normal incidence, where the incident light ray and the refracted ray are along the same line.
When light passes through a prism, it is refracted, which means it is bent or separated into different colors. This happens because light waves travel at different speeds through different materials, causing them to change direction.
When light is shone at a glass prism, the light is refracted (bent) as it enters the prism, then it undergoes dispersion where the different colors of light are separated due to their different wavelengths. Lastly, the light is refracted again as it exits the prism, producing a spectrum of colors known as a rainbow.
When a ray of light hits glass, it can be reflected, refracted, or absorbed. Reflection happens when the light bounces off the surface of the glass, while refraction occurs when the light enters the glass and changes direction due to the change in speed between air and glass. Some of the light energy may also be absorbed by the glass material.
Light does not pass through a glass of milk. The glass is transparent, so the light will be refracted a bit when entering the glass, and again while leaving the glass, but milk itself is opaque. Light would be absorbed in the milk, and converted into heat.