In school, you are shown an experiment in which you take three cardboards with pinholes in them, place on one side and look from the other side. If the flame of the candle and the three pinholes are in a straight line, you can see the candle. Even if one of them is displaced a little, you cannot see the candle. So, light travels in a straight line, isn’t it?
Not necessarily, light travels as a wave, that it can bend around objects, it can diffract and interfere, etc.
In optical region, light has a wavelength of about half a micrometre. If it encounters an obstacle of about this size, it can bend around it and can be seen on the other side. Thus, a micrometre size obstacle will not be able to stop a light ray.
If the obstacle is much larger, however, light will not be able to bend to that extent, and will not be seen on the other side. This is a property of a wave in general, and can be seen in sound waves too.
The sound waves of our speech has a wavelength of about 50 cm to 1 m. If it meets an obstacle of the size of a few metres, it bends around it and reaches points behind the obstacles. But when it comes across a larger obstacle of a few hundred metres, such as a hillock, most of it is reflected and is heard as an echo.
Then what about the primary school experiment? What happens there is that when we move any cardboard, the displacement is of the order of a few millimetres, which is much larger than the wavelength of light. Hence the candle can’t be seen. If we are able to move one of the cardboards by a micrometre or less, light will be able to diffract and the candle will be seen!
Check this out:
https://knowledgeglutton.home.blog/2021/05/27/how-to-earn-10-day-by-reading-emails/
Knowledge Glutton 