For us, light is an extraordinary phenomenon that illuminates our world and makes it visible. What would we do without it? Since we first opened our eyes, humans have worshipped the Sun as a god of light and a source of life and security. The emergence of rational thought brought with it a need to question the nature of this phenomenon. So what exactly is light?

Light is a form of energy produced by matter. To understand how light is created, we must first take a look at atoms, the building blocks of matter.

An atom somewhat resembles a beehive with a swarm of bees buzzing around it. The beehive represents the nucleus of the atom and the bee swarm represents the clouds of electrons that circle the nucleus.

An atom’s nucleus and electrons share the distinctive property of being electrically charged, but with opposite charges: the nucleus has what is known as a “positive” charge whereas electrons have “negative” charges. In the world of atomic particles, the adage holds true that opposites attract and thus the nucleus and electrons are mutually attracted to each other within the atom.

There is an important difference between bees and electrons: bees can fly wherever they want around a beehive but electrons cannot roam freely around the nucleus of an atom. In fact, despite their electrical attraction to the nucleus, electrons are restricted to specific orbits (scientists call them “orbitals”) that lie at fixed distances from the centre of the atom.

Although an electron cannot randomly occupy positions within an atom, it can nonetheless change its distance from the nucleus by changing its energy level. To do this, its energy content must be modified to match the energy level of the new orbit that it will enter.

In a manner of speaking, photons and electromagnetic waves are synonyms, and in everyday terms they are simply referred to as “light”. In fact, a photon can be thought of as a “particle of light” and an electromagnetic wave as a “lightwave”.
For example, to move from a distant orbit into a closer orbit, the electron must eliminate some of its energy. The energy released is partly electrical in nature and – as with all negatively charged bodies – partly magnetic. This excess energy is released by the electron in the form of an energy packet known as a “photon”.
ASTROLab of Mont-Mégantic National Park

© 2006 An original idea and a realization of the ASTROLab of Mont-Mégantic National Park

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