black and white photograph portrait of John Tyndall.
Story

Why is the sky blue?

The discovery of the Tyndall effect

John Tyndall was one of the 19th century's most important scientists

by
Europeana Foundation

The brightest flashes in the world of thought are incomplete until they have been proven to have their counterparts in the world of fact. John Tyndall

Today we are celebrating the birth of one of the most important scientists and educators of the 19th century, John Tyndall.

The Irish physicist was born on this day in 1820. He is remembered by many as the man who first explained why the sky is blue.

black and white photograph portrait of John Tyndall.

How did John Tyndall explain why the sky is blue?

This discovery, known as the Tyndall effect, proves the sky’s blue colour results from the scattering of the sun’s rays by molecules in the atmosphere.

Tyndall's major scientific contributions were in physical chemistry, initially with the study of diamagnetism, and then thermal radiation – producing a number of discoveries in atmospheric processes. His experimental physics and resulting discoveries were brought to a wider audience through the publication of seventeen books during the 19th century.

What scientific experiments did John Tyndall do?

Other major experiments from Tyndall include the transmission of both radiant heat and light through various gases and vapours.

Tyndall discovered that water vapour absorbs much more radiant heat than the gases of the atmosphere and argued the consequent importance of atmospheric water vapour in moderating the Earth’s climate—that is, in the natural greenhouse effect.

He is also credited with the first ever atmospheric pollution measurements using infra-red and scattering measurement instruments, showing that ozone, the upper layer of atmosphere, is vital to life on Earth, and it is an oxygen cluster rather than a hydrogen compound.

Tyndall laid significant groundwork in physics for magnetism, electricity, molecular physics, optics, sound, the properties of materials, diamagnetism and heat.