Big Bang Theory
Historical Background
In 1905, Danish astronomer Ejnar Hertzsprung (1873–1967) compared the width of various stars' absorption lines to the absolute luminosity, or brightness of the stars as determined from proper motion measurements. Hertzsprung found that that wider lines correspond to larger and brighter stars. This provided a way to determine the absolute brightness of a star from its spectrum. Knowing its absolute brightness, he could then determine its distance from Earth. This method applied to stars at any distance, as opposed to the parallax and absolute-motion methods, which applied only to stars quite near the Sun, but was limited in accuracy.
In 1908, U.S. astronomer Henrietta Swan Leavitt (1868–1921) discovered that Cepheid variables, a type of star in which the brightness changes in a regular manner, showing a well-defined relationship between period (time required for brightness to wax and wane through a full cycle) and absolute luminosity. Brighter Cepheid variable stars have longer periods while dimmer ones have shorter periods. Leavitt calculated a simple relationship between brightness and period. This discovery had a profound effect on stellar distance measurements. Now, any time a Cepheid could be found—in, say, a distant galaxy—the distance to it could be determined accurately.
Additional topics
- Big Bang Theory - The Spiral Nebulae
- Big Bang Theory - Measurement Techniques
- Other Free Encyclopedias
Science EncyclopediaScience & Philosophy: Ballistic galvanometer to Big–bang theoryBig Bang Theory - Studying The Universe, Measurement Techniques, Historical Background, The Spiral Nebulae, Implications Of Hubble's Law