Johann Christian Andreas Doppler: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Thomas Simmons
(New page: Christian Doppler is known for relating the change in wavelength with movement, now known as the Doppler Effect or Doppler Shift, which he published in 1842. Dutch meteorologist Buys-Ballo...)
 
imported>Thomas Simmons
mNo edit summary
Line 1: Line 1:
Christian Doppler is known for relating the change in wavelength with movement, now known as the Doppler Effect or Doppler Shift, which he published in 1842. Dutch meteorologist Buys-Ballot used musicians sitting on a moving train to approach and recede from the observer to substantiate Doppler's theory that the frequency was higher while approaching and lower while moving away. This effect, discovered independently by [[Armand Fizeau]] in 1848 was also used to explain [[Redshift|redshift]] in the light spectrum
Christian Doppler is known for relating the change in wavelength with movement, now known as the Doppler Effect or Doppler Shift, which he published in 1842. Dutch meteorologist Buys-Ballot used musicians sitting on a moving train to approach and recede from the observer to substantiate Doppler's theory that the frequency was higher while approaching and lower while moving away. This effect, discovered independently by [[Armand Fizeau]] in 1848 was also used to explain [[Redshift|redshift]] in the light spectrum.<ref>[http://www.math.uni-hamburg.de/spag/ign/events/pdf/wf-doppl.pdf Christian Doppler (1803–1853) and the impact of the Doppler effect in astronomy] Wolfschmidt, Gudrun. Institute for History of Science, Hamburg University</ref>


{{TOC-right}}
{{TOC-right}}

Revision as of 16:51, 6 June 2009

Christian Doppler is known for relating the change in wavelength with movement, now known as the Doppler Effect or Doppler Shift, which he published in 1842. Dutch meteorologist Buys-Ballot used musicians sitting on a moving train to approach and recede from the observer to substantiate Doppler's theory that the frequency was higher while approaching and lower while moving away. This effect, discovered independently by Armand Fizeau in 1848 was also used to explain redshift in the light spectrum.[1]

Template:TOC-right

[edit intro]

References

  1. Christian Doppler (1803–1853) and the impact of the Doppler effect in astronomy Wolfschmidt, Gudrun. Institute for History of Science, Hamburg University