The word "obliquity of the ecliptic" refers to the angle between the plane of the Earth's orbit and the plane of the ecliptic. The IPA phonetic transcription for this word is /əˈblɪkwɪti əv ði iːˈklɪptɪk/. The "o" is pronounced as a schwa, and the stress is on the second and fifth syllables. The "b" is pronounced with a light aspiration, and the "q" is pronounced like a "k". The "ti" at the end of the word is pronounced as "sh" sound.
Obliquity of the ecliptic refers to the angular deviation or tilt of the Earth's axis in relation to its orbital plane or the ecliptic. It is a fundamental astronomical parameter that plays a crucial role in understanding the Earth's seasons and the occurrence of solstices and equinoxes.
Specifically, the ecliptic is the imaginary circle on the celestial sphere traced by the Sun as the Earth orbits around it. The Earth's axis, on the other hand, is the line around which the planet rotates, passing through its North and South Poles. The angle between these two lines, measured at a specific epoch or reference date, is known as the obliquity of the ecliptic.
The obliquity of the ecliptic has a well-documented value that gradually changes over long periods of time due to various astronomical factors, including gravitational forces exerted on Earth by the Sun and the Moon. Currently, the obliquity is approximately 23.44 degrees. However, it varies cyclically between approximately 22.1 and 24.5 degrees over a period of about 41,000 years.
The obliquity of the ecliptic significantly impacts the distribution of solar energy on Earth, which in turn influences the Earth's climate and weather patterns. It determines the extent and intensity of seasonal variations by influencing the amount of solar radiation received by different regions at various times of the year. Moreover, it affects the lengths of daylight hours and the altitude of the Sun above the horizon.
Understanding the obliquity of the ecliptic is essential for astronomers, climatologists, and geographers, as it provides valuable insights into the Earth's axial tilt and its profound effects on our planet's physical environment and the planet itself.
The angle of the inclination of the equator and ecliptic.
Etymological and pronouncing dictionary of the English language. By Stormonth, James, Phelp, P. H. Published 1874.